Nature-inspired recycling of a protein mixture into a green fluorescent protein-based hydrogel

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rel="alternate" hreflang="en" href="https://www.peeref.com/works/83407020" > <span>English</span> </a> <a rel="alternate" hreflang="zh" href="https://www.peeref.com/zh/works/83407020" > <span>中文</span> </a> </div> </li> </ul> </ul> </div> </nav> <main> <div id="top-info-banner" class="container-fluid mb-0"> <div class="container"> <div class="d-flex align-items-center" style="margin-top: 30px;"> <span class="text-white"> <strong class="f18">☆</strong> <span class="f16">3.8</span> </span> <span class="mx-3"></span> <span class="tag">Article</span> </div> <h1 class="title title-for-article"> Nature-inspired recycling of a protein mixture into a green fluorescent protein-based hydrogel </h1> <div class="help-links-left"> <p class="pub-info"> RSC SUSTAINABILITY (2024) </p> </div> </div> </div> <div id="article-sticky-navbar"> <div class="container"> <div class="d-flex justify-content-between flex-wrap flex-md-nowrap"> <div class="d-flex align-items-center mb-2"> <ul class="nav 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</div> <div class="mb-3 pb-3"> <h4 class="mt-0">出版社</h4> <div class="f16"> <h5 class="title f16 text-primary"> ROYAL SOC CHEMISTRY </h5> <div class="my-2"> DOI: 10.1039/d4su00212a </div> </div> </div> <div class="mb-3 pb-3"> <h4 class="mt-0">关键词</h4> <div class="f16"> - </div> </div> <div class="mb-3 pb-3"> <h4 class="mt-0">类别</h4> <div class="f16"> <span class="d-block"> <a href="https://www.peeref.com/zh/works/list?category=Chemistry%2C+Multidisciplinary" target="_blank" class="text-dark btn btn-link p-0 text-left"> Chemistry, Multidisciplinary </a> </span> <span class="d-block"> <a href="https://www.peeref.com/zh/works/list?category=Green+%26+Sustainable+Science+%26+Technology" target="_blank" class="text-dark btn btn-link p-0 text-left"> Green & Sustainable Science & Technology </a> </span> <span class="d-block"> <a href="https://www.peeref.com/zh/works/list?category=Engineering%2C+Chemical" target="_blank" class="text-dark btn btn-link p-0 text-left"> Engineering, Chemical </a> </span> </div> </div> <div class="mb-3 pb-3"> <h4 class="mt-0">资金</h4> <div class="f16"> <ol class=""> <li>Swiss National Science Foundation (SNF) NCCR Bio-Inspired Materials [51NF40-182881]</li> <li>ERC Advanced Grant [884114-NaCRe]</li> </ol> </div> </div> </div> <div class="f15 panel-box rounded shadow-none border"> <h4 class="mt-0 text-center">向作者/读者索取更多资源</h4> <div class="requests"> <div class="requests-item"> <div class="icon"> <img src="https://peeref-open.s3.amazonaws.com/images/file.png" alt=""> </div> <h4>Protocol</h4> <p> <a href="https://www.peeref.com/zh/works/83407020/resource" class="btn btn-outline-primary btn-sm"> 社区支持 </a> </p> </div> <div class="requests-item"> <div class="icon"> <img src="https://peeref-open.s3.amazonaws.com/images/experiment.png" alt=""> </div> <h4>Reagent</h4> <p> <a href="https://www.peeref.com/zh/works/83407020/resource" class="btn btn-outline-primary btn-sm"> 社区支持 </a> </p> </div> </div> </div> </div> <div class="col-md-8 px-0 pl-md-3"> <div id="article-summary-panel" class="mb-4"> <ul class="nav nav-tabs" style="list-style: none; padding-left: 0;"> <li class="active"> <a href="#ai_summary" data-toggle="tab" class="summary-tab mx-0 f16 text-dark"> <strong>智能总结</strong> <strong class="text-danger ml-1"><i>New</i></strong> </a> </li> <li class=""> <a href="#raw_abstract" data-toggle="tab" class="abstract-tab mx-0 f16 text-dark"> <strong>摘要</strong> </a> </li> </ul> <div class="tab-content border border-top-0"> <div id="ai_summary" class="tab-pane active"> <div class="summary-panel panel-box mb-0 rounded shadow-none"> <div class="f16">Protein-based materials have various remarkable properties and are widely used. In nature, proteins can be recycled in multiple ways, and protein metabolism is a great example. In this process, a random mixture of proteins is digested into amino acids, which can then be used by cells to synthesize the needed proteins. Recently, researchers have demonstrated that the protein recycling process can be performed in vitro and named it NaCRe. In previous experiments, they could only produce a small amount of recycled protein in the microgram scale from various protein mixtures. Here, they show that NaCRe can convert a milligram protein mixture containing silk into a milligram of green fluorescent protein hydrogel. They also indicate that for NaCRe to be effective, the starting protein mixture must contain a good balance of all AAs, and discuss the challenges encountered when scaling up NaCRe.</div> </div> </div> <div id="raw_abstract" class="tab-pane "> <div class="abstract-panel panel-box mb-0 rounded shadow-none"> <div class="f16">Protein-based materials are biocompatible and have a variety of remarkable properties; consequently, they are finding more and more applications. Nature recycles proteins in multiple ways, ranging from bio-degradation (a slow approach) to fast recycling of protein metabolism. The latter is a wonderful example because a random mixture of proteins gets digested into amino acids (AAs), the fundamental building blocks of proteins. These AAs are then used by cells to produce whichever protein is needed at the time of synthesis. Seen through the lens of recycling, this process transforms a random mixture into something not necessarily present at the start but needed at the moment of recycling. We have recently shown that the process of protein recycling can be performed in vitro and called it NaCRe (Nature Inspired Circular Recycling). In a previous NaCRe proof-of-concept experiment, we started with various protein mixtures but were able to produce only small quantities of recycled protein, in the microgram scale. Here, we show that NaCRe can be used to convert milligrams of a protein mixture containing one of the most common protein materials (silk) into a milligram of an hydrogel made of green fluorescent protein (GFP). We show that in order for NaCRe to be efficient the starting protein mixture must contain a good balance of all AAs and discuss the challenges encountered when scaling up NaCRe. Protein metabolism is a wonderful example of polymer recycling. A random mixture of proteins gets digested into amino acids, which then can be used by cells to produce whichever protein is needed at the time of synthesis.</div> </div> </div> </div> </div> <div class="f15 panel-box rounded shadow-none border"> <h4 class="mt-0 heading-count">作者</h4> <div class="mb-3"> <article-authors tid="83407020" list="[{"name":"Laura Roset Julia","sequence":1},{"name":"Sebastian J. 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Soliman, Ashley K. Nguyen, J. Justin Gooding, Kristopher A. Kilian</p> <div class="d-flex mb-3"> <div class="flex-shrink-0 d-none d-sm-block"> <img src="https://peeref-open.s3.amazonaws.com/storage/images/covers/209.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> This review summarizes the key properties of native ECM, discusses recent approaches used to systematically decouple and tune these properties in synthetic matrices, and the importance of dynamic ECM mechanics and emerging design strategies to mimic these dynamic mechanical properties. It also presents advances in synthetic hydrogel chemistry, biofabrication, and organoid engineering. