Engineering Acoustic Phonons and Electron-Phonon Coupling by the Nanoscale Interface

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rel="alternate" hreflang="en" href="https://www.peeref.com/works/1102820" > <span>English</span> </a> <a rel="alternate" hreflang="zh" href="https://www.peeref.com/zh/works/1102820" > <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">4.8</span> </span> <span class="mx-3"></span> <span class="tag">Article</span> </div> <h1 class="title title-for-article"> Engineering Acoustic Phonons and Electron-Phonon Coupling by the Nanoscale Interface </h1> <div class="help-links-left"> <p class="pub-info"> NANO LETTERS (2015) </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 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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"> AMER CHEMICAL SOC </h5> <div class="my-2"> DOI: 10.1021/acs.nanolett.5b03227 </div> </div> </div> <div class="mb-3 pb-3"> <h4 class="mt-0">关键词</h4> <div class="f16"> Core-shell nanostructures; interface; ultrafast optical spectroscopy; acoustic phonons; electron-phonon coupling </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=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" target="_blank" class="text-dark btn btn-link p-0 text-left"> Nanoscience & Nanotechnology </a> </span> <span class="d-block"> <a href="https://www.peeref.com/zh/works/list?category=Materials+Science%2C+Multidisciplinary" target="_blank" class="text-dark btn btn-link p-0 text-left"> Materials Science, Multidisciplinary </a> </span> <span class="d-block"> <a href="https://www.peeref.com/zh/works/list?category=Physics%2C+Applied" target="_blank" class="text-dark btn btn-link p-0 text-left"> Physics, Applied </a> </span> <span class="d-block"> <a href="https://www.peeref.com/zh/works/list?category=Physics%2C+Condensed+Matter" target="_blank" class="text-dark btn btn-link p-0 text-left"> Physics, Condensed Matter </a> </span> </div> </div> <div class="mb-3 pb-3"> <h4 class="mt-0">资金</h4> <div class="f16"> <ol class=""> <li>Office of Naval Research [N000141410328]</li> <li>US Department of Energy, Office of Basic Sciences, Division of Materials Sciences and Engineering [DESC0010833]</li> <li>National Science Foundation [DMR1307800]</li> <li>Division Of Materials Research</li> <li>Direct For Mathematical & Physical Scien [1307800] Funding Source: National Science Foundation</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/1102820/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/1102820/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="#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="raw_abstract" class="tab-pane active"> <div class="abstract-panel panel-box mb-0 rounded shadow-none"> <div class="f16">Precise engineering of phonon-phonon (ph-ph) and electron-phonon (e-ph) interactions by materials design is essential for an in-depth understanding of thermal, electrical, and optical phenomena as well as new technology breakthrough governed by fundamental physical laws. Due to their characteristic length scale, the ph-ph and e-ph interactions can be dramatically modified by nanoscale spatial confinement, thus opening up opportunities to finely maneuver underlying coupling processes through the interplay of confined size, fundamental length scale, and interface. We have combined ultrafast optical spectroscopy with a series of well-designed nanoscale core-shell structures possessing precisely tunable interface to demonstrate for the first time unambiguous experimental evidence of coherent interfacial phonon coupling between the core and shell constituents. Such interfacially coupled phonons can be impulsively excited through the e-ph interaction, in which the critical e-ph coupling constant is further shown to be monotonically controlled by tuning the configuration and constituent of core-shell nanostructure. Precise tunability of elemental physics processes through nanoscale materials engineering should not only offer fundamental insights into different materials properties but also facilitate design of devices possessing desirable functionality and property with rationally tailored nanostructures as building blocks.</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="1102820" list="[{"name":"Shangjie Yu","sequence":1},{"name":"Jiatao Zhang","sequence":2},{"name":"Yun Tang","sequence":3},{"name":"Min Ouyang","sequence":4}]" 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="4.8" style="font-size: 28px;"></Rate> <strong class="f20 m-3" style="color: #f5a623;">4.8</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/1102820/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"> Physics, Multidisciplinary </span> </div> <h4> <a href="https://www.peeref.com/zh/works/84147394" class="text-dark hover-underline">Plasmon-Phonon Hybridization in Doped Semiconductors from First Principles</a> </h4> <p class="text-ellipsis-2">Jae-Mo Lihm, Cheol-Hwan Park</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/6658.