【标题速读】【Advmat】【2022年】【6月】
声明:本专栏主要对生命科学领域的一些期刊文章标题进行翻译,所有内容均由本人手工整理翻译。由于本人专业为生物分析相关,其他领域如果出现翻译错误请谅解。
Conformal Films
In article number 2106683, Kenjiro Fukuda, Takao Someya, and co-workers demonstrate how a variety of ultrathin, ultraflexible organic photovoltaics that differ in layout, active area, and active material can be laminated to glass spheres of different sizes using a thermally activated shrink film. The wrinkling pattern that occurs in these ultrathin sheets allows even nonstretchable devices to conform to surfaces with a 3D curvature.
保形薄膜
在第2106683号文章中,福田健二郎、高尾修哉及其同事演示了如何使用热激活收缩膜将各种不同布局、活性面积和活性材料的超薄、超柔性有机光伏材料层压到不同尺寸的玻璃球上。在这些超薄板材中出现的褶皱图案允许甚至不可拉伸的设备符合具有三维曲率的表面。
Polarization-Sensitive Photodetectors
High-performance polarization-sensitive organic photodetectors with a linear dichroic ratio as high as 1.9 are successfully developed by Huanli Dong, Zhongming Wei, Liqiang Li, Wenping Hu, and co-workers, as described in article number 2105665, utilizing the intrinsic anisotropic nature of organic semiconductor single crystals. These devices show new opportunities for using organic semiconductors to develop highly compact polarization-sensitive photodetectors in diverse applications, and open up a new area for the study of organic semiconductors.
偏振敏感光电探测器
董焕利、魏忠明、李强、胡文平及其同事利用有机半导体单晶固有的各向异性特性,成功研制出线性二向色性比高达1.9的高性能偏振敏感有机光电探测器,如第2105665条所述。这些器件为利用有机半导体研制高紧凑型偏振敏感光电探测器提供了新的机遇,开辟了有机半导体研究的新领域。
Multiscale Organic Semiconductors
The intrinsic properties and devices performance of multiscale organic semiconductors can be regulated through chemical structure design and controlled self-assembly in a wide scale range from micro-molecule to aggregated structures. In article number 2102811, Ning Wang, Yuliang Li, and Ling Bai review the research progress from molecular level to aggregated structures by self-assembly of multiscale organic semiconductor molecules.
多尺度有机半导体
多尺度有机半导体的本征特性和器件性能可以通过化学结构设计和控制自组装在从微分子到聚集结构的大范围内进行调节。王宁、李玉良、凌白在2102811号文中综述了多尺度有机半导体分子自组装从分子水平到聚集结构的研究进展。
Organic Photovoltaics
Slip-stacked J-aggregate materials feature unique optical and electronical properties for organic solar cells and photodetectors, requiring either broad- or narrowband absorbance. In article number 2104678, Frank Würthner and co-workers classify different cases of J-type coupling for different classes of dyes and correlate their optical properties with their characteristic packing arrangements.
有机太阳电池
对于有机太阳能电池和光电探测器而言,滑动堆积J-聚集体材料具有独特的光学和电学特性,需要宽频带或窄带吸光度。在第2104678号文章中,Frank Würthner及其同事对不同类别染料的J型耦合的不同情况进行了分类,并将其光学性质与其特征性的填充排列关联起来。
2D Crystals
Combining interface assembly of 2D organic semiconductor crystals (2DOSCs) with a poly(dimethylsiloxane)-mold-assisted selective-contact evaporation printing technique, in article number 2104166, Liqiang Li and co-workers report the fabrication of large-area, high-resolution (1271 dpi) and layer-controlled 2DOSC arrays, which would be highly meaningful for device integration.
2D晶体
将二维有机半导体晶体(2DOSC)的界面组装与聚二甲基硅氧烷模具辅助的选择性接触蒸发印刷技术相结合,Liqiang Li及其同事在2104166号文章中报道了大面积、高分辨率(1271 dpi)和层控2DOSC阵列的制备,这对器件集成具有重要意义。
Organic Electrochemical Transistors
A dual ionic transport property of self-doped conjugated polyelectrolytes is reported by Thuc-Quyen Nguyen and co-workers in article number 2200274: they can be both doped and dedoped upon the interaction with anions (blue) and cations (red) in an electrolyte, respectively. This discovery enables dual-mode organic electrochemical transistors, paving the way for the use of organic devices in emerging reconfigurable electronics.