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">ADVANCED MATERIALS</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83101131/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Article </span> <span class="d-inline-block badge badge-cyan"> Construction & Building Technology </span> </div> <h4> <a href="https://www.peeref.com/zh/works/33977643" class="text-dark hover-underline">Development of a nature-inspired polymeric fiber (BioFiber) for advanced delivery of self-healing agents into concrete</a> </h4> <p class="text-ellipsis-2">Mohammad Houshmand Khaneghahi, Divya Kamireddi, Seyed Ali Rahmaninezhad, Amirreza Sadighi, Caroline L. Schauer, Christopher M. Sales, Ahmad R. Najafi, Aidan Cotton, Reva Street, Yaghoob (Amir) Farnam</p> <div class="d-flex mb-3"> <div class="flex-shrink-0 d-none d-sm-block"> <img src="https://peeref-open.s3.amazonaws.com/storage/images/covers/2035.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> In this study, nature-inspired multi-functional polymeric fibers were developed to deliver bio-self-healing agents into cementitious materials. The fibers integrate autonomous bio-self-healing, crack growth control, and damage-responsiveness into the matrix. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">CONSTRUCTION AND BUILDING MATERIALS</span> (2023) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/33977643/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Review </span> <span class="d-inline-block badge badge-cyan"> Chemistry, Multidisciplinary </span> </div> <h4> <a href="https://www.peeref.com/zh/works/82984389" class="text-dark hover-underline">Nature-inspired adhesive systems</a> </h4> <p class="text-ellipsis-2">Ming Li, Anran Mao, Qingwen Guan, Eduardo Saiz</p> <div class="d-flex mb-3"> <div class="flex-shrink-0 d-none d-sm-block"> <img src="https://peeref-open.s3.amazonaws.com/storage/images/covers/1655.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> This review systematically summarizes various biological surfaces with different adhesion mechanisms, including surface micro- and nanostructures and/or chemistry, providing design principles for their artificial counterparts. It also discusses the research progress of natural and artificial adhesive surfaces, including dry adhesive surfaces and wet/underwater adhesive surfaces, as well as related adhesion characterization techniques. Special attention is paid to stimulus-responsive smart artificial adhesive surfaces with tunable adhesion properties. The aim is to highlight recent advancements, identify common themes, and explore fundamental differences to determine the current challenges and prospects in this field. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">CHEMICAL SOCIETY REVIEWS</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/82984389/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Review </span> <span class="d-inline-block badge badge-cyan"> Green & Sustainable Science & Technology </span> </div> <h4> <a href="https://www.peeref.com/zh/works/82577122" class="text-dark hover-underline">A Nature-Inspired Green-Blue Solution: Incorporating a Fog Harvesting Technique into Urban Green Wall Design</a> </h4> <p class="text-ellipsis-2">Lujain Hadba, Maria Giovanna Di Bitonto, Marta Oliveira, Paulo Mendonca, Alessandra Zanelli, Ligia Torres Silva</p> <div class="d-flex mb-3"> <div class="flex-shrink-0 d-none d-sm-block"> <img src="https://peeref-open.s3.amazonaws.com/storage/images/covers/9646.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> The aim of this research is to explore the use of vegetation and nets to collect water from fog on facades, in order to meet the functional requirements of buildings, especially outdoor thermal comfort, water demands, and to encourage sustainability by suggesting a new architectural green-blue wall system. The system is considered applicable within an urban context, given its minimal spatial requirements and adaptability to existing structures. However, similar challenges to those encountered by green walls are anticipated, where the provision of sustainable benefits is offset by the demands of maintenance and associated additional costs. Therefore, this paper is mainly divided into two parts: the first part explains the green facades, referring to their impact on the urban environment, including thermal comfort, pollution absorption, noise pollution, and well-being, as well as the types of plants to be applied on green walls; the second part focuses on the fog collector as an irrigation system for green walls, analyzing its components, structure, and fabric, to identify its development margins in the construction industry. Fog harvesting initiatives are mainly focused on rural areas to meet agricultural demands; however, limiting fog harvesting to agricultural settings is considered insufficient, as it represents a crucial solution for addressing water challenges in specific urban environments. Therefore, it is also worth investigating the fog collector's potential for integrating water supply in urban environments. The study focuses on exploring the environmental benefits of fog harvesting and green walls, particularly through their combined implementation. The proposed review is significant for guiding the integration of a device into green facades, ensuring water self-sufficiency while concurrently addressing air purification, noise reduction, and thermal comfort for pedestrians and urban inhabitants. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">SUSTAINABILITY</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/82577122/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Article </span> <span class="d-inline-block badge badge-cyan"> Chemistry, Physical </span> </div> <h4> <a href="https://www.peeref.com/zh/works/82565780" class="text-dark hover-underline">A nature-inspired multifunctional adhesive for cartilage tissue-biomaterial integration</a> </h4> <p class="text-ellipsis-2">Bin Chu, Yun-Feng Chu, Jin-Mei He, Zhi-Wei Lin, Chang-Sheng Chen, Song Wang, Wei-Qiang Liu, Xiao-Li Li</p> <div class="d-flex mb-3"> <div class="flex-shrink-0 d-none d-sm-block"> <img src="https://peeref-open.s3.amazonaws.com/storage/images/covers/7540.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> Surgical adhesives have limited application in wet conditions. In this study, a three-armed dopamine-modified hyaluronic acid derivative adhesive was prepared, which has good biocompatibility and interfacial bonding strength, and can be used in cartilage tissue repair and minimally invasive surgery. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">SOFT MATTER</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/82565780/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Article </span> <span class="d-inline-block badge badge-cyan"> Engineering, Environmental </span> </div> <h4> <a href="https://www.peeref.com/zh/works/26451049" class="text-dark hover-underline">A novel nature-inspired anisotropic hydrogel with programmable shape deformations</a> </h4> <p class="text-ellipsis-2">Shan Ye, Wenjing Ma, Guodong Fu</p> <div class="d-flex mb-3"> <div class="flex-shrink-0 d-none d-sm-block"> <img src="https://peeref-open.s3.amazonaws.com/storage/images/covers/1639.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> This paper proposes a novel simple structure programming strategy to prepare anisotropic hydrogels using low-cost natural oxygen as the driving force. The obtained anisotropic hydrogels have both gradient structure and phase-separated structure due to the asymmetric inhibitory behavior of natural gradient dissolved oxygen toward radical polymerization and electrostatic attraction between polyelectrolyte chains. This complex asymmetric structure allows the anisotropic hydrogels to undergo complex deformations under different environmental conditions. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">CHEMICAL ENGINEERING JOURNAL</span> (2022) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/26451049/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Review </span> <span class="d-inline-block badge badge-cyan"> Chemistry, Physical </span> </div> <h4> <a href="https://www.peeref.com/zh/works/33740618" class="text-dark hover-underline">Nature-inspired sustainable solar evaporators for seawater desalination</a> </h4> <p class="text-ellipsis-2">Xiang Song, Lianghao Jia, Zhengen Wei, Tao Xiang, Shaobing Zhou</p> <div class="d-flex mb-3"> <div class="flex-shrink-0 d-none d-sm-block"> <img src="https://peeref-open.s3.amazonaws.com/storage/images/covers/9524.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> This paper provides an overview of the application, preparation, and role of biomimetic structures in solar evaporators with improved evaporation rate and lifetime. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">JOURNAL OF MATERIALS CHEMISTRY A</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/33740618/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Review </span> <span class="d-inline-block badge badge-cyan"> Polymer Science </span> </div> <h4> <a href="https://www.peeref.com/zh/works/27603435" class="text-dark hover-underline">Nature-inspired strategies for the synthesis of hydrogel actuators and their applications</a> </h4> <p class="text-ellipsis-2">Weijun Li, Qingwen Guan, Ming Li, Eduardo Saiz, Xu Hou</p> <div class="d-flex mb-3"> <div class="flex-shrink-0 d-none d-sm-block"> <img src="https://peeref-open.s3.amazonaws.com/storage/images/covers/6949.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> Nature endows many organisms with the ability to respond to stimuli and carry out their basic physiological activities. Inspired by these biological structures, biomimetic hydrogel actuators with controllability, fast response, and toughness have been developed. This review discusses the principles of enabling stimulus-responsive behavior in polymer materials, recent progress in implementing stimuli-response behavior in bioinspired hydrogel actuators, and the mechanism of mechanical toughening and its role in applications. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">PROGRESS IN POLYMER SCIENCE</span> (2023) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/27603435/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Article </span> <span class="d-inline-block badge badge-cyan"> Chemistry, Physical </span> </div> <h4> <a href="https://www.peeref.com/zh/works/25966427" class="text-dark hover-underline">A Biomimetic Emitter Inspired from Green Fluorescent Protein</a> </h4> <p class="text-ellipsis-2">Hongping Deng, Yan Chen, Li Xu, Xuan Mo, Jingxuan Ju, Chunyang Yu, Xinyuan Zhu</p> <div class="d-flex mb-3"> <div class="flex-shrink-0 d-none d-sm-block"> <img src="https://peeref-open.s3.amazonaws.com/storage/images/covers/5031.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> This study describes the rational design and discovery of a biomimetic fluorescent emitter, MBP, which mimics the key structure of the green fluorescent protein (GFP). Through systematically modifying a tripeptide, a family of four chromophores were engineered, and MBP exhibited bright fluorescence in different fluid solvents. The enhanced fluorescence emission of MBP was attributed to the formation of an intramolecular hydrogen-bonding-ring structure and a self-restricted effect. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">JOURNAL OF PHYSICAL CHEMISTRY B</span> (2022) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/25966427/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Article </span> <span class="d-inline-block badge badge-cyan"> Chemistry, Physical </span> </div> <h4> <a href="https://www.peeref.com/zh/works/34589806" class="text-dark hover-underline">A Biomimetic Emitter Inspired from Green Fluorescent Protein</a> </h4> <p class="text-ellipsis-2">Hongping Deng, Yan Chen, Li Xu, Xuan Mo, Jingxuan Ju, Chunyang Yu, Xinyuan Zhu</p> <div class="d-flex mb-3"> <div class="flex-shrink-0 d-none d-sm-block"> <img src="https://peeref-open.s3.amazonaws.com/storage/images/covers/5031.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> This study describes the rational design and discovery of a biomimetic fluorescent emitter, MBP, which mimics the key structure of the Ser-Tyr-Gly motif in GFP. Through systematic tailoring of the tripeptide, four chromophores were engineered, and only MBP exhibited bright fluorescence in different fluid solvents. The enhanced fluorescence emission of MBP is attributed to the formation of intramolecular hydrogen-bonding-ring structure and the self-restricted effect. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">JOURNAL OF PHYSICAL CHEMISTRY B</span> (2022) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/34589806/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Article </span> <span class="d-inline-block badge badge-cyan"> Engineering, Biomedical </span> </div> <h4> <a href="https://www.peeref.com/zh/works/81978387" class="text-dark hover-underline">Nature-Inspired Gelatin-Based Adhesive Hydrogel: A Rapid and User-Friendly Solution for Hemostatic Applications</a> </h4> <p class="text-ellipsis-2">Haihua Wang, Mengxi Wang, Jingheng Wu, Shilei Zhu, Yanan Ye, Yushan Liu, Ke Li, Ruyue Li, Yuhang Zhang, Meng Wei, Xin Yang, Leixin Meng</p> <div class="d-flex mb-3"> <div class="flex-shrink-0 d-none d-sm-block"> <img src="https://peeref-open.s3.amazonaws.com/storage/images/covers/8730.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> A gelatin-based adhesive hydrogel is designed in this paper, inspired by natural materials. Driven by Schiff base and multiple hydrogen bonds, it is easy to prepare and quickly forms, and can be used in arterial and liver bleeding models. It has good adhesion to wet tissue, good hemostatic performance, and significantly reduces the amount of tissue bleeding and hemostatic time. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">ADVANCED HEALTHCARE MATERIALS</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/81978387/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Article </span> <span class="d-inline-block badge badge-cyan"> Chemistry, Inorganic & Nuclear </span> </div> <h4> <a href="https://www.peeref.com/zh/works/83754742" class="text-dark hover-underline">Nature inspired nanomaterials, advancements in green synthesis for biological sustainability</a> </h4> <p class="text-ellipsis-2">Akhtar Rasool, Sudewi Sri, Muhammad Zulfajri, Fransiska Sri Herwahyu Krismastuti</p> <div class="d-flex mb-3"> <div class="flex-shrink-0 d-none d-sm-block"> <img src="https://peeref-open.s3.amazonaws.com/storage/images/covers/3587.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> Metal oxide nanoparticles have important scientific applications, and their toxicity is an important research issue. Green and eco-synthesis is a solution to reduce toxicity. Biosynthesis of metal oxide NPs is promising, but its efficacy in clinical trials is unknown. This study provides an overview of the latest research on the green synthesis, characterization methods, biomedical and scientific applications of metal oxide NPs, and emphasizes the importance of their environmental friendliness. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">INORGANIC CHEMISTRY COMMUNICATIONS</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83754742/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Article </span> <span class="d-inline-block badge badge-cyan"> Engineering, Chemical </span> </div> <h4> <a href="https://www.peeref.com/zh/works/23858056" class="text-dark hover-underline">Nature-inspired green method decorated MXene-based composite membrane for high-efficiency oil/water separation</a> </h4> <p class="text-ellipsis-2">Yongcong Liu, Qingquan Lin, Guangyong Zeng, Liyi Zhang, Yinjie Zhou, Arijit Sengupta</p> <div class="d-flex mb-3"> <div class="flex-shrink-0 d-none d-sm-block"> <img src="https://peeref-open.s3.amazonaws.com/storage/images/covers/7478.