Over-Reduced Core-Shell Au@CoO x -Co with Strong Interfacial Interactions for Photoassisted Peroxymonosulfate Activation

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<ul class="nav navbar-nav navbar-right" style="display: inline-flex; align-items: center; margin-left: 20px;"> <li id="language"> <a href="javascript:"> <div class="current"> <i class="ivu-icon ivu-icon-md-globe"></i> 中文 </div> </a> <div class="selection"> <a rel="alternate" hreflang="en" href="https://www.peeref.com/works/81858404" > <span>English</span> </a> <a rel="alternate" hreflang="zh" href="https://www.peeref.com/zh/works/81858404" > <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">4.6</span> </span> <span class="mx-3"></span> <span class="tag">Article</span> </div> <h1 class="title title-for-article"> Over-Reduced Core-Shell Au@CoO x -Co with Strong Interfacial Interactions for Photoassisted Peroxymonosulfate Activation </h1> <div class="help-links-left"> <p class="pub-info"> JOURNAL OF PHYSICAL CHEMISTRY C (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 nav-underline f16 font-weight-bold"> <li class="active"> <a href="javascript:;"> 总览 </a> </li> <li class=""> <a href="https://www.peeref.com/zh/works/81858404/comments"> 撰写评论 </a> </li> </ul> </div> <div class="d-flex align-items-center justify-content-md-end flex-wrap flex-md-nowrap"> <div class="mr-3 mt-3 mt-md-0 flex-shrink-0"> <a href="https://doi.org/10.1021/acs.jpcc.4c01155" target="_blank" class="btn btn-warning btn-circle"> <i class="ivu-icon ivu-icon-md-copy f16"></i> <strong>获取全文</strong> </a> </div> <div class="mr-3 mt-3 mt-md-0 flex-shrink-0"> <a href="https://www.peeref.com/zh/works/81858404/add-to-collection" class="btn btn-success btn-circle"> <strong>添加到收藏夹</strong> </a> </div> 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px-0 pr-md-3"> <div class="f15 panel-box rounded shadow-none border"> <div class="mb-3 pb-3"> <h4 class="mt-0">期刊</h4> <div class="f16"> <h5 class="title f16"> <a href="https://www.peeref.com/zh/journals/5032/journal-of-physical-chemistry-c"> JOURNAL OF PHYSICAL CHEMISTRY C </a> </h5> <span> 卷 128, 期 20, 页码 8239-8248 </span> </div> </div> <div class="mb-3 pb-3"> <h4 class="mt-0">出版社</h4> <div class="f16"> <h5 class="title f16 text-primary"> AMER CHEMICAL SOC </h5> <div class="my-2"> DOI: 10.1021/acs.jpcc.4c01155 </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+Physical" target="_blank" class="text-dark btn btn-link p-0 text-left"> Chemistry, Physical </a> </span> <span class="d-block"> <a href="https://www.peeref.com/zh/works/list?category=Nanoscience+%26+Nanotechnology" 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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">This study designed and fabricated an over-reduced Au@CoOx-Co core-shell nanostructure by improving the seed growth process. The Au core promotes the over-reduction of the CoOx-Co shell, and the interfacial interaction introduces oxygen vacancies to provide reaction sites. The Au core generates excitons under light irradiation, which enhances the activation of peroxymonosulfate for degrading fluorine-containing pollutants. This design integrates structural design, photoelectronic regulation, and catalytic enhancement, and has application prospects.</div> </div> </div> <div id="raw_abstract" class="tab-pane "> <div class="abstract-panel panel-box mb-0 rounded shadow-none"> <div class="f16">Metal-metal oxide nanostructures have drawn increasing research attention due to their unique properties enabled by strong interfacial interactions. However, the synthesis of metal-metal oxide nanocomposites with well-controlled architectures such as the core@shell structure remains challenging. Additionally, introducing plasmonic metal can endow the nanomaterials with photoresponsive functions, offering opportunities for optical modulation of catalytic properties. In this work, we designed and fabricated an over-reduced Au@CoOx-Co core-shell nanostructure using an improved seed growth process involving carbonyl precursors. The Au core serves as an in situ catalyst facilitating the over-reduced CoOx-Co shells, and the strong interfacial interaction introduces abundant oxygen vacancies (OVs) to provide reactive sites. Meanwhile, the Au core generates excitons under light irradiation, which can significantly enhance the activation of peroxymonosulfate (PMS) for degrading fluorine-containing pollutants. This design synergistically integrates structural design, photoelectronic regulation, and catalytic enhancement, demonstrating a promising application in the future.</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="81858404" list="[{"name":"Wenhao Xu","sequence":1},{"name":"Yujie Cao","sequence":2},{"name":"Binhang Wang","sequence":3},{"name":"Zitao Zhang","sequence":4},{"name":"Xiang Li","sequence":5},{"name":"Libo Sun","sequence":6},{"name":"Guangnan Liu","sequence":7},{"name":"Yun Tang","sequence":8}]" verified="[]" page="work" ></article-authors> </div> <div class="alert alert-warning mb-0"> <h5 class="mt-0 bg-warning text-dark px-3 rounded d-inline-block"> 我是这篇论文的作者 </h5> <div class="font-weight-bold f13"> 点击您的名字以认领此论文并将其添加到您的个人资料中。 </div> </div> </div> <div class="f15 panel-box rounded shadow-none border"> <h4 class="mt-0 heading-count">评论</h4> <div class="d-flex flex-wrap flex-md-nowrap"> <div class="flex-grow-1"> <h4 class="f16"> 主要评分 <a href="javascript:;" data-toggle="tooltip" data-placement="right" title="主要评分表示论文的整体质量水平。"> <i class="ivu-icon ivu-icon-md-help-circle f18 ml-2"></i> </a> </h4> <div class="d-flex flex-wrap flex-md-nowrap align-items-center alert mb-0"> <div class="d-flex align-items-center justify-content-center"> <Rate disabled allow-half value="4.6" style="font-size: 28px;"></Rate> <strong class="f20 m-3" style="color: #f5a623;">4.6</strong> </div> <div class="text-muted mx-4"> 评分不足 </div> </div> <h4 class="f16"> 次要评分 <a href="javascript:;" data-toggle="tooltip" data-placement="right" title="次要评分独立反映论文的优点或缺点。"