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> This study transforms the Dyson equation into the dynamic matrix of an equivalent damped oscillator, enabling the first-principles study of the nonadiabatic hybridization and mutual screening of plasmons and phonons. Calculations on doped GaAs and TiO2 agree well with Raman data, awaiting experimental confirmation. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">PHYSICAL REVIEW LETTERS</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/84147394/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/83281740" class="text-dark hover-underline">Ultrafast Polarization-Resolved Phonon Dynamics in Monolayer Semiconductors</a> </h4> <p class="text-ellipsis-2">Tong Lin, Xiaotong Chen, Rui Xu, Jiaming Luo, Hanyu 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/6032.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> We studied the ultrafast dynamics of linearly and circularly polarized E-'(Gamma) phonons at the Brillouin zone center in single-crystalline monolayer WS2. Using terahertz pulse excitation and time-resolved anti-Stokes Raman spectroscopy, we found that the lifetime of the incoherent phonon population is longer than that of the coherent phonon, and the depolarization rate in the circular polarization basis is faster than that in the linear polarization basis. These results provide crucial information for improving the lifetime of chiral phonons in two-dimensional materials and potentially facilitate dynamic control of spin-orbital polarizations in quantum materials. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">NANO LETTERS</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83281740/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/84593149" class="text-dark hover-underline">Ultrafast Control over Stiffening and Softening of Coherent Interlayer Coupling in WSe2/WS2 Heterobilayers</a> </h4> <p class="text-ellipsis-2">Jinjae Kim, Jeonghyeon Suh, Suk-Ho Lee, Kenji Watanabe, Takashi Taniguchi, Faisal Ahmed, Zhipei Sun, Moon-Ho Jo, Hongki Min, Hyunyong Choi</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/6032.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> This study reports the ultrafast optical control of the amplitude and oscillation period of interlayer breathing phonons in WSe2/WS2 heterobilayers by femtosecond optical excitation, and presents a theoretical model to explain the impact of charge-separated carriers generated by photoexcitation on phonon dynamics. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">NANO LETTERS</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/84593149/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/84319337" class="text-dark hover-underline">Controlling friction energy dissipation by ultrafast interlayer electron-phonon coupling in WS2/graphene heterostructures</a> </h4> <p class="text-ellipsis-2">Chong Wang, Rui Han, Yutang Wang, Shihong Chen, Haowen Xu, Shuchun Huang, Zejun Sun, Zhihong Li, Jianbin Luo, Dameng Liu, Huan 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/9596.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> This study uses high-resolution non-contact atomic force microscopy and ultrafast pump-probe spectroscopy to find that the interlayer electron-phonon coupling dissipation channel in WS2/graphene heterostructures can be enhanced by defects, and the electron-phonon scattering time is accelerated from 0.62 ps to 0.27 ps, resulting in significant energy dissipation. This work provides a new way to understand the mechanism of electron-phonon coupling in friction. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">NANO ENERGY</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/84319337/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/26777939" class="text-dark hover-underline">Pressure Evolution of Ultrafast Photocarrier Dynamics and Electron-Phonon Coupling in FeTe0.5Se0.5</a> </h4> <p class="text-ellipsis-2">Muyun Li, Yan Zhou, Kai Zhang, Guangyong Xu, Genda Gu, Fuhai Su, Xiaojia 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/8625.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> This study reveals the evolution of the coupling between electrons and phonons in FeTe0.5Se0.5 under pressure through ultrafast photocarrier dynamics and Raman scattering studies. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">MATERIALS</span> (2022) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/26777939/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/34031427" class="text-dark hover-underline">Ultrafast dynamics in plasmon-exciton core-shell systems: the role of heat</a> </h4> <p class="text-ellipsis-2">Felix Stete, Matias Bargheer, Wouter Koopman</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/6037.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> The strong interaction between plasmons and excitons can generate new hybrid polariton states with potential applications. However, the transient behavior of these systems is not fully understood. In this study, we provide conclusive evidence that the interesting nonlinear features observed in the picosecond time scale are due to heat generation inside the particles. We introduce a concise model that can accurately recreate the transient spectra by assuming an initial temperature rise of the electron gas inside the particles. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">NANOSCALE</span> (2023) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/34031427/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/83748026" class="text-dark hover-underline">Acoustic phonon excitation in gold probed by time-resolved photoemission electron microscopy</a> </h4> <p class="text-ellipsis-2">Pengzuo Jiang, Linfeng Zhang, Wei Zheng, Yang Wang, Yu Liu, Jingying Xiao, Yaolong Li, Nikita Medvedev, Anatoly Ischenko, Zexin Kang, Yunquan Liu, Zheng Li, Chengyin Wu</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/4285.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> This study uses extreme ultraviolet and infrared pump-probe photoemission experiments to investigate electron-phonon coupling in nonequilibrium gold. The movement and oscillation of the photoelectron energy observed in the experiment are considered to excite the longitudinal acoustic phonon mode in gold. This study demonstrates the ability of time-resolved photoemission electron microscopy in monitoring non-equilibrium lattice vibrations. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">JOURNAL OF CHEMICAL PHYSICS</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83748026/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/83197788" class="text-dark hover-underline">Phonon Directionality Impacts Electron-Phonon Coupling and Polarization of the Band-Edge Emission in Two-Dimensional Metal Halide Perovskites</a> </h4> <p class="text-ellipsis-2">Roman Krahne, Alexander Schleusener, Mehrdad Faraji, Lin-Han Li, Miao-Ling Lin, Ping-Heng Tan</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/6032.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> Two-dimensional metal halide perovskites are highly versatile for light-driven applications due to their exceptional variety in material composition, which can be exploited for the tunability of mechanical and optoelectronic properties. The band-edge emission is defined by the structure and composition of both organic and inorganic layers, and electron-phonon coupling plays a crucial role in the recombination dynamics. However, the nature of the electron-phonon coupling and what kind of phonons are involved are still under debate. Here we investigate the emission, reflectance, and phonon response from single two-dimensional lead iodide microcrystals with angle-resolved polarized spectroscopy. We find an intricate dependence of the emission polarization with the vibrational directionality in the materials, which reveals that several bands of low-frequency phonons with nonorthogonal directionality contribute to the band-edge emission. Such complex electron-phonon coupling requires adequate models to predict the thermal broadening of the emission and provides opportunities to design polarization properties. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">NANO LETTERS</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83197788/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/33913700" class="text-dark hover-underline">Separated Electron-Phonon and Phonon-Phonon Scatterings Across Interface in Thin Film LaCoO3/SrTiO3</a> </h4> <p class="text-ellipsis-2">Wenjie Hao, Minghui Gu, Zhenyun Tian, Shaohua Fu, Meng Meng, Hong Zhang, Jiandong Guo, Jimin Zhao</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/9943.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> By employing ultrafast spectroscopy, this study uncovers the spatial separation between electron-phonon coupling (EPC) and phonon-phonon scattering (PPS), providing a vital foundation for designing future quantum nano devices. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">ADVANCED SCIENCE</span> (2023) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/33913700/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"> Acoustics </span> </div> <h4> <a href="https://www.peeref.com/zh/works/27829451" class="text-dark hover-underline">Metal transducer-assisted acoustic deformation potential characterization via coherent acoustic phonon dynamics</a> </h4> <p class="text-ellipsis-2">Liang Zhang, Yuhang Cai, Long Li, Wenshuai Feng, Rui-Tao Wen, Sunmi Shin, Liang Guo</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/10609.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> In this work, a novel ultrafast spectroscopy method is proposed to extract the acoustic deformation potential (ADP) coupling constant of a semiconductor by jointly analyzing the coherent acoustic phonon signals with and without a metal transducer. The ADP coupling constant corresponding to the bandgap of GaAs was successfully extracted using a pump photon energy near the bandgap, which agrees well with literature values. However, with a larger pump photon energy, the ADP coupling constant deviates from the one for the bandgap due to contributions from the carrier dynamics in multiple energy and wavevector states. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">PHOTOACOUSTICS</span> (2023) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/27829451/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"> Physics, Multidisciplinary </span> </div> <h4> <a href="https://www.peeref.com/zh/works/23845014" class="text-dark hover-underline">Ultrafast optical spectroscopy evidence of pseudogap and electron-phonon coupling in an iron-based superconductor KCa2Fe4As4F2</a> </h4> <p class="text-ellipsis-2">Chen Zhang, Qi-Yi Wu, Wen-Shan Hong, Hao Liu, Shuang-Xing Zhu, Jiao-Jiao Song, Yin-Zou Zhao, Fan-Ying Wu, Zi-Teng Liu, Shu-Yu Liu, Ya-Hua Yuan, Han Huang, Jun He, Shiliang Li, Hai-Yun Liu, Yu-Xia Duan, Hui-Qian Luo, Jian-Qiao 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/7407.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> We used ultrafast optical spectroscopy to study the nonequilibrium quasiparticle relaxation dynamics of the iron-based superconductor KCa2Fe4As4F2 with Tc = 33.5 K. The findings revealed a possible pseudogap below T* (approximately 50 K) before the opening of a superconducting gap. Measurements under high pump fluence also showed the presence of two distinct, coherent phonon oscillations. The research suggests that the pseudogap is likely a precursor to superconductivity, and the electron-phonon coupling may play a critical role in the superconducting pairing in KCa2Fe4As4F2. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">SCIENCE CHINA-PHYSICS MECHANICS & ASTRONOMY</span> (2022) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/23845014/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/26227077" class="text-dark hover-underline">Ultrafast coherent interlayer phonon dynamics in atomically thin layers of MnBi2Te4</a> </h4> <p class="text-ellipsis-2">F. Michael Bartram, Yu-Chen Leng, Yongchao Wang, Liangyang Liu, Xue Chen, Huining Peng, Hao Li, Pu Yu, Yang Wu, Miao-Ling Lin, Jinsong Zhang, Ping-Heng Tan, Luyi 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/10872.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> In this study, we investigated the ultrafast carrier dynamics and coherent interlayer phonons in few-layer MnBi2Te4 using time-resolved pump-probe reflectivity spectroscopy. We observed pronounced coherent phonon oscillations from the interlayer breathing mode in the time domain. The frequency of the coherent oscillation, as well as the decay rates of photocarriers and coherent phonons, were found to be sensitive to the sample thickness. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">NPJ QUANTUM MATERIALS</span> (2022) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/26227077/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/27763564" class="text-dark hover-underline">Core and Shell Contributions to the Phonon Spectra of CdTe/CdS Quantum Dots</a> </h4> <p class="text-ellipsis-2">Volodymyr Dzhagan, Nazar Mazur, Olga Kapush, Oleksandr Selyshchev, Anatolii Karnaukhov, Oleg A. Yeshchenko, Mykola I. Danylenko, Volodymyr Yukhymchuk, Dietrich R. T. Zahn</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 bg-light-blue"> <strong>Summary:</strong> This study investigates the influence of the parameters of the shell and interface in semiconductor core/shell nanocrystals (NCs) on their optical properties and charge transfer, using Raman spectroscopy. The results show that the use of thioglycolic acid (TGA) during the synthesis leads to the formation of a CdS shell around the CdTe core in the NCs. The optical absorption and photoluminescence bands of these NCs are determined by the CdTe core, while the far-infrared absorption and resonant Raman scattering spectra are dominated by the vibrations related to the shell. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">NANOMATERIALS</span> (2023) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/27763564/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/24465196" class="text-dark hover-underline">Visualizing Ultrafast Defect-Controlled Interlayer Electron-Phonon Coupling in Van der Waals Heterostructures</a> </h4> <p class="text-ellipsis-2">Huan Liu, Jiangcai Wang, Yuanshuang Liu, Yong Wang, Lujie Xu, Li Huang, Dameng Liu, Jianbin Luo</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> A new defect-induced ultrafast interlayer electron-phonon coupling pathway is identified in a WS2/graphene heterostructure. This interaction significantly reduces defect-related Raman resonant activity and accelerates the electron-phonon scattering time. Furthermore, the ultrafast interlayer coupling process is directly imaged. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">ADVANCED MATERIALS</span> (2022) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/24465196/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"> Physics, Multidisciplinary </span> </div> <h4> <a href="https://www.peeref.com/zh/works/25043285" class="text-dark hover-underline">Surface acoustic wave coupling between micromechanical resonators</a> </h4> <p class="text-ellipsis-2">Hendrik Kahler, Daniel Platz, Silvan Schmid</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/10911.jpg" alt="" class="border mr-3" width="100"> </div> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> This paper presents a model for the coupling of MHz frequency resonators through surface acoustic waves (SAWs), which is validated by finite element method simulations and recent experiments. Unlike the well-known strain-induced spring-like coupling, the coupling via SAWs is both dispersive and dissipative, which can be utilized to achieve high quality phonon cavities. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">COMMUNICATIONS PHYSICS</span> (2022) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/25043285/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/81858404" class="text-dark hover-underline">Over-Reduced Core-Shell Au@CoO x -Co with Strong Interfacial Interactions for Photoassisted Peroxymonosulfate Activation</a> </h4> <p class="text-ellipsis-2">Wenhao Xu, Yujie Cao, Binhang Wang, Zitao Zhang, Xiang Li, Libo Sun, Guangnan Liu, Yun Tang</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> 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 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/81858404/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/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 bg-light-blue"> <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/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 bg-light-blue"> <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/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 bg-light-blue"> <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/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 bg-light-blue"> <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/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/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/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 "> <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> <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/83570528" class="text-dark hover-underline">Breaking the Bottleneck of Activity and Stability of RuO2-Based Electrocatalysts for Acidic Oxygen Evolution</a> </h4> <p class="text-ellipsis-2">Weimo Li, Ce Wang, Xiaofeng Lu</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> This review summarizes the strategies to enhance the acidic OER performance of RuO2-based electrocatalysts, including modulation of the d-band center, coordination environment, bridged heteroatoms, and vacancy engineering, as well as structural protection strategies and reaction pathway optimization. These strategies can activate and stabilize Ru active sites and lattice oxygen, thereby improving the activity and stability of the catalysts. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">NANO LETTERS</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83570528/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/83029969" class="text-dark hover-underline">Molecular Engineering of Hydrogen-Bonded Organic Framework for Enhanced Nitrate Electroreduction to Ammonia</a> </h4> <p class="text-ellipsis-2">Panlong Zhai, Chen Wang, Yaning Li, Dingfeng Jin, Bing Shang, Yuan Chang, Wei Liu, Junfeng Gao, Jungang Hou</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> A hydrogen-bonded organic framework (HOF-Cu) based on copper metalloporphyrin was designed for electrocatalytic nitrate reduction. The HOF-Cu catalyst shows high NH3 Faradaic efficiency and production rate. In situ electrochemical spectroscopy and density functional theory calculations reveal the reaction mechanism, where dispersed Cu promotes the adsorption and deoxidation of NO3-, and the generated *H participates in the deep hydrogenation of intermediates. This study provides a promising approach for converting nitrate to ammonia. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">NANO LETTERS</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83029969/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/83099539" class="text-dark hover-underline">Electron-Withdrawing Substituents Enhance the Type I PDT and NIR-II Fluorescence of BODIPY J Aggregates for Bioimaging and Cancer Therapy</a> </h4> <p class="text-ellipsis-2">Yu Zhu, Fapu Wu, Bingbing Zheng, Yuexia Yang, Jieyu Yang, Hu Xiong</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> This study enhanced the performance of NIR-II fluorescence, type I PDT, and PTT by introducing electron-withdrawing substituents at the 5-indolyl positions of BODIPY dyes. BDP-F nanoparticles showed good imaging and therapeutic effects, providing a new idea for the construction of multifunctional phototheranostic agents. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">NANO LETTERS</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83099539/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/82988536" class="text-dark hover-underline">Coiled Carbon Nanotube Fibers Sheathed by a Reinforced Liquid Crystal Elastomer for Strong and Programmable Artificial Muscles</a> </h4> <p class="text-ellipsis-2">Guang Yang, Lizhong Dong, Ming Ren, Bo Cui, Xiaojie Yuan, Xiaobo Wang, Yuxin Li, Wei Li, Guanlong Qiao, Yunfeng Shao, Weiwei Li, Xiaona Wang, Panpan Xu, Hongbin Fang, Jiangtao Di, Qingwen Li</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> This paper presents a method to enhance the strength of liquid crystal elastomer (LCE) fibers by introducing a secondary network, and demonstrates the high performance and programmable actuation of helical artificial muscle fibers composed of double-network LCE-coated carbon nanotube fibers. In addition, intelligent grippers and crawling inchworm robots fabricated by knitting artificial muscle fibers into origami structures are also demonstrated, providing promising application scenarios for advanced intelligent systems in the future. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">NANO LETTERS</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/82988536/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/84015819" class="text-dark hover-underline">Ultrathin Ga2O3 Photodetector with Fast Response and Trajectory Tracking Capability Fabricated by Liquid Metal Oxidation</a> </h4> <p class="text-ellipsis-2">Weiheng Zhong, Yuqing Liu, Hong Huang, Zhaojie Sun, Wei Xin, Weizhen Liu, Xiaolong Zhao, Shibing Long, Haiyang Xu</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> This study fabricated ultrathin Ga2O3 layers on quartz rods by UV exposure to liquid gallium. The resulting low-dimensional Ga2O3 photodetector demonstrates high response speed, excellent linear dynamic range, and effective trajectory tracking capability, highlighting the significance of ultrathin Ga2O3 in UV optoelectronics. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">NANO LETTERS</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/84015819/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/83090037" class="text-dark hover-underline">Ultrasound-Activated PROTAC Prodrugs Overcome Immunosuppression to Actuate Efficient Deep-Tissue Sono-Immunotherapy in Orthotopic Pancreatic Tumor Mouse Models</a> </h4> <p class="text-ellipsis-2">Ye Liu, Haiyang Wang, Mengchao Ding, Wang Yao, Kewei Wang, Ihsan Ullah, Emil Bulatov, Youyong Yuan</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> This study presents an ultrasound-activatable PROTAC prodrug, NPCe6+PRO, for spatiotemporally controllable sono-immunotherapy. ROS generated by US irradiation promotes SDT and ICD, and also activates the prodrug by cleaving the TK linker, leading to degradation of the target protein BRD4 and reversal of PD-L1 expression upregulation. In mouse models, this prodrug in combination with US stimulation effectively suppresses tumor growth. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">NANO LETTERS</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83090037/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/83337894" class="text-dark hover-underline">A Statistical Route to Robust SERS Quantitation Beyond the Single-Molecule Level</a> </h4> <p class="text-ellipsis-2">Hao Zhang, Longkun Yang, Meng Zhang, Hong Wei, Lianming Tong, Hongxing Xu, Zhipeng Li</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> SM-SERS holds potential for ultratrace quantitative analysis, but it's challenging. The study reveals the relation between P and α in SERS spectra, laying the foundation for a statistical route. Using probability calibration, quantitative SERS analysis with robustness, wide detection range, and ultra-low detection limit is achieved, indicating the feasibility of statistical route for SERS quantitation and opening a new avenue for its practical application. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">NANO LETTERS</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83337894/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/83122839" class="text-dark hover-underline">Palladium/Platinum/Ruthenium Trimetallic Dendritic Nanozymes Exhibiting Enhanced Peroxidase-like Activity for Signal Amplification of Lateral Flow Immunoassays</a> </h4> <p class="text-ellipsis-2">Weiguo Wang, Qianqian Cao, Jian He, Yafeng Xie, Ying Zhang, Lin Yang, Ming-Hui Duan, Jikai Wang, Wei Li</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> This study synthesized a trimetallic dendritic nanozyme (Pd@Pt-Ru) and used it to enhance the sensitivity of lateral flow immunoassay (LFIA). The K-m value of the nanozyme for detecting H2O2 was 5.23 mM, and its affinity for H2O2 was comparable to that of horseradish peroxidase. Incorporating the nanozyme into LFIA for detecting human chorionic gonadotropin (hCG) resulted in a 250-fold increase in sensitivity compared to traditional gold nanoparticle (AuNP)-LFIA, with a visible detection limit as low as 0.1 IU/L. The true positive and negative rates both reached 100%, making the proposed Pd@Pt-Ru nanozyme suitable for detecting hCG in clinical samples. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">NANO LETTERS</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83122839/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"> Letter </span> <span class="d-inline-block badge badge-cyan"> Chemistry, Multidisciplinary </span> </div> <h4> <a href="https://www.peeref.com/zh/works/83100057" class="text-dark hover-underline">Electronic and Transport Properties of InSe/PtTe2 van der Waals Heterostructure</a> </h4> <p class="text-ellipsis-2">Siyu Zhang, Zhengchang Xia, Junhua Meng, Yong Cheng, Ji Jiang, Zhigang Yin, Xingwang Zhang</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> This study investigated the properties of InSe/PtTe2 vdW heterostructures, including electronic structure, transport behavior, and electric field tuning effects. The results show that the direct bandgap type-II vdW heterostructure can be achieved by adjusting the stacking configuration, and the hole mobility is significantly improved, which has great potential in the development of novel optoelectronic devices. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">NANO LETTERS</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83100057/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/83352990" class="text-dark hover-underline">Yolk-Shell Hierarchical Pore Au@MOF Nanostructures: Efficient Gas Capture and Enrichment for Advanced Breath Analysis</a> </h4> <p class="text-ellipsis-2">Yafei Shi, Jixiang Fang</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> This study presents an advanced gas sensor that combines mesoporous gold and metal-organic frameworks for the detection of biomarkers in exhaled breath. The sensor shows high sensitivity and fast response, and has potential for the early diagnosis of lung cancer. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">NANO LETTERS</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83352990/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/83088875" class="text-dark hover-underline">In Vivo Exposure Pathways of Ambient Magnetite Nanoparticles Revealed by Machine Learning-Aided Single-Particle Mass Spectrometry</a> </h4> <p class="text-ellipsis-2">Weican Zhang, Shiwei Huo, Shenxi Deng, Ke Min, Cha Huang, Hang Yang, Lin Liu, Luyao Zhang, Peijie Zuo, Lihong Liu, Qian Liu, Guibin Jiang</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> This study introduces a method to trace the exposure pathways of airborne magnetite nanoparticles in mice, including their distribution, translocation, and metabolism. The results show that the spleen is the primary site of MNP metabolism, followed by the liver. This method provides a new platform for nanotoxicology and risk assessment. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">NANO LETTERS</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83088875/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/82951401" class="text-dark hover-underline">Room-Temperature Highly Efficient Nonvolatile Magnetization Switching by Current in van der Waals Fe3GaTe2 Devices</a> </h4> <p class="text-ellipsis-2">Yazhou Deng, Mingjie Wang, Ziji Xiang, Kejia Zhu, Tao Hu, Longyu Lu, Yu Wang, Yupeng Ma, Bin Lei, Xianhui Chen</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> This research fabricated nanodevices based on Fe3GaTe2 thin flakes, achieving nonvolatile and efficient magnetization switching by small currents at room temperature, with low switching current density and power dissipation, outperforming traditional devices. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">NANO LETTERS</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/82951401/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/83157849" class="text-dark hover-underline">Supertough MXene/Sodium Alginate Composite Fiber Felts Integrated with Outstanding Electromagnetic Interference Shielding and Heating Properties</a> </h4> <p class="text-ellipsis-2">Guoxin Zhao, Chao Sui, Chenxi Zhao, Yushun Zhao, Gong Cheng, Junjiao Li, Lei Wen, Weizhe Hao, Yuna Sang, Yingchun Zhou, Xiaodong He, Chao Wang</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> This study fabricated supertough MXene fiber felts composed of MXene/SA fibers, which possess high strength, high toughness, and excellent electrothermal, photothermal conversion performance, and electromagnetic interference shielding effectiveness. It provides new ideas for the structural design of high-performance MXene-based textiles and broadens their application fields. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">NANO LETTERS</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83157849/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/82924445" class="text-dark hover-underline">Photothermal Enhancement of Prussian Blue Cathodes for Li-Ion Batteries</a> </h4> <p class="text-ellipsis-2">Lifu Tan, Byung-Man Kim, Arvind Pujari, Ze He, Buddha Deka Boruah, Michael De Volder</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> This study investigated the role of photothermal conversion in photoenhanced batteries using Prussian blue analogues as cathodes for Li-ion batteries. Tests under different thermally controlled conditions showed improved battery performance, capacity enhancement, and excellent cycling stability. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">NANO LETTERS</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/82924445/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/83088465" class="text-dark hover-underline">Ion-Selective Transport Promotion Enabled by Angstrom-Scale Nanochannels in Dendrimer-Assembled Polyamide Nanofilm for Efficient Electrodialysis</a> </h4> <p class="text-ellipsis-2">Baolong Wu, Ning Gan, Yuqing Lin, Yiren Zhang, Jiayu Zhang, Yulong Qiu, Xingzhong Cao, Jianguo Yu, Hideto Matsuyama</p> <div class="d-flex mb-3"> <div class="p-3 rounded bg-light-blue"> <strong>Summary:</strong> This paper presents an engineered design of ion-conductive membranes for ion separation by introducing ionic polyamidoamine (PAMAM) dendrimers. The membranes feature angstrom-scale ion-transport channels with a quaternary ammonium-rich exterior structure for electrostatic charge exclusion and an interior protoplasmic channel for additional free volume, facilitating the transfer of monovalent ions while maintaining continuity and efficient ion screening. Experimental results and simulation calculations show that the ion selectivity of the membranes arises from the significant difference in transport energy barriers between monovalent and multivalent ions, which is induced by the exterior-interior synergistic effects of the bifunctional membrane channels. </div> </div> <div class="d-flex justify-content-between"> <p class="font-weight-bold"> <span class="text-primary">NANO LETTERS</span> (2024) </p> <div class="flex-shrink-0"> <a class="btn btn-outline-primary btn-sm" href="https://www.peeref.com/zh/works/83088465/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 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Engineering Acoustic Phonons and Electron-Phonon Coupling by the Nanoscale Interface - Peeref