有机电化学晶体管
Thuc Quyen Nguyen及其同事在第2200274号文章中报道了自掺杂共轭聚电解质的双离子输运性质:它们分别通过与电解质中的阴离子(蓝色)和阳离子(红色)相互作用而被掺杂和去掺杂。这一发现使得双模有机电化学晶体管成为可能,为有机器件在新兴可重构电子器件中的应用铺平了道路。
Liquid Crystals
Liquid-crystalline assemblies of a variety of molecules forming 1D, 2D, and 3D structures lead to new functions. Recent advances in functional liquid-crystalline materials based on polymers, supramolecular complexes, gels, colloids, and inorganic-based hybrids are highlighted by Takashi Kato and co-workers in article number 2109063. Design strategies, advanced measurements, computational simulations, and functionalization of these materials and interfaces are discussed.
液晶
液晶组装的各种分子形成一维,二维和三维结构导致新的功能。Takashi Kato及其同事在文章2109063中重点介绍了基于聚合物、超分子络合物、凝胶、胶体和无机杂化物的功能性液晶材料的最新进展。讨论了这些材料和界面的设计策略、先进测量、计算模拟和功能化。
Dendrimer Emitters
In article number 2110344, Dianming Sun, Xiaohong Zhang, Anna Köhler, Eli Zysman-Colman, and co-workers report the rational design of thermally activated delayed fluorescence (TADF) dendrimer emitters that show remarkable photophysical properties, resolving the conflicting requirements of achieving simultaneously a small activation energy and a large oscillator strength. Their use in a host-free solution-processed organic light-emitting diode (OLED), which shows record-high external quantum efficiencies, is demonstrated. The dendrimer design strategy provides a route to high-performance solution-processed TADF OLEDs and evidences the full potential of dendrimers as emissive materials.
树枝状聚合物发射器
在第2110344号文章中,孙殿明、张晓红、Anna Köhler、Eli Zysman Colman及其同事报告了热激活延迟荧光(TADF)树枝状聚合物发射器的合理设计,该发射器显示出显著的光物理性质,解决了同时实现小激活能和大振荡强度的矛盾要求。证明了它们在无基质溶液处理的有机发光二极管(OLED)中的应用,该二极管显示出创纪录的高外量子效率。树枝状聚合物的设计策略为高性能溶液处理TADF OLED提供了一条途径,并证明了树枝状聚合物作为发射材料的全部潜力。
Biohybrid Robots
The next robotics frontier will be led by biohybrids, robots that incorporate living biological cells and tissue, which are addressed by Miriam Filippi, Robert K. Katzschmann, and co-workers in article number 2108427. Microfluidics substantially contributes to the development of biological tissue in vitro, as microfluidic flow control enables fluid regulation at the microscale and fine tissue structuring during biofabrication. Microfluidics will advance the co-assembly, scale-up, and integration of biohybrid robots, and make these robots performant and functional for real-world use.
生物混合机器人
下一个机器人前沿将由生物杂交机器人引领,这种机器人结合了活的生物细胞和组织,Miriam Filippi、Robert K.Katzschmann及其同事在文章编号2108427中对此进行了阐述。微流体在很大程度上有助于体外生物组织的发展,因为微流体流动控制能够在生物制造过程中实现微尺度的流体调节和精细的组织结构。微流体技术将推动生物混合机器人的联合组装、放大和集成,并使这些机器人在现实世界中具有性能和功能。
Lead Telluride Nanoparticles
Lead telluride nanoparticles spontaneously assemble into a spanning nanofiber network as reported by Nicholas A. Kotov and co-workers in article number 2201313. The resulting transparent nanoparticle hydrogels have potential application as UV or X-ray sensors. The network morphology can be modified through variations in the composition and concentration of added electrolyte. Evaluation of the network morphology with graph theory is used to derive correlations to the gels' mechanical and electrical properties.
碲化铅纳米粒子
如Nicholas a.Kotov及其同事在文章编号2201313中所报道的,碲化铅纳米颗粒自发组装成跨越的纳米纤维网络。所得到的透明纳米颗粒水凝胶具有作为UV或X射线传感器的潜在应用。网络形态可以通过添加电解质的组成和浓度的变化来改变。使用图论对网络形态进行评估,以导出与凝胶的机械和电学性能的相关性。
Negative Phototransistors
In article number 2201364, Huipeng Chen, Jishan Wu, Fangxu Yang, Wenping Hu, and co-workers report an ultrasensitive negative phototransistor based on 1D/2D molecular crystal p–n heterojunctions. This novel device exhibits a variety of intriguing properties, including superior performance parameters, accurately controllable threshold voltage, and ultrasensitive detection of weak light. The results demonstrate the fascinating promise of organic single-crystal heterostructure electronics.
负光电晶体管
在文章编号2201364中,陈慧鹏、吴继山、杨方旭、胡文平及其同事报道了一种基于1D/2D分子晶体p–n异质结的超灵敏负光电晶体管。这种新型器件具有多种有趣的特性,包括优越的性能参数、精确可控的阈值电压和对弱光的超灵敏检测。这些结果证明了有机单晶异质结构电子学的迷人前景。
Nanocilia
In article number 2200185, Hoon Eui Jeong and co-workers develop a programmable self-assembly strategy that can direct magnetic nanoparticles into a highly ordered, field-responsive, artificial nanocilia array. The self-assembled nanocilia can maintain their structural integrity through the interplay of interparticle interactions. Interestingly, the nanocilia can exhibit a responsive actuation motion through “rolling and sliding” between assembled nanoparticles.
纳米纤毛
在第2200185号文章中,Hoon Eui Jeong及其同事开发了一种可编程的自组装策略,可以将磁性纳米颗粒引导到高度有序、场响应的人工纳米纤毛阵列中。自组装的纳米纤毛可以通过颗粒间相互作用的相互作用来保持其结构完整性。有趣的是,纳米纤毛可以通过组装的纳米颗粒之间的“滚动和滑动”表现出响应性的驱动运动。
Photoenergy Harvesting
In article number 2201734, Il-Doo Kim and co-workers develop a photoacid-driven liquid-state photoenergy harvester (PLPH) as the first demonstration of a photoacid-solution-based device that generates electric energy from light. Asymmetric light exposure on the PLPH generates electric energy by the light-induced pH gradient (ΔpH = 2) along the two electrodes This unique approach offers a new way to harness solar energy in a form-factor-free design that maximizes space and light-use efficiency.
光能采集
在文章编号2201734中,Il Doo Kim及其同事开发了一种光酸驱动的液态光能采集器(PLPH),作为从光中产生电能的基于光酸溶液的装置的首次演示。PLPH上的不对称光暴露通过沿两个电极的光诱导pH梯度(ΔpH=2)产生电能。这种独特的方法提供了一种新的方式,以无形状因子的设计利用太阳能,最大限度地提高空间和光利用效率。
Artificial Neurons
An artificial tactile neuron based on an ovonic threshold switch and a piezoresistive sensor reported by Suyoun Lee, Hyunjung Yi, and co-workers in article number 2201608 can encode the elastic stiffness of pressed materials into spike-frequency evolution patterns. The spiking representation of stiffness in combination with spiking-neural-network-based learning can be used to classify the malignant status of breast tumors with low energy consumption, low latency, and yet high accuracy.
人工神经元
Suyoun Lee、Hyunjung Yi及其同事在文章编号2201608中报道了一种基于卵形阈值开关和压阻传感器的人工触觉神经元,该神经元可以将压制材料的弹性刚度编码为尖峰频率演变模式。硬度的尖峰表示与基于尖峰神经网络的学习相结合,可用于以低能耗、低延迟和高精度对乳腺肿瘤的恶性状态进行分类。
Drying Droplets
Critical information about primary and secondary peptide structures can be inferred from the stains left behind by their drying droplets. In article number 2110404, Jörg Lahann and Azam Jeihanipour establish a simple and scalable platform to analyze the deposition patterns obtained from drying droplets (here: amyloid beta peptides), which are information-rich, complex, and characteristic; just as fingerprint patterns are unique identifiers for humans. The cover image shows an artistic rendering of a polarized light microscopy image, depicting the drying pattern of an amyloid beta peptide. Image credit: Bahar Dadfar and Safoura Vaez, KIT, Germany.