> <i class="ivu-icon ivu-icon-md-help-circle f18 ml-2"></i> </a> </h4> <div class="d-flex flex-wrap flex-md-nowrap alert"> <div class="d-flex flex-shrink-0 align-items-center mr-3"> <h5 class="my-0">新颖性</h5> <strong class="mx-4">-</strong> </div> <div class="d-flex flex-shrink-0 align-items-center mr-3"> <h5 class="my-0">重要性</h5> <strong class="mx-4">-</strong> </div> <div class="d-flex flex-shrink-0 align-items-center mr-3"> <h5 class="my-0">科学严谨性</h5> <strong class="mx-4">-</strong> </div> </div> </div> <div class="flex-shrink-0"> <div class="border bg-light py-2 px-4"> <h5 class="mb-1">评价这篇论文</h5> <Rate class="f24" @on-change="function(value){ location.href='https://www.peeref.com/zh/works/81858404/comments?rating='+value }"></Rate> </div> </div> </div> </div> <div id="collection" class="f15 panel-box rounded shadow-none border"> <h4 class="mt-0 heading-count">推荐</h4> <div class="my-3"> <ul class="nav nav-pills border-bottom pb-3" style="list-style: none; padding-left: 0;"> <li class="active"> <a href="#articles_from_related" data-toggle="tab" class="mx-0 f15"> <strong>相关</strong> </a> </li> <li class=""> <a href="#articles_from_authors" data-toggle="tab" class="mx-0 f15"> <strong>来自同一作者</strong> </a> </li> <li class=""> <a href="#articles_from_journal" data-toggle="tab" class="mx-0 f15"> <strong>来自同一期刊</strong> </a> </li> </ul> <div class="tab-content"> <div id="articles_from_related" class="tab-pane active"> <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/26160857" class="text-dark hover-underline">Dependence of Exchange Bias on Interparticle Interactions in Co/CoO Core/Shell Nanostructures</a> </h4> <p class="text-ellipsis-2">Suchandra Goswami, Pushpendra Gupta, Sagarika Nayak, Subhankar Bedanta, Oscar Iglesias, Manashi Chakraborty, Debajyoti De</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/9877.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded" style="background-color: #e8f3ff;"> <strong>Summary:</strong> This study reports the method of controlling the exchange bias effect by manipulating the interparticle interactions in nanocrystalline core/shell structures. The results indicate that the interparticle interactions have a significant impact on the magnetic properties, with a more pronounced collective behavior observed in concentrated assemblies. This finding contributes to a better understanding of the magnetic behavior in nanoparticle systems. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">NANOMATERIALS</span> (2022) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/26160857/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/34873330" class="text-dark hover-underline">Core-shell Co@CoO catalysts for the hydroformylation of olefins</a> </h4> <p class="text-ellipsis-2">Wen Xu, Yuan Ma, Xinjia Wei, Honghui Gong, Xiuge Zhao, Yuxi Qin, Qingpo Peng, Zhenshan 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/6213.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded" style="background-color: #e8f3ff;"> <strong>Summary:</strong> A new strategy has been proposed for synthesizing Co@CoO core-shell nanoparticles with a core-shell structure, which showed good activity and stability for the hydroformylation of olefins. The metal Co(0) species played an important role in the reaction, and the CoO layer suppressed the loss of active Co species. Moreover, the core-shell nano-catalysts exhibited good recyclability and easy separability. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">NEW JOURNAL OF CHEMISTRY</span> (2022) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/34873330/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"> Nanoscience & Nanotechnology </span> </div> <h4> <a href="https://www.peeref.com/zh/works/27623697" class="text-dark hover-underline">Giant exchange bias by tuning Co/CoO core/shell structure</a> </h4> <p class="text-ellipsis-2">Jeotikanta Mohapatra, Meiying Xing, Rui Wu, Jinbo Yang, Ping Liu</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/7429.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded" style="background-color: #e8f3ff;"> <strong>Summary:</strong> This report investigates the exchange-bias effect of Co/CoO core/shell nanoparticles with an amorphous CoO shell. The spin-glass state in the CoO shell at low temperatures creates a unidirectional anisotropy in the Co core, resulting in a large exchange bias field of up to 3.6 kOe. By improving the crystallinity of the CoO shell, the spin-glass ordering is suppressed, leading to a significantly lower exchange-bias field (2.2 kOe) and a prominent training effect due to multiple easy axes in the multi-crystalline CoO shell. Theoretical studies confirm the significant impact of the emerging spin-glass state on the exchange bias of the system. These findings offer a new approach for manipulating and fine-tuning exchange bias effects in nanoscale systems for spintronics applications. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">SCRIPTA MATERIALIA</span> (2023) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/27623697/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/23370732" class="text-dark hover-underline">Active Co@CoO core/shell nanowire arrays as efficient electrocatalysts for hydrogen evolution reaction</a> </h4> <p class="text-ellipsis-2">Changhao Wang, Yahao Li, Changdong Gu, Lingjie Zhang, Xiuli Wang, Jiangping Tu</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" style="background-color: #e8f3ff;"> <strong>Summary:</strong> This study presents a facile method to fabricate Co@CoO core/shell nanowire arrays as an efficient electrocatalyst for HER. The nanowire arrays exhibit superior catalytic activity with ultra-low overpotential in alkaline solution and excellent long-term stability, making them promising for hydrogen evolution applications. </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/23370732/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/35931217" class="text-dark hover-underline">Bimetallic Au-Pd nanoparticles supported on silica with a tunable core@shell structure: enhanced catalytic activity of Pd(core)-Au(shell) over Au(core)-Pd(shell)</a> </h4> <p class="text-ellipsis-2">Gauravjyoti D. Kalita, Podma P. Sarmah, Golap Kalita, Pankaj Das</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/11128.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded" style="background-color: #e8f3ff;"> <strong>Summary:</strong> A facile ligand-assisted approach was used to synthesize bimetallic Au-Pd nanoparticles with a tunable core@shell structure. The Au-Pd materials exhibited superior performance in two important reactions, with the Pd-core-Au-shell structure showing higher activity compared to the Au-core-Pd-shell structure. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">NANOSCALE ADVANCES</span> (2021) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/35931217/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/81697241" class="text-dark hover-underline">Co@CoO core-shell cross-linked framework modified 3D Cu for dendrite-free lithium anode</a> </h4> <p class="text-ellipsis-2">Yahao Li, Xianglong Xiao, Lulu Zhang, Bo Yan, Huachao Tao, Xuelin Yang</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" style="background-color: #e8f3ff;"> <strong>Summary:</strong> This paper presents the significance and challenges of lithium metal anode in battery applications, and proposes a method of constructing a core-shell cross-link matrix on copper to optimize the lithium metal anode. Through various characterizations and DFT simulations, the significant effects of this method on improving Coulombic efficiency and cycle stability are revealed. This study provides a new idea for the optimization of lithium metal anode. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">CHEMICAL ENGINEERING JOURNAL</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/81697241/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"> Agricultural Engineering </span> </div> <h4> <a href="https://www.peeref.com/zh/works/83095237" class="text-dark hover-underline">Synergistic activation of peroxymonosulfate by 3D CoNiO2/Co core-shell structure biochar catalyst for sulfamethoxazole degradation</a> </h4> <p class="text-ellipsis-2">Zhibin Liu, Xuelin Shi, Zihao Yan, Zhirong Sun</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/1196.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded" style="background-color: #e8f3ff;"> <strong>Summary:</strong> A novel 3D CoNiO2/Co core-shell structured biochar catalyst was synthesized for PMS activation to degrade SMX, and the synergistic effects and nonlinear modeling method were investigated, providing new insights for environmental applications. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">BIORESOURCE TECHNOLOGY</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83095237/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"> Materials Science, Composites </span> </div> <h4> <a href="https://www.peeref.com/zh/works/25290644" class="text-dark hover-underline">Multiscale core-shell CoO@Co euro PGN/CNTs composites aerogels for ultra-wide microwave absorption</a> </h4> <p class="text-ellipsis-2">Dongwei Xu, Yumei Ren, Xiaoqin Guo, Desheng Feng, Run Yang, Biao Zhao, Rui Zhang</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/1944.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded" style="background-color: #e8f3ff;"> <strong>Summary:</strong> Multiscale and multicomponent design is an effective strategy to improve microwave absorption materials. In this study, magnetic functional composites aerogels with core-shell CoO@Co nanoparticles, porous graphene nanosheets (PGN) and carbon nanotubes (CNTs) were successfully fabricated. The results showed that the calcination temperatures affected the chemical composition and complex structure of the aerogels, impacting their magnetic properties and electromagnetic parameters. At a calcination temperature of 650°C, CNTs were uniformly grown on the surface of porous graphene nanosheets, resulting in outstanding microwave absorption performance. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">COMPOSITES SCIENCE AND TECHNOLOGY</span> (2022) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/25290644/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/27239954" class="text-dark hover-underline">Core-shell structured cobalt-nickel bimetallic sulfide with dual redox cycles to activate peroxymonosulfate for glyphosate removal</a> </h4> <p class="text-ellipsis-2">Jie Li, Zhuobiao Ni, Qiongzhi Gao, Xixian Yang, Yueping Fang, Rongliang Qiu, Mingshan Zhu, Shengsen Zhang</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" style="background-color: #e8f3ff;"> <strong>Summary:</strong> In this study, a core-shell structured cobalt-nickel bimetallic sulfide NiCo2S4/Co9S8/NiS was synthesized and used as a peroxymonosulfate (PMS) activator to efficiently degrade glyphosate. The effects of different reaction conditions on glyphosate degradation were investigated, and the intermediates and degradation pathways were analyzed. This work provides new insights into catalysts for the degradation of glyphosate. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">CHEMICAL ENGINEERING JOURNAL</span> (2023) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/27239954/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/21442017" class="text-dark hover-underline">CoO-3D ordered mesoporous carbon nitride (CoO@mpgCN) composite as peroxymonosulfate activator for the degradation of sulfamethoxazole in water</a> </h4> <p class="text-ellipsis-2"> Thanh Binh Nguyen, C. P. Huang, Ruey-an Doong, Chiu-Wen Chen, Cheng-Di Dong</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/4610.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded" style="background-color: #e8f3ff;"> <strong>Summary:</strong> The CoO@mpgCN/PMS system showed high catalytic reactivity and SMX removal efficiency over a wide pH range, with stable and consistent degradation capacity for at least five consecutive cycles. The significant catalysis performance was attributed to the uniformly distributed mesopores, large specific surface area, and high electron transfer ability of CoO@mpgCN at the active CoO sites, leading to a radical chain reaction mechanism for SMX degradation. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">JOURNAL OF HAZARDOUS MATERIALS</span> (2021) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/21442017/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/26072101" class="text-dark hover-underline">Core-shell bimetallic Fe-Co MOFs to activated peroxymonosulfate for efficient degradation of 2-chlorophenol</a> </h4> <p class="text-ellipsis-2">Aotian Gu, Peng Wang, Kaiwei Chen, Elvis Djam Miensah, Chunhui Gong, Yan Jiao, Ping Mao, Kai Chen, Jinlong Jiang, Ying Liu, Yi Yang</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" style="background-color: #e8f3ff;"> <strong>Summary:</strong> Based on two different topologies of MOFs, core-shell bimetallic MIL-101/ZIF-67(x) (M/Z(x)) materials were successfully synthesized for the activation of peroxymonosulfate (PMS) self-decomposition in order to degrade 2-chlorophenol. The M/Z(x) exhibited not only the advantages of single-metal MOFs such as high surface area and pore volume, but also superior catalytic performance. Further investigation revealed that the catalytic degradation of 2-chlorophenol was promoted by the synergistic effect of cobalt and iron active sites in M/Z(x), which enhanced the Co2+/Co3+ redox cycle. Radical and non-radical pathways contributed to the degradation, with singlet oxygen (O-1(2)) playing a predominant role in the non-radical pathway. Sulfate radical (SO4 center dot-) and hydroxyl radical ((OH)-O-center dot) also accelerated the degradation process. </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/26072101/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/28213728" class="text-dark hover-underline">Boosting peroxymonosulfate activation by a novel bifunctional core-shell nanoreactor MnFe2O4@HZO for nitrilotris-methylenephosphonic acid removal</a> </h4> <p class="text-ellipsis-2">Shunlong Pan, Xinrui Guo, Xing Lu, Rong Li, Hao Hu, Xi Nie, Biming Liu, Rong Chen, Mingxin Zhu, Shengqiang Hei, Xianzheng Zhu, Shuo Zhang, Hua 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/722.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded" style="background-color: #e8f3ff;"> <strong>Summary:</strong> Designed MnFe2O4@HZO magnetic core-shell nanoreactor with catalysis and adsorption functions for PMS activation and NTMP removal. Achieved 96.5% total phosphorus removal within 180 min, with only 0.18 mg/L phosphates remaining. HZO shell provided strong complexation for phosphate adsorption and core exhibited excellent electron transfer for PMS activation. High NTMP removal obtained under HZO protection in wide pH range (3-8) or complex water matrices. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">APPLIED CATALYSIS B-ENVIRONMENTAL</span> (2023) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/28213728/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"> Materials Science, Multidisciplinary </span> </div> <h4> <a href="https://www.peeref.com/zh/works/23990618" class="text-dark hover-underline">Photo-controlled exchange bias in CoO@Co-Fe PBA core-shell heterostructures</a> </h4> <p class="text-ellipsis-2">Kangkang Yao, Jianing Li, Shuang Yuan, Kaiyan Cao, Fang Wang, Yin Zhang, Fanghua Tian, Jinwen Wang, Qiang Wang, Sen Yang</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/9526.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded" style="background-color: #e8f3ff;"> <strong>Summary:</strong> In this study, researchers achieved a non-volatile light-tunable exchange bias effect in a well-designed core-shell structure of CoO and CoFe Prussian blue analogue. The exchange bias field of the hybrid can be reduced after irradiation and further increased by extending the irradiation time. Additionally, switching between two exchange bias effect states was successfully implemented by switching red and blue light irradiation. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">JOURNAL OF MATERIALS CHEMISTRY C</span> (2021) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/23990618/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"> Environmental Sciences </span> </div> <h4> <a href="https://www.peeref.com/zh/works/27245002" class="text-dark hover-underline">Shaddock peels derived multilayer biochar with embedded CoO@Co nanoparticles for peroxymonosulfate based wastewater treatment</a> </h4> <p class="text-ellipsis-2">Qingyi Zeng, Liu Yang, Qingyan Zhang, Tao Cai, Yumei Wang, Yuhan Cao, Junwen Lv, Zhu Xiong, Suqing Wu, Rena Oh</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/1684.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded" style="background-color: #e8f3ff;"> <strong>Summary:</strong> The utilization of bio-wastes, such as shaddock peels, for sustainable development is significant. A highly efficient functional catalyst, Co-SPC-x(y), embedded with CoO@Co nanoparticles derived from shaddock peels biochar (SPC), was prepared and used for refractory organics degradation. The optimized Co-SPC-10 (900) showed excellent PMS activation ability and stability, with 100% CTC removal in 12 minutes. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">CHEMOSPHERE</span> (2023) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/27245002/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"> Engineering, Environmental </span> </div> <h4> <a href="https://www.peeref.com/zh/works/33520172" class="text-dark hover-underline">Co@C core-shell nanostructures anchored on carbon cloth for activation of peroxymonosulfate to degrade tetracycline</a> </h4> <p class="text-ellipsis-2">Quanzhi Zhang, Jun Tian, Yi Hu, Shaolin Wu, Dezhi Chen</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/10926.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded" style="background-color: #e8f3ff;"> <strong>Summary:</strong> Co@C/CC immobilized catalyst shows enhanced catalytic activity and lower Co ion leaching in persulfate activation for organic pollutant degradation. The Co@C/CC/PMS system efficiently degrades tetracycline with high durability, interference resistance, and wide pH adaptability. Non-free radical pathway (1O2) dominates the degradation process. Density functional theory calculations indicate C-C as the primary attack site in tetracycline and provide possible degradation pathways. Importantly, the Co@C/CC catalyst enables fast and simple collection and regeneration. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">JOURNAL OF ENVIRONMENTAL CHEMICAL ENGINEERING</span> (2023) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/33520172/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, Multidisciplinary </span> </div> <h4> <a href="https://www.peeref.com/zh/works/83158310" class="text-dark hover-underline">Hydrogen-Bonded Mesoporous Frameworks with Tunable Pore Sizes and Architectures from Nanocluster Assembly Units</a> </h4> <p class="text-ellipsis-2">Jie Zhang, LiangLiang Liu, Zaiwang Zhao, Chin-Te Hung, Binhang Wang, Linlin Duan, Kexin Lv, Xiao-Ming Cao, Yun Tang, Dongyuan Zhao</p> <div class="d-flex mb-3"> <div class="p-3 rounded" style="background-color: #e8f3ff;"> <strong>Summary:</strong> This study reports a micelle-directed nanocluster modular self-assembly approach for the synthesis of two-dimensional hydrogen-bonded mesoporous frameworks (HMFs). The method is based on nanoscale cluster units, which can form uniform hexagonal arrays. By controlling the block lengths and concentrations of the micelles, the size and shape of the mesopores can be precisely controlled. This method is versatile and can be used to synthesize various HMFs with different configurations and compositions. The titanium-oxo cluster-based HMFs show efficient photocatalytic activity for hydrogen evolution, with a conversion rate about 2 times higher than that of the unassembled titanium-oxo clusters. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">JOURNAL OF THE AMERICAN CHEMICAL SOCIETY</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83158310/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/35018923" class="text-dark hover-underline">Synthesis of silica-stabilized Ag44 clusters aided by a designed mercaptosilane ligand</a> </h4> <p class="text-ellipsis-2">Jinyu Yang, Shoudong Xie, Hui Zhang, Wenhao Xu, Angang Dong, Yun Tang</p> <div class="d-flex mb-3"> <div class="p-3 rounded" style="background-color: #e8f3ff;"> <strong>Summary:</strong> The stability and potential optical applications of Ag-44 clusters have been improved by the novel design of a microscopic ligand and macroscopic structure. This design allows the clusters to maintain UV-vis absorption for 13 hours when heated in air and be coated with silica shells. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">CHEMICAL COMMUNICATIONS</span> (2022) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/35018923/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/25976715" class="text-dark hover-underline">Sub-10 nm Corrugated TiO2 Nanowire Arrays by Monomicelle- Directed Assembly for Efficient Hole Extraction</a> </h4> <p class="text-ellipsis-2">Pengfei Zhang, Zhangliu Tian, Yikun Kang, Bowen He, Zaiwang Zhao, Chin-Te Hung, Linlin Duan, Wei Chen, Yun Tang, Jiaguo Yu, Liqiang Mai, Ye-Fei Li, Wei Li, Dongyuan Zhao</p> <div class="d-flex mb-3"> <div class="p-3 rounded" style="background-color: #e8f3ff;"> <strong>Summary:</strong> Well-aligned sub-10 nm TiO2 nanowire arrays with controllable corrugated structure were synthesized using a unique monomicelle-directed assembly method. The arrays exhibited excellent charge dynamic properties and high photon-to-current efficiency, making them suitable for efficient water splitting. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">JOURNAL OF THE AMERICAN CHEMICAL SOCIETY</span> (2022) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/25976715/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/36150467" class="text-dark hover-underline">Quantized doping of CdS quantum dots with twelve gold atoms</a> </h4> <p class="text-ellipsis-2">Junlai Yu, Hui Zhang, Wenhao Xu, Guangnan Liu, Yun Tang, Dongyuan Zhao</p> <div class="d-flex mb-3"> <div class="p-3 rounded" style="background-color: #e8f3ff;"> <strong>Summary:</strong> CdS quantum dots doped with 12 gold atoms in each nanocrystal were prepared through cation exchange reactions and the dopants were directly observed using high-angle annular dark-field scanning transmission electron microscopy. The doped CdS quantum dots showed properties of excited electron injection, leading to multiple fine peaks in the photoluminescence excitation spectra, demonstrating a universal approach for precise tailoring of dopants and band energy engineering. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">CHEMICAL COMMUNICATIONS</span> (2021) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/36150467/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/21074442" class="text-dark hover-underline">An Aqueous Route Synthesis of Transition-Metal-Ions-Doped Quantum Dots by Bimetallic Cluster Building Blocks</a> </h4> <p class="text-ellipsis-2">Hui Zhang, Junlai Yu, Caixia Sun, Wenhao Xu, Jie Chen, Hui Sun, Chen Zong, Zhen Liu, Yun Tang, Dongyuan Zhao</p> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">JOURNAL OF THE AMERICAN CHEMICAL SOCIETY</span> (2020) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/21074442/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/18752805" class="text-dark hover-underline">Epitaxial Growth and Integration of Insulating Metal-Organic Frameworks in Electrochemistry</a> </h4> <p class="text-ellipsis-2">Anqi Hu, Qingqing Pang, Can Tang, Jingxian Bao, Hanqi Liu, Kun Ba, Songhai Xie, Jie Chen, Jinhang Chen, Yawei Yue, Yun Tang, Qiaowei Li, Zhengzong Sun</p> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">JOURNAL OF THE AMERICAN CHEMICAL SOCIETY</span> (2019) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/18752805/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/18464487" class="text-dark hover-underline">Versatile Nanoemulsion Assembly Approach to Synthesize Functional Mesoporous Carbon Nanospheres with Tunable Pore Sizes and Architectures</a> </h4> <p class="text-ellipsis-2">Liang Peng, Chin-Te Hung, Shuwen Wang, Xingmiao Zhang, Xiaohang Zhu, Zaiwang Zhao, Changyao Wang, Yun Tang, Wei Li, Dongyuan Zhao</p> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">JOURNAL OF THE AMERICAN CHEMICAL SOCIETY</span> (2019) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/18464487/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/5115532" class="text-dark hover-underline">Unconventional morphologies of CoO nanocrystals via controlled oxidation of cobalt oleate precursors</a> </h4> <p class="text-ellipsis-2"> Yiliguma, Wenhao Xu, Zhijie Wang, Longmei Shang, Hui Zhang, Abdullah M. Al-Enizi, Yun Tang, Gengfeng Zheng</p> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">CHEMICAL COMMUNICATIONS</span> (2018) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/5115532/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"> Biochemical Research Methods </span> </div> <h4> <a href="https://www.peeref.com/zh/works/1919256" class="text-dark hover-underline">Superparamagnetic Nanoparticles as High Efficiency Magnetic Resonance Imaging T2 