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> A "green" method using plant-derived polyphenol tannic acid and 3-aminopropyltriethoxysilane has been reported for the fabrication of nanoparticles. By decorating MXene nanosheets with these nanoparticles, a composite membrane with excellent hydrophilicity and high oil-water separation performance was constructed. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">SEPARATION AND PURIFICATION TECHNOLOGY</span> (2022) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/23858056/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Article </span> <span class="d-inline-block badge badge-cyan"> Biochemistry & Molecular Biology </span> </div> <h4> <a href="https://www.peeref.com/zh/works/82331412" class="text-dark hover-underline">Load-bearing columns inspired fabrication of ductile and mechanically enhanced BSA hydrogels</a> </h4> <p class="text-ellipsis-2">Shengyu Li, Lihong Gong, Xijin Wu, Xianli Liu, Ningning Bai, Yingxue Guo, Xia Liu, Hong Zhang, Huiying Fu, Qiyang Shou</p> <div class="d-flex mb-3"> <div class="flex-shrink-0 d-none d-sm-block"> <img src="https://peeref-open.s3.amazonaws.com/storage/images/covers/3674.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> In this study, a ductile and mechanically enhanced BSA hydrogel was fabricated by soaking the BSA hydrogel in (NH4)2SO4 solution. The EDC/NHS coupling reaction protected the integrity of the hydrogel. Highly kosmotropic ions enhanced the hydrophobic interaction and dehydration effect within BSA gels, significantly enhancing their mechanical properties. The hydrogel can be modified as a strain sensor and has the advantages of multifunctionality, biocompatibility, strength enhancement, and adjustable mechanical properties. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/82331412/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 "> <div> <span class="d-inline-block badge badge-blue"> Article </span> <span class="d-inline-block badge badge-cyan"> Chemistry, Applied </span> </div> <h4> <a href="https://www.peeref.com/zh/works/33738682" class="text-dark hover-underline">PoreGlow: A split green fluorescent protein-based system for rapid detection of Listeria monocytogenes</a> </h4> <p class="text-ellipsis-2">Kyeonghye Guk, Soyeon Yi, Hyeran Kim, Suhyeon Kim, Eun-Kyung Lim, Taejoon Kang, Juyeon Jung</p> <div class="d-flex mb-3"> <div class="flex-shrink-0 d-none d-sm-block"> <img src="https://peeref-open.s3.amazonaws.com/storage/images/covers/2892.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> The PoreGlow system based on split green fluorescent protein (GFP) was developed and assessed for the rapid and accurate detection of L. monocytogenes. It showed high sensitivity and specificity, with no cross-reactivity with other bacteria. This system is promising for the early detection of L. monocytogenes in food products, which is crucial for preventing outbreaks and protecting public health. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">FOOD CHEMISTRY</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/33738682/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> </div> <div id="articles_from_authors" class="tab-pane "> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Article </span> <span class="d-inline-block badge badge-cyan"> Chemistry, Physical </span> </div> <h4> <a href="https://www.peeref.com/zh/works/83417312" class="text-dark hover-underline">Modulating Weak Protein-Protein Cross-Interactions by the Addition of Free Amino Acids at Millimolar Concentrations</a> </h4> <p class="text-ellipsis-2">Pamina M. Winkler, Cecilia Siri, Johann Buczkowski, Juliana V. C. Silva, Lionel Bovetto, Christophe Schmitt, Francesco Stellacci</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> This study quantified weak protein-protein interactions in solution using cross-interaction chromatography (CIC) and surface plasmon resonance (SPR), and demonstrated that they can be modulated by adding millimolar concentrations of free amino acids. The second osmotic virial cross-interaction coefficient (B-23) was determined as a proxy for the interaction strength between two different proteins using CIC, and the binding affinity between the same proteins was established using SPR. The results showed that amino acids proline, glutamine, and arginine can make the protein cross-interactions more repulsive or equivalently less attractive, and this modulation does not alter the protein's secondary structure. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">JOURNAL OF PHYSICAL CHEMISTRY B</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83417312/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Article </span> <span class="d-inline-block badge badge-cyan"> Multidisciplinary Sciences </span> </div> <h4> <a href="https://www.peeref.com/zh/works/84538552" class="text-dark hover-underline">Amino acids modulate liquid-liquid phase separation in vitro and in vivo by regulating protein-protein interactions</a> </h4> <p class="text-ellipsis-2">Xufeng Xu, Aleksander A. Rebane, Laura Roset Julia, Kathryn A. Rosowski, Eric R. Dufresne, Francesco Stellacci</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> Liquid-liquid phase separation (LLPS) is an important intracellular process, and amino acids (AAs) play a key role in it. This study found that certain AAs can inhibit LLPS in vitro and also significantly suppress the formation of stress granules (SGs) in vivo, regardless of the stress type. Further studies showed that the presence of AAs not only slows down the formation of SGs, but also reduces their saturation number and prevents their coalescence. Finally, through sedimentation-diffusion equilibrium analytical ultracentrifuge (SE-AUC) studies, it was found that the inhibitory effect of AAs on LLPS may be due to their modulation of protein-protein and RNA-RNA interactions. This study reveals the important role of cellular AAs in LLPS and provides new ideas for the treatment of SG-related diseases. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/84538552/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Article </span> <span class="d-inline-block badge badge-cyan"> Chemistry, Analytical </span> </div> <h4> <a href="https://www.peeref.com/zh/works/82557507" class="text-dark hover-underline">Versatile Capillary Cells for Handling Concentrated Samples in Analytical Ultracentrifugation</a> </h4> <p class="text-ellipsis-2">Quy Ong, Xu Xufeng, Francesco Stellacci</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> This study presents a novel universal capillary-cell design for analytical ultracentrifugation-sedimentation equilibrium, which solves the problem of difficult and unreliable handling of existing research equipment and can be used to study high-concentration samples with a success rate close to 100%. The design creates a liquid reservoir on the bottom window of the AUC cell by laser ablation or mechanical drilling, which is easy to use, robust, reusable, and suitable for samples in aqueous and organic solvents. The study also demonstrates the practicality of the cell through experiments, including studying the equation of state and second virial coefficients of concentrated gold nanoparticle dispersions, the gelation phase transition of DNA and BSA solutions, and the liquid-liquid phase separation of concentrated BSA/PEG droplets. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">ANALYTICAL CHEMISTRY</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/82557507/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Article </span> <span class="d-inline-block badge badge-cyan"> Chemistry, Physical </span> </div> <h4> <a href="https://www.peeref.com/zh/works/83029524" class="text-dark hover-underline">Amino Acids and Their Biological Derivatives Modulate Protein-Protein Interactions in an Additive Way</a> </h4> <p class="text-ellipsis-2">Xufeng Xu, Francesco Stellacci</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> This study shows that PPI measured in test tubes and cells differ due to the complexity of the intracellular environment. AAs and their derivatives can make protein dispersions more stable, and different AA derivatives, AA mixtures, and short peptides can all effectively modulate PPI, with additive effects. This study provides insights for designing biocompatible molecules to stabilize protein interactions. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">JOURNAL OF PHYSICAL CHEMISTRY LETTERS</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83029524/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Article </span> <span class="d-inline-block badge badge-cyan"> Chemistry, Multidisciplinary </span> </div> <h4> <a href="https://www.peeref.com/zh/works/27634467" class="text-dark hover-underline">Cholesterol-Containing Liposomes Decorated With Au Nanoparticles as Minimal Tunable Fusion Machinery</a> </h4> <p class="text-ellipsis-2">Ester Canepa, Davide Bochicchio, Giorgia Brosio, Paulo Henrique Jacob Silva, Francesco Stellacci, Silvia Dante, Giulia Rossi, Annalisa Relini</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> Membrane fusion is essential for eukaryotic cell functionality and is regulated by specialized proteins, lipid composition, and ion environment. Liposomes decorated with amphiphilic Au nanoparticles (AuLips) have been shown to act as tunable fusion machinery, triggered by divalent ions and tunable by liposome cholesterol content. This research provides new mechanistic details on the fusogenic activity of AuNPs and demonstrates their potential as artificial fusogenic agents for biomedical applications. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">SMALL</span> (2023) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/27634467/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Article </span> <span class="d-inline-block badge badge-cyan"> Chemistry, Multidisciplinary </span> </div> <h4> <a href="https://www.peeref.com/zh/works/27725522" class="text-dark hover-underline">Recycling of Polymerase Chain Reaction (PCR) Kits</a> </h4> <p class="text-ellipsis-2">Weina Liu, Yong Zhu, Francesco Stellacci</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> Researchers demonstrated a recyclable PCR kit to reduce dependence on nucleic acid resources and address the shortage of PCR kits during the pandemic. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">ACS SUSTAINABLE CHEMISTRY & ENGINEERING</span> (2023) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/27725522/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Article </span> <span class="d-inline-block badge badge-cyan"> Chemistry, Multidisciplinary </span> </div> <h4> <a href="https://www.peeref.com/zh/works/27800711" class="text-dark hover-underline">Influence of structural dynamics on cell uptake investigated with single-chain polymeric nanoparticles</a> </h4> <p class="text-ellipsis-2">Suiyang Liao, Lixia Wei, Arthur Eliot Bouchez, Francesco Stellacci</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> Most studied parameters of nanoparticles' interactions with cells are currently static, while proteins have dynamic structures. This study focuses on single-chain polymeric nanoparticles (SCPNs) that undergo dynamic changes. By creating multiple sets of particles with identical polymer chains, it was found that cell uptake discriminates between dynamic and static SCPN isomers. Dynamic isomers are uptaken more through different endocytic pathways, while static isomers access the cytosol more efficiently. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">CHEM</span> (2023) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/27800711/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Article </span> <span class="d-inline-block badge badge-cyan"> Pharmacology & Pharmacy </span> </div> <h4> <a href="https://www.peeref.com/zh/works/27812168" class="text-dark hover-underline">Antiviral Mechanism of Virucidal Sialic Acid Modified Cyclodextrin</a> </h4> <p class="text-ellipsis-2">Yong Zhu, Andrey A. A. Sysoev, Paulo H. Jacob Silva, Marine Batista, Francesco Stellacci</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> We have reported that CD-6'SLN irreversibly deactivates virions and improves mice survival in H1N1 infection model. CD-6'SLN interacts with the viral envelope protein HA, but not with NA, inhibiting influenza virus through an extracellular mechanism. Our findings suggest that combining viral protein-specific epitopes with hydrophobic linkers provides a strategy for developing antiviral drugs. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">PHARMACEUTICS</span> (2023) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/27812168/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Article </span> <span class="d-inline-block badge badge-cyan"> Biochemistry & Molecular Biology </span> </div> <h4> <a href="https://www.peeref.com/zh/works/23325184" class="text-dark hover-underline">Polyanionic Amphiphilic Dendritic Polyglycerols as Broad-Spectrum Viral Inhibitors with a Virucidal Mechanism</a> </h4> <p class="text-ellipsis-2">Ehsan Mohammadifar, Matteo Gasbarri, Valeria Cagno, Katharina Achazi, Caroline Tapparel, Rainer Haag, Francesco Stellacci</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> Heparin, known for its anticoagulant properties for almost 90 years, has also been recognized as a broad-spectrum antiviral for almost 70 years. However, its anticoagulant effects limit its use as an antiviral drug. Recent research has shown that the addition of hydrophobic linkers to heparin-like compounds can create irreversible interactions with viruses while maintaining low toxicity and broad-spectrum activity. These new compounds, when tested against herpes simplex virus 2 and respiratory syncytial virus, exhibited nanomolar activity, providing a foundation for the design of new nontoxic, broad-spectrum antivirals. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">BIOMACROMOLECULES</span> (2022) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/23325184/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Article </span> <span class="d-inline-block badge badge-cyan"> Chemistry, Multidisciplinary </span> </div> <h4> <a href="https://www.peeref.com/zh/works/24017533" class="text-dark hover-underline">Cryogenic electron tomography to determine thermodynamic quantities for nanoparticle dispersions</a> </h4> <p class="text-ellipsis-2">Quy Ong, Ting Mao, Neda Iranpour Anaraki, Carla Malinverni, Xufeng Xu, Francesca Olgiati, Paulo Henrique Jacob Silva, Anna Murello, Antonia Neels, Davide Demurtas, Seishi Shimizu, Francesco Stellacci</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> A method is presented to extract thermodynamic quantities for nanoparticle dispersions in solvents using cryogenic electron tomography, with gold nanoparticles as a demonstration. The approach allows for the calculation of thermodynamic quantities without assumptions and the evaluation of key dispersion properties. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">MATERIALS HORIZONS</span> (2022) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/24017533/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Article </span> <span class="d-inline-block badge badge-cyan"> Chemistry, Physical </span> </div> <h4> <a href="https://www.peeref.com/zh/works/24491646" class="text-dark hover-underline">Site-selective overgrowth of Ag nanocrystals by Polyvinylpyrrolidone-mediated atom deposition by Ostwald ripening</a> </h4> <p class="text-ellipsis-2">Paulo J. Silva, Carlos Franco, Francesco Stellacci, Alejandro Lapresta-Fernandez</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> The growth modulation of metal nanocrystals is controlled by diffusional mass transfer, and PVP plays a dual role in growth pathways. The concentration of PVP affects the growth mode and symmetry of metal nanocrystals. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">APPLIED SURFACE SCIENCE</span> (2022) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/24491646/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Article </span> <span class="d-inline-block badge badge-cyan"> Chemistry, Physical </span> </div> <h4> <a href="https://www.peeref.com/zh/works/24681697" class="text-dark hover-underline">Site-selective surface enhanced Raman scattering study of ligand exchange reactions on aggregated Ag nanocubes</a> </h4> <p class="text-ellipsis-2">Alejandro Lapresta-Fernandez, Evangelia Nefeli Athanasopoulou, Paulo Jacob Silva, Zekiye Pelin Guven, Francesco Stellacci</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> Surface modification of ligand-protected nanoparticles can be achieved through ligand exchange reactions. This study focuses on the mechanism of ligand exchange reactions and their effects on surface-enhanced Raman scattering (SERS). By studying the local order indicator of ligands, two different pathways of ligand exchange reactions were identified. These findings provide important insights into the surface modification of nanoparticles. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">JOURNAL OF COLLOID AND INTERFACE SCIENCE</span> (2022) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/24681697/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Article </span> <span class="d-inline-block badge badge-cyan"> Chemistry, Multidisciplinary </span> </div> <h4> <a href="https://www.peeref.com/zh/works/24980680" class="text-dark hover-underline">Potent Virustatic Polymer-Lipid Nanomimics Block Viral Entry and Inhibit Malaria Parasites In Vivo</a> </h4> <p class="text-ellipsis-2">Adrian Najer, Joshua Blight, Catherine B. Ducker, Matteo Gasbarri, Jonathan C. Brown, Junyi Che, Hakon Hogset, Catherine Saunders, Miina Ojansivu, Zixuan Lu, Yiyang Lin, Jonathan Yeow, Omar Rifaie-Graham, Michael Potter, Renee Tonkin, Jelle Penders, James J. Doutch, Athina Georgiadou, Hanna M. G. Barriga, Margaret N. Holme, Aubrey J. Cunnington, Laurence Bugeon, Margaret J. Dallman, Wendy S. Barclay, Francesco Stellacci, Jake Baum, Molly M. Stevens</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> In this study, modular synthetic polymer nanoparticles were designed to mimic functional components of host cell membranes, and they demonstrated effective inhibition of virus and parasite invasion in vitro and in vivo. The researchers envision these nanoparticles as a promising platform for developing new treatments for infectious diseases. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">ACS CENTRAL SCIENCE</span> (2022) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/24980680/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 "> <div> <span class="d-inline-block badge badge-blue"> Article </span> <span class="d-inline-block badge badge-cyan"> Chemistry, Multidisciplinary </span> </div> <h4> <a href="https://www.peeref.com/zh/works/25552430" class="text-dark hover-underline">Experimental Method to Distinguish between a Solution and a Suspension</a> </h4> <p class="text-ellipsis-2">Xufeng Xu, Quy Ong, Ting Mao, Paulo Jacob Silva, Seishi Shimizu, Luca Rebecchi, Ilka Kriegel, Francesco Stellacci</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> This study presents a method based on SE-AUC that can determine whether proteins, nanoparticles, or polymers form solutions or suspensions. The method utilizes osmotic pressure profiles to assess the thermodynamic stability of dispersions. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">ADVANCED MATERIALS INTERFACES</span> (2022) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/25552430/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> </div> <div id="articles_from_journal" class="tab-pane "> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Review </span> <span class="d-inline-block badge badge-cyan"> Chemistry, Multidisciplinary </span> </div> <h4> <a href="https://www.peeref.com/zh/works/83033945" class="text-dark hover-underline">Valorization of lignin for advanced material applications: a review</a> </h4> <p class="text-ellipsis-2">Rohan Shorey, Ayyoub Salaghi, Pedram Fatehi, Tizazu H. Mekonnen</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> Lignin is a abundant renewable resource, but its application in polymers is limited. Through functionalization and modification, lignin can be converted into value-added products and applied in advanced materials. This article reviews various modification and functionalization methods of lignin, as well as its application progress in fields such as bioactive materials, and discusses the future development prospects. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">RSC SUSTAINABILITY</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83033945/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Article </span> <span class="d-inline-block badge badge-cyan"> Chemistry, Multidisciplinary </span> </div> <h4> <a href="https://www.peeref.com/zh/works/83047158" class="text-dark hover-underline">Ammonia-free synthesis of lithium manganese iron phosphate cathodes via a co-precipitation reaction</a> </h4> <p class="text-ellipsis-2">Panawan Vanaphuti, Kevin Scanlan, Arumugam Manthiram</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> LMFP is a promising cathode material for Li-ion batteries, with low cost and good sustainability. Mn doping can increase the operating voltage and theoretical energy density, but high Mn content leads to sluggish kinetics and reduced practical capacity. Atomic-scale mixing of Mn and Fe is crucial for its electrochemical performance. The practical scalability and ease of synthesis of precursor compositions with different Mn contents through co-precipitation reaction remain unexplored. We present a novel, scalable precursor for LMFP manufacturing, which is air-stable and synthesized without ammonia. The LMFP cathodes synthesized with the precursor exhibit excellent cycling stability. Higher Mn content increases the average voltage, but reduces the specific capacity. This work provides an industrially scalable method to synthesize mixed precursors for LMFP cathodes with a wide range of Mn contents, offering a way to fine-tune the Mn content and particle morphology for optimal electrochemical performance. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">RSC SUSTAINABILITY</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83047158/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Review </span> <span class="d-inline-block badge badge-cyan"> Chemistry, Multidisciplinary </span> </div> <h4> <a href="https://www.peeref.com/zh/works/82904756" class="text-dark hover-underline">A guide to lignin valorization in biorefineries: traditional, recent, and forthcoming approaches to convert raw lignocellulose into valuable materials and chemicals</a> </h4> <p class="text-ellipsis-2">Filippo Brienza, David Cannella, Diego Montesdeoca, Iwona Cybulska, Damien P. Debecker</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> This paper reviews a broad range of biomass pretreatment methods, discusses their impact on the properties of lignin and carbohydrates, and the main pathways for lignin valorization. Preventing lignin condensation is crucial for producing upgradable lignin streams, and lignin-first pretreatments can achieve this. The potential and limitations of lignin-first biorefineries are also highlighted. Overall, this work provides a comprehensive overview of lignin isolation and valorization technologies. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">RSC SUSTAINABILITY</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/82904756/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Review </span> <span class="d-inline-block badge badge-cyan"> Chemistry, Multidisciplinary </span> </div> <h4> <a href="https://www.peeref.com/zh/works/83021331" class="text-dark hover-underline">Visible light-induced bromine radical enhanced hydrogen atom transfer (HAT) reactions in organic synthesis</a> </h4> <p class="text-ellipsis-2">Barakha Saxena, Roshan I. Patel, Anuj Sharma</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> This article reviews the application of bromine radical-assisted hydrogen atom transfer reactions in organic synthesis, including the reaction scope, mechanism, and limitations. The article also introduces the recent progress of visible light-induced bromine radical-enhanced hydrogen atom transfer reactions. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">RSC SUSTAINABILITY</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83021331/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Review </span> <span class="d-inline-block badge badge-cyan"> Chemistry, Multidisciplinary </span> </div> <h4> <a href="https://www.peeref.com/zh/works/83035163" class="text-dark hover-underline">The relevance of sustainable laboratory practices</a> </h4> <p class="text-ellipsis-2">Thomas Freese, Nils Elzinga, Matthias Heinemann, Michael M. Lerch, Ben L. Feringa</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> Scientists are crucial in raising awareness of the climate crisis and providing solutions for a sustainable future, but traditional laboratory practices have environmental consequences. Scientists should lead by example and take concrete actions to promote systemic changes in laboratory practices and research methods. This article presents comprehensive evidence of the environmental impact of laboratories and provides guidelines and recommendations for sustainable laboratory practices. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">RSC SUSTAINABILITY</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83035163/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Review </span> <span class="d-inline-block badge badge-cyan"> Chemistry, Multidisciplinary </span> </div> <h4> <a href="https://www.peeref.com/zh/works/84057771" class="text-dark hover-underline">Acyloxy, sulfate, and phosphate radicals as hydrogen atom transfer (HAT) agents for direct C(sp3)-H functionalization</a> </h4> <p class="text-ellipsis-2">Jia-Lin Tu, Binbin Huang</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> This review focuses on the challenging task of direct intermolecular C(sp(3))-H bond functionalization via hydrogen atom transfer (HAT) pathways, introduces three unique types of oxygen radicals, including acyloxy, sulfate, and phosphate radicals, and discusses their generation mechanisms, reactivity characteristics, and applications, aiming to provide researchers with insights to further advance the techniques and innovations in this field. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">RSC SUSTAINABILITY</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/84057771/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Review </span> <span class="d-inline-block badge badge-cyan"> Chemistry, Multidisciplinary </span> </div> <h4> <a href="https://www.peeref.com/zh/works/83034432" class="text-dark hover-underline">Eutectic solvents and low molecular weight gelators for next-generation supramolecular eutectogels: a sustainable chemistry perspective</a> </h4> <p class="text-ellipsis-2">Giselle de Araujo Lima e Souza, Maria Enrica Di Pietro, Andrea Mele</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> Eutectic solvents have advantageous physicochemical properties, low cost and high sustainability. Immobilization in gels expands their combinatorial playground. Supramolecular eutectogels can be obtained by ES self-assembling with low molecular weight gelators. This review highlights the types and applications of supramolecular eutectogels, and analyzes their development opportunities and challenges. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">RSC SUSTAINABILITY</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83034432/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Review </span> <span class="d-inline-block badge badge-cyan"> Chemistry, Multidisciplinary </span> </div> <h4> <a href="https://www.peeref.com/zh/works/83037191" class="text-dark hover-underline">Coupling deep eutectic solvents with innovative extraction techniques towards plant derived bioactive compositions</a> </h4> <p class="text-ellipsis-2">Anastasia Kyriakoudi, Ivana Radojcic Redovnikovic, Senka Vidovic, Kristina Radosevic, Thanos Andreou, Ioannis Mourtzinos, Marina Cvjetko Bubalo</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> The increasing interest in bioactive compounds from natural sources in the food, cosmetics, and pharmaceutical industries has led to a growing demand for novel and effective methods to isolate them from various plant matrices. Deep eutectic solvents (DESs) are an alternative to traditional organic solvents, with green, biodegradable, and adjustable physicochemical properties. Combining DESs with innovative extraction techniques offers several advantages, including improved selectivity, increased extraction yields, and reduced extraction time. This review also presents the challenges in using DESs and the sustainability of DES-innovative extraction processes, and provides an overview of the future trends. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">RSC SUSTAINABILITY</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83037191/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Article </span> <span class="d-inline-block badge badge-cyan"> Chemistry, Multidisciplinary </span> </div> <h4> <a href="https://www.peeref.com/zh/works/83083761" class="text-dark hover-underline">Sustainable dissolution of collagen and the formation of polypeptides in deep eutectic solvents for application as antibacterial agents</a> </h4> <p class="text-ellipsis-2">Harmandeep Kaur, Manpreet Singh, Navdeep Kaur, Pratap Kumar Pati, Monika Rani, Tejwant Singh Kang</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> This article describes a method for dissolving type I collagen using deep eutectic solvents and investigates the effects of dissolution conditions on the structure and properties of collagen. The results show that increasing the temperature and adding dilute hydrochloric acid can disrupt the triple-helical structure of collagen, causing it to unwind and expose important amino acid residues. The unwound collagen can form low-molecular-weight polypeptides with antibacterial activity. This method provides a sustainable strategy for the dissolution and utilization of collagen. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">RSC SUSTAINABILITY</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83083761/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Review </span> <span class="d-inline-block badge badge-cyan"> Chemistry, Multidisciplinary </span> </div> <h4> <a href="https://www.peeref.com/zh/works/83033940" class="text-dark hover-underline">Emissions-intensive and trade-exposed industries: technological innovation and climate policy solutions to achieve net-zero emissions by 2050</a> </h4> <p class="text-ellipsis-2">Anahita Mani, Thomas Budd, Elicia Maine</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> This paper discusses the decarbonization of emissions-intensive and trade-exposed industries in British Columbia and Canada. It examines the decarbonization potential in five sectors and identifies key technologies such as hydrogen, carbon capture, and digitization. The importance of continuous innovation policies and support for the growth of a low-carbon supply chain and renewable energy companies is also emphasized. A technology roadmap is developed to assist policymakers and companies in formulating strategies for sustainable decarbonization. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">RSC SUSTAINABILITY</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83033940/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Review </span> <span class="d-inline-block badge badge-cyan"> Chemistry, Multidisciplinary </span> </div> <h4> <a href="https://www.peeref.com/zh/works/83125107" class="text-dark hover-underline">Unlocking sustainable power: advances in aqueous processing and water-soluble binders for NMC cathodes in high-voltage Li-ion batteries</a> </h4> <p class="text-ellipsis-2">Ana Clara Rolandi, Iratxe de Meatza, Nerea Casado, Maria Forsyth, David Mecerreyes, Cristina Pozo-Gonzalo</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> This article discusses the alternatives to the polyvinylidene fluoride (PVDF) binder and the toxic solvent N-methylpyrrolidone (NMP) used in the cathode electrode processing of lithium-ion batteries. It introduces the LiNixMn1-x-yCoyO2 (NMC) family as the most promising candidate for the next generation of lithium-ion batteries and compares the advantages and disadvantages of traditional battery manufacturing methods with the use of emerging waterborne binders. The article also discusses the challenges of the transition to sustainable aqueous processing, including pH elevation, aluminium collector corrosion, and lithium leaching from the NMC materials. Finally, the article emphasizes the importance of tailored binder selection and additives for optimizing the electrochemical properties of different NMC compositions and provides a strategic outlook for future research. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">RSC SUSTAINABILITY</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83125107/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Review </span> <span class="d-inline-block badge badge-cyan"> Chemistry, Multidisciplinary </span> </div> <h4> <a href="https://www.peeref.com/zh/works/83988349" class="text-dark hover-underline">Sustainable brain-inspired electronics: digging into natural biomaterials for healthcare applications</a> </h4> <p class="text-ellipsis-2">Joao V. Paulin, Carlos C. B. Bufon</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> Traditional medical technologies are shifting towards a more personalized perspective, requiring semiconductor-based electronics to have enhanced computing capabilities for cognitive and adaptive functions. Inspired by the synaptic functions of the human brain, memristors and electrolyte-gated transistors are ideal candidates for efficient brain-inspired applications. Combining these devices with natural biomaterials opens up new horizons for implantable synaptic devices. This article reviews the progress of artificial synaptic systems based on natural biomaterials and discusses their potential applications in sustainable and intelligent healthcare systems. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">RSC SUSTAINABILITY</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83988349/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Article </span> <span class="d-inline-block badge badge-cyan"> Chemistry, Multidisciplinary </span> </div> <h4> <a href="https://www.peeref.com/zh/works/83034433" class="text-dark hover-underline">Efficient integration of carbon dioxide reduction and 5-hydroxymethylfurfural oxidation at high current density</a> </h4> <p class="text-ellipsis-2">Roger Lin, Haoyan Yang, Hanyu Zheng, Mahdi Salehi, Amirhossein Farzi, Poojan Patel, Xiao Wang, Jiaxun Guo, Kefang Liu, Zhengyuan Gao, Xiaojia Li, Ali Seifitokaldani</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> This study proposes an integrated electrolytic cell that combines CO2RR with HMFOR, using NiP electrocatalyst to produce FDCA at the anode and Sn, Ag, and Cu nanoparticles at the cathode to produce CO2RR products. The energy efficiency of this system is more than 10% higher than that of OER-CO2RR, and it can reduce the levelized cost of potassium formate production by 45% in an optimistic scenario, which is promising for the commercialization of CO2 reactors. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">RSC SUSTAINABILITY</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83034433/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 border-bottom"> <div> <span class="d-inline-block badge badge-blue"> Article </span> <span class="d-inline-block badge badge-cyan"> Chemistry, Multidisciplinary </span> </div> <h4> <a href="https://www.peeref.com/zh/works/83021179" class="text-dark hover-underline">Ionic-liquid-processed keratin-based biocomposite films with cellulose and chitin for sustainable dye removal</a> </h4> <p class="text-ellipsis-2">Cariny Polesca, Helena Passos, Pedro Y. S. Nakasu, Joao A. P. Coutinho, Mara G. Freire, Jason P. Hallett</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> This study dissolved chicken feathers with ionic liquids to recover keratin, which was processed into films and blended with cellulose and chitin to improve mechanical properties. The films can also be used as dye adsorbents, showing potential in wastewater treatment. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">RSC SUSTAINABILITY</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83021179/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> <div class="my-4 "> <div> <span class="d-inline-block badge badge-blue"> Review </span> <span class="d-inline-block badge badge-cyan"> Chemistry, Multidisciplinary </span> </div> <h4> <a href="https://www.peeref.com/zh/works/83693472" class="text-dark hover-underline">Addressing the persistence of per- and poly-fluoroalkyl substances (PFAS): current challenges and potential solutions</a> </h4> <p class="text-ellipsis-2">Emeka J. Itumoh, Shailja Data, Jack L. -Y. Chen, Melanie Kah, Lokesh P. Padhye, Erin M. Leitao</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> The stability, mobility, and bioaccumulation of PFAS have caused a global environmental crisis. Their wide applications and continuous regulation offer research opportunities. Solutions include detection and analysis, immobilization and destruction, and the creation of alternatives. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">RSC SUSTAINABILITY</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83693472/add-to-collection" target="_blank"> <strong>添加到收藏夹</strong> </a> </div> </div> </div> </div> </div> </div> </div> </div> </div> <div class="modal fade" id="export-citation" tabindex="-1"> <div class="modal-dialog"> <div class="modal-content"> <div class="modal-header"> <button type="button" class="close" data-dismiss="modal"><span>×</span></button> <h4 class="modal-title">导出引文 <b class="text-primary"></b></h4> </div> <div class="modal-body"> <div class="my-3 px-4 f16"> <form action="https://www.peeref.com/zh/works/citation/download" method="GET" target="_blank"> <div class="radio"> <label> <input type="radio" 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