干燥液滴
关于初级和次级肽结构的关键信息可以从其干燥液滴留下的污渍中推断出来。在文章编号2110404中,Jörg Lahann和Azam Jeihanipour建立了一个简单且可扩展的平台来分析从干燥液滴(此处:淀粉样蛋白β肽)中获得的沉积模式,这些液滴信息丰富、复杂且具有特征;就像指纹图案是人类的唯一标识符一样。封面图像显示了偏振光显微镜图像的艺术效果,描绘了淀粉样β肽的干燥模式。图片来源:Bahar Dadfar和Safura Vaez,KIT,德国。
Electrochemical Pollination
In article number 2200981, Yoon-Kyoung Cho and co-workers discuss electrochemical roughening, a method based on the etching and redeposition of material from a flat surface, to create homogeneous, nanostructured, and nanoporous gold electrodes. The process is not efficient, as most of the etched material typically diffuses away. However, the addition of surfactant generates micelles that can electrostatically capture the freshly etched material and, in a process that evokes pollination from bumblebees, increase redeposition efficiency.
电化学轮询
在第2200981号文章中,Yoon Kyoung Cho及其同事讨论了电化学粗糙化,这是一种基于从平坦表面蚀刻和重新沉积材料的方法,以产生均匀的、纳米结构的和纳米多孔的金电极。该工艺效率不高,因为大多数蚀刻材料通常会扩散出去。然而,表面活性剂的添加会产生胶束,这种胶束可以静电捕获新蚀刻的材料,并在一个引起大黄蜂授粉的过程中提高再沉积效率。
Lithium-Metal Anodes
In article number 2201801, Yong Wang, Fei-Hu Du, and co-workers elaborately design ultrathin MgF2 nanosheets encapsulated inside N-doped graphene-like hollow nanospheres for a dendrite-free lithium-metal anode. A comprehensive and systematic study of the deposition behavior and mechanism of this hybrid host is presented. When assembled with LiFePO4 as a full cell, it exhibits excellent electrochemical properties.
锂金属阳极
在2201801号文章中,王勇、杜飞虎及其同事精心设计了封装在氮掺杂类石墨烯中空纳米球中的超薄MgF2纳米片,用于无枝晶锂金属阳极。对这种杂交宿主的沉积行为和机理进行了全面系统的研究。当与LiFePO4组装成全电池时,它表现出优异的电化学性能。
Materials Science in Singapore
Materials Science in Singapore This issue celebrates the 25th anniversary of the founding of the Institute of Materials Research and Engineering (IMRE), a leading materials research institute in Singapore. Guest-edited by Xian Jun Loh, Xiaodong Chen, and Bin Liu, the work featured includes work from top material scientists from Singapore, with contributions from IMRE, the National University of Singapore, and Nanyang Technological University.
新加坡的材料科学
新加坡材料科学本期庆祝新加坡领先的材料研究机构材料研究与工程研究所(IMRE)成立25周年。该作品由罗贤军、陈晓东和刘斌担任客座编辑,其中包括新加坡顶尖材料科学家的作品,IMRE、新加坡国立大学和南洋理工大学也提供了稿件。
Strain Sensors
The Young's modulus of soft tissues can be haptically measured using a single stretchable strain sensor, as reported by Guoying Deng, Chuanlai Xu, Xiaodong Chen, and co-workers in article number 2104078. The technology will enable a doctor to quantify the softness of swollen tissues simply by touching, independent of the touching force. The new methodology for Young's modulus measurement is simple, rapid, and widely adaptable to various scenarios.
应变传感器
软组织的杨氏模量可以使用单个可拉伸应变传感器进行触觉测量,如邓国英、徐传来、陈晓东及其同事在文章编号2104078中所报道的。这项技术将使医生能够简单地通过触摸来量化肿胀组织的柔软度,而不受触摸力的影响。杨氏模量测量的新方法简单、快速,广泛适用于各种情况。
Urban Farming
Urban farming has several advantages over conventional farming: higher productivity, improved sustainability, and the ability to provide fresh food all year round. In article number 2105009, Yeng Ming Lam and co-workers highlight novel materials that are key to accelerating the evolution of urban farming, with their ability to facilitate controlled release of nutrients and pesticides, improve seed health, substrates with better water retention capability, more efficient recycling of agricultural waste, and precise plant health monitoring.
城市农业
与传统农业相比,城市农业有几个优势:生产力更高,可持续性更强,并且能够全年提供新鲜食物。在第2105009号文章中,Yeng Ming Lam及其同事强调了加速城市农业发展的关键新材料,它们能够促进营养物质和杀虫剂的受控释放,改善种子健康,基质具有更好的保水能力,农业废物的更高效回收,以及精确的植物健康监测。
Covalent Organic Frameworks
The relatively large pore sizes and complicated membrane preparation processes of covalent organic frameworks (COFs) limit their applications in sieving small gas molecules. In article number 2104946, Dan Zhao and co-workers report a multi-interfacial engineering strategy, i.e., a direct layer-by-layer interfacial reaction of two COFs with different pore sizes to form narrowed apertures at the COF–COF interfaces atop another relatively large-pore COF film gutter layer. The narrowed pore apertures make the hybrid membranes suitable for the separation of H2 from CO2.
共价有机框架
共价有机框架(COFs)相对较大的孔径和复杂的膜制备过程限制了其在筛选小气体分子方面的应用。在第2104946号文章中,Dan Zhao及其同事报告了一种多界面工程策略,即两种不同孔径COF的直接逐层界面反应,以在另一个相对大孔径COF膜沟层顶部的COF–COF界面上形成窄孔。变窄的孔径使得混合膜适合于从CO2中分离H2。
Light–Matter Interactions
In article number 2103918, Jianping Xie and co-workers discuss the basic principles in interactions between metal nanoclusters with light. The absorption and emission of light, and the aggregation and transformation reactions that light may induce, when light meets metal nanoclusters, are highlighted.
光与物质的相互作用
在2103918号文章中,谢建平及其同事讨论了金属纳米团簇与光相互作用的基本原理。重点介绍了当光遇到金属纳米团簇时,光的吸收和发射,以及光可能引发的聚集和转化反应。
Electrochemical CO2 Reduction
In article number 2103900, Lei Wang and Jiayi Chen discuss the catalyst dynamic changes observed during catalysis, based on the recent reports of electrochemical CO2 reduction. Dynamic changes can occur for both the electrocatalyst and the surrounding microenvironment, and they play important roles in controlling the catalytic performance. Understanding the origins of the effects from catalyst dynamic changes and the reaction environment will allow better control over the CO2 reduction toward desired products.
电化学CO2还原
在第2103900号文章中,王和陈佳怡根据最近关于电化学CO2还原的报道,讨论了催化过程中观察到的催化剂动态变化。电催化剂和周围的微环境都会发生动态变化,它们在控制催化性能方面发挥着重要作用
Quantum Dots
In article 2103907, Kuan Eng Johnson Goh and co-workers report electrostatically defined quantum dots in bilayer WS2 grown by chemical vapor deposition and capped by HfO2 dielectric using atomic layer deposition. This marks a key milestone in scalable approaches toward 2D-semiconductor-based quantum devices, which had hitherto only been demonstrated with micrometer-sized exfoliated flakes.
量子点
在文章2103907中,Kuan Eng Johnson Goh及其同事报道了通过化学气相沉积生长的双层WS2中的静电定义量子点,并使用原子层沉积由HfO2电介质覆盖。这标志着基于2D半导体的量子器件的可扩展方法的一个关键里程碑,迄今为止,该方法仅用微米大小的剥离薄片进行了证明。
1.Insights into Redox Processes and Correlated Performance of Organic Carbonyl Electrode Materials in Rechargeable Batteries.
深入了解可充电电池中有机羰基电极材料的氧化还原过程和相关性能。
2.Conjugated Polyelectrolytes: Underexplored Materials for Pseudocapacitive Energy Storage.
共轭聚电解质:用于赝电容储能的尚未开发的材料。
3.Controlled Growth and Self-Assembly of Multiscale Organic Semiconductor.
多尺度有机半导体的受控生长和自组装。
4.Slip-Stacked J-Aggregate Materials for Organic Solar Cells and Photodetectors.
用于有机太阳能电池和光电探测器的滑堆积 J 聚集体材料。
5.Recent Progress in External-Stimulus-Responsive 2D Covalent Organic Frameworks.
外部刺激响应的二维共价有机框架的最新进展。
6.Research Progress of Intramolecular π-Stacked Small Molecules for Device Applications.
分子内π堆叠小分子在器件中的应用研究进展。
7.Quinoxaline-Based D–A Copolymers for the