Contrast Agent</a> </h4> <p class="text-ellipsis-2">Fernanda Sousa, Barbara Sanavio, Alessandra Saccani, Yun Tang, Ileana Zucca, Tamara M. Carney, Alfonso Mastropietro, Paulo H. Jacob Silva, Randy P. Carney, Kurt Schenk, Arash O. Omrani, Ping Huang, Lin Yang, Henrik M. Ronnow, Francesco Stellacci, Silke Krol</p> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">BIOCONJUGATE CHEMISTRY</span> (2017) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/1919256/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/3903094" class="text-dark hover-underline">Colloidal nanocrystals for electrochemical reduction reactions</a> </h4> <p class="text-ellipsis-2"> Yiliguma, Yun Tang, Gengfeng Zheng</p> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">JOURNAL OF COLLOID AND INTERFACE SCIENCE</span> (2017) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/3903094/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/4795046" class="text-dark hover-underline">Bridged-multi-octahedral cobalt oxide nanocrystals with a Co-terminated surface as an oxygen evolution and reduction electrocatalyst</a> </h4> <p class="text-ellipsis-2"> Yiligum, Zhijie Wang, Wenhao Xu, Yuhang Wang, Xiaoqi Cui, Abdullah M. Al-Enizi, Yun Tang, Gengfeng Zheng</p> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">JOURNAL OF MATERIALS CHEMISTRY A</span> (2017) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/4795046/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/2878629" class="text-dark hover-underline">Multifunctional gold nanocomposites designed for targeted CT/MR/optical trimodal imaging of human non-small cell lung cancer cells</a> </h4> <p class="text-ellipsis-2">Jingwen Chen, Yingqi Sun, Qian Chen, Le Wang, Suhe Wang, Yun Tang, Xiangyang Shi, Han Wang</p> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">NANOSCALE</span> (2016) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/2878629/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/3436254" class="text-dark hover-underline">Surfactant-templating strategy for ultrathin mesoporous TiO2 coating on flexible graphitized carbon supports for high-performance lithium-ion battery</a> </h4> <p class="text-ellipsis-2">Yong Liu, Ahmed A. Elzatahry, Wei Luo, Kun Lan, Pengfei Zhang, Jianwei Fan, Yong Wei, Chun Wang, Yonghui Deng, Gengfeng Zheng, Fan Zhang, Yun Tang, Liqiang Mai, Dongyuan Zhao</p> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">NANO ENERGY</span> (2016) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/3436254/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/1102820" class="text-dark hover-underline">Engineering Acoustic Phonons and Electron-Phonon Coupling by the Nanoscale Interface</a> </h4> <p class="text-ellipsis-2">Shangjie Yu, Jiatao Zhang, Yun Tang, Min Ouyang</p> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">NANO LETTERS</span> (2015) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/1102820/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"> Article </span> <span class="d-inline-block badge badge-cyan"> Chemistry, Physical </span> </div> <h4> <a href="https://www.peeref.com/zh/works/83090122" class="text-dark hover-underline">Computer-Aided Design of Covalent Organic Frameworks for SF6 Capture: The Combination of High-Throughput Screening and Machine Learning</a> </h4> <p class="text-ellipsis-2">Junjie Ning, Kun Shen, Rui Zhao, Kunqi Gao, Jingyu Cai, Linxi Hou</p> <div class="d-flex mb-3"> <div class="p-3 rounded" style="background-color: #e8f3ff;"> <strong>Summary:</strong> This paper selected four COFs with better performance in SF6/N2 separation experiments from the CURATED database by high-throughput screening and the machine learning model XGB, and studied their adsorption mechanisms and separation performance. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">JOURNAL OF PHYSICAL CHEMISTRY C</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83090122/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/82932586" class="text-dark hover-underline">In Situ Raman Spectroscopic Studies of Electrochemical CO2 Reduction on Cu-Based Electrodes</a> </h4> <p class="text-ellipsis-2">Zi-Yu Du, Kun Wang, Si-Bo Li, Yi-Meng Xie, Jing-Hua Tian, Qing-Na Zheng, Weng Fai Ip, Hua Zhang, Jian-Feng Li, Zhong-Qun Tian</p> <div class="d-flex mb-3"> <div class="p-3 rounded" style="background-color: #e8f3ff;"> <strong>Summary:</strong> This paper reviews the progress of in situ SERS studies of CO2RR on Cu-based catalysts, discusses the reaction mechanism, presents the research results on different electrodes and catalysts, and the capture of intermediates, and finally points out the future opportunities and challenges, providing insights for understanding the mechanism and designing catalysts. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">JOURNAL OF PHYSICAL CHEMISTRY C</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/82932586/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/82932613" class="text-dark hover-underline">The Effect of Structure-Sensitive TiO2/BiOCl Heterojunction on Photocatalytic Degradation of Norfloxacin</a> </h4> <p class="text-ellipsis-2">Linjing Hao, Weiqi Zhang, Peng Li, Jing-He Yang, Jie Zhang</p> <div class="d-flex mb-3"> <div class="p-3 rounded" style="background-color: #e8f3ff;"> <strong>Summary:</strong> TiO2/BiOCl heterojunction photocatalysts with different exposed facets were studied, and their photocatalytic activities were higher than those of their individual components. The favorable energy band shifts constructed an efficient Z-scheme heterostructure photocatalytic system, which reduced recombination and accelerated carrier separation. The electrostatic fields within the BiOCl crystal planes caused electrons to migrate through different paths, resulting in a shorter charge transport distance and lower electron loss in BiOCl(010), leading to higher photocatalytic activity. The photocatalytic oxidation mechanism was also proposed. This study contributes to understanding the charge transfer behavior and provides a reference for the design of efficient heterojunction photocatalysts. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">JOURNAL OF PHYSICAL CHEMISTRY C</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/82932613/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/83159076" class="text-dark hover-underline">Investigating the Origins of the pH-Dependent Oxidation of Glycerol over Platinum Using Differential Electrochemical Mass Spectrometry</a> </h4> <p class="text-ellipsis-2">Takuya Hamada, Abigail R. Circelli, Hiroshi Inoue, Clive A. Randall, Ezra L. Clark</p> <div class="d-flex mb-3"> <div class="p-3 rounded" style="background-color: #e8f3ff;"> <strong>Summary:</strong> This study investigated the mechanism of glycerol oxidation on Pt using differential electrochemical mass spectrometry. It was found that in acidic media, most potential glycerol oxidation products require a higher overpotential for oxidation, while in alkaline media, these intermediates are more easily oxidized to CO2. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">JOURNAL OF PHYSICAL CHEMISTRY C</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83159076/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/82932510" class="text-dark hover-underline">High-Throughput Computation and Machine Learning Prediction Accelerating the Design of Cathode Catalysts for Li-CO2 Batteries</a> </h4> <p class="text-ellipsis-2">Tengyu Yao, Zhenming Xu, Tingsong Hu, Kang Hu, Xueliang Cui, Laifa Shen</p> <div class="d-flex mb-3"> <div class="p-3 rounded" style="background-color: #e8f3ff;"> <strong>Summary:</strong> This study screened out a promising transition metal-based cathode catalyst MoN by synergistically using high-throughput computing and machine learning technology, which can promote the reaction product of lithium oxalate and has the minimum overpotential. The study also revealed that the origin of catalytic activity is adsorption energy, providing a new idea and method for the screening of cathode catalysts for Li-CO2 batteries. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">JOURNAL OF PHYSICAL CHEMISTRY C</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/82932510/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/83159519" class="text-dark hover-underline">Improved Photoluminescence, Electroluminescence, and Laser Characteristics of 1-Naphthylmethylamine-Based Quasi-Two-Dimensional Perovskite Films at Lower Temperatures</a> </h4> <p class="text-ellipsis-2">Ryotaro Nasu, Xun Tang, Adikari Mudiyanselage Chathuranganie Senevirathne, Toshinori Matsushima, Chihaya Adachi</p> <div class="d-flex mb-3"> <div class="p-3 rounded" style="background-color: #e8f3ff;"> <strong>Summary:</strong> Halide perovskite materials have progress in optically Pumped lasing. Quasi-2D perovskite films based on NMA are promising, but with high thresholds. Studying their temperature-dependent laser characteristics, it is found that lowering the temperature can reduce the thresholds, and the threshold current density is low at 73 K, but in actual devices, the thresholds will increase due to optical losses, and future optimization of device architectures is needed to achieve electrically pumped lasing. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">JOURNAL OF PHYSICAL CHEMISTRY C</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83159519/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/83087467" class="text-dark hover-underline">High-Temperature Water Adsorption Isotherms and Ambient Temperature Water Diffusion Rates on Water Harvesting Metal-Organic Frameworks</a> </h4> <p class="text-ellipsis-2">Jon Hastings, Thomas Lassitter, Zhiling Zheng, Saumil Chheda, J. Ilja Siepmann, Laura Gagliardi, Omar M. Yaghi, T. Grant Glover</p> <div class="d-flex mb-3"> <div class="p-3 rounded" style="background-color: #e8f3ff;"> <strong>Summary:</strong> This study measured the water adsorption isotherms of three MOFs commonly used in water harvesting applications, revealing the effects of temperature on the adsorption isotherms and the conditions required to remove adsorbed water. Simulations and experiments also showed that MOF-LA2-1 is a leading candidate for atmospheric water harvesting. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">JOURNAL OF PHYSICAL CHEMISTRY C</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83087467/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/84032614" class="text-dark hover-underline">Delayed Fluorescence Materials: Mechanism, Design, and Bioapplication</a> </h4> <p class="text-ellipsis-2">Lixun Zhu, Zicong Zhang, Yanling Liu, Ziwei Deng, Yumei Luo, Yong Liu, Zheng Zhao, Ben Zhong Tang</p> <div class="d-flex mb-3"> <div class="p-3 rounded" style="background-color: #e8f3ff;"> <strong>Summary:</strong> This review presents the characteristics and design strategies of materials with delayed fluorescence (DF), and summarizes their recent progress in biological applications, including fluorescent biosensing, time-gated bioimaging, and photodynamic therapy. In addition, the future perspectives and improvement directions of DF materials in the biological field are also discussed. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">JOURNAL OF PHYSICAL CHEMISTRY C</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/84032614/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/83100024" class="text-dark hover-underline">High-Rate Performance Organic Cathodes Based on Carbon Nanotube-Modified Anthraquinone-Based Polyimides for All-Organic Lithium/Sodium-Ion Batteries</a> </h4> <p class="text-ellipsis-2">Yan Xin, Zezhong Li, Yunnian Ge, Fang Zhang, Bijiao He, Chen Wang, Shuwei Wang, Huajun Tian</p> <div class="d-flex mb-3"> <div class="p-3 rounded" style="background-color: #e8f3ff;"> <strong>Summary:</strong> PAQI is a promising organic cathode material for Li-ion batteries, but it has problems such as low conductivity. By in situ polymerization on carbon nanotubes, PAQI@xCNT was synthesized, which improved the electron transfer kinetics. The PAQI@2.5CNT cathode has high specific capacity, high rate performance, and good cycle stability, and still performs well under high active material loading. This work provides a strategy for designing high-rate-performance all-organic Li/Na-ion batteries. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">JOURNAL OF PHYSICAL CHEMISTRY C</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83100024/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/83101573" class="text-dark hover-underline">Magnetic Ordering-Dependent Sliding Ferroelectricity in Van Der Waals Bilayers</a> </h4> <p class="text-ellipsis-2">Rui-Hao Zhou, Meng-Qiu Long, Yun-Peng Wang</p> <div class="d-flex mb-3"> <div class="p-3 rounded" style="background-color: #e8f3ff;"> <strong>Summary:</strong> This study demonstrates the tunability of interlayer orbital hybridization and charge transfer via spin degrees of freedom in bilayer of 2D magnetic MnNiP2S6, resulting in sliding ferroelectricity. Calculations show that out-of-plane polarization depends on the magnetic configuration, and a super-exchange path is responsible for interlayer exchange interaction and charge transfer. This work provides a new approach for constructing multiferroic 2D systems. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">JOURNAL OF PHYSICAL CHEMISTRY C</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83101573/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/83048279" class="text-dark hover-underline">Activity-Selectivity Trade-off in Propane Dehydrogenation: Pt-C Repulsion is the Essence</a> </h4> <p class="text-ellipsis-2">Xin Chang, Lyudmila Moskaleva, Zhi-Jian Zhao, Jinlong Gong</p> <div class="d-flex mb-3"> <div class="p-3 rounded" style="background-color: #e8f3ff;"> <strong>Summary:</strong> This paper discusses strategies to break the linear scaling relationship in propane dehydrogenation to improve catalyst selectivity. It is found that the strength of Pt-C repulsion is the key factor in the activity-selectivity trade-off. Geometric modulation can improve this trade-off, but the trade-off still exists. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">JOURNAL OF PHYSICAL CHEMISTRY C</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83048279/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/83413647" class="text-dark hover-underline">Understanding Reactive Oxygen Species in Potential-Resolved Electrochemiluminescence of Luminol-Dissolved O2</a> </h4> <p class="text-ellipsis-2">Wan Zhong, Yizhuo Fu, Xueqian Chen, Chao Lu</p> <div class="d-flex mb-3"> <div class="p-3 rounded" style="background-color: #e8f3ff;"> <strong>Summary:</strong> This study investigated the role of reactive oxygen species in potential-resolved ECL of luminol-dissolved O-2, and found that superoxide radical and hydroxyl radical had different effects on different ECL peaks, and proposed pathways for all ECL peaks. This will help guide the rational regulation and application of luminol ECL in various fields. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">JOURNAL OF PHYSICAL CHEMISTRY C</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83413647/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/83013006" class="text-dark hover-underline">Intermetallic Copper-Antimony Alloy for Enhanced Electrocatalytic CO2 Reduction to CO</a> </h4> <p class="text-ellipsis-2">Honghao Huang, Kaihang Yue, Kai Lei, Bao Yu Xia, Ya Yan</p> <div class="d-flex mb-3"> <div class="p-3 rounded" style="background-color: #e8f3ff;"> <strong>Summary:</strong> This study developed a bimetallic Cu3Sb alloy for enhanced CO2RR by modulating the coordination environment of Cu with Sb, achieving intermetallic synergy for selective electrocatalytic CO2 reduction to CO. The alloy exhibited excellent performance in flow cells and MEA cells, and its catalytic mechanism and robustness were further investigated. This research provides insights for developing intermetallic compounds as durable and efficient catalytic systems for carbon capture and conversion technologies. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">JOURNAL OF PHYSICAL CHEMISTRY C</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83013006/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/83511837" class="text-dark hover-underline">Influence of Multiple rISC Channels on the Maximum Efficiency and Roll-Off of TADF OLEDs</a> </h4> <p class="text-ellipsis-2">Paloma Lays dos Santos, Daniel de Sa Pereira, Chan Seok Oh, Nadzeya Kukhta, Ha Lim Lee, Jun Yeob Lee, Andrew P. Monkman</p> <div class="d-flex mb-3"> <div class="p-3 rounded" style="background-color: #e8f3ff;"> <strong>Summary:</strong> This work studies the relationship between the photophysical properties and device performance of a series of multi-donor-acceptor thermally activated delayed fluorescent emitters. Increasing the number of Ds changes the dihedral angles, affecting the energy gap and molecular conjugation, resulting in multiple rISC channels. The rate of rISC affects device performance. This explains why some emitters have high peak external quantum efficiencies but poor roll-off. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">JOURNAL OF PHYSICAL CHEMISTRY C</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83511837/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, Physical </span> </div> <h4> <a href="https://www.peeref.com/zh/works/83414828" class="text-dark hover-underline">Tip-Enhanced Upconversion Luminescence of Single Sub-10 nm Rare-Earth Ion-Doped Nanoparticle</a> </h4> <p class="text-ellipsis-2">Chengxiang Gou, Bowen Kang, Yue Dou, Jinyu Li, Sihan Wang, Huan Chen, Zhengkun Fu, Zhenglong Zhang, Hairong Zheng</p> <div class="d-flex mb-3"> <div class="p-3 rounded" style="background-color: #e8f3ff;"> <strong>Summary:</strong> Rare-earth ion-doped upconversion nanoparticles are attracting considerable attention due to their unique luminescent properties and spectroscopic characteristics. By employing the surface plasmon effect, one can precisely regulate the luminescent properties of rare-earth ions and better explore the luminescent dynamics and energy transfer mechanisms. Through distance modulation using atomic force microscopy, effective plasmonic regulation of upconversion luminescence was achieved, resulting in a super-resolution luminescence of the single upconversion nanoparticle (UCNP) at 96 nm for the 650 nm transitions. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">JOURNAL OF PHYSICAL CHEMISTRY C</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83414828/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 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Over-Reduced Core-Shell Au@CoO x -Co with Strong Interfacial Interactions for Photoassisted Peroxymonosulfate Activation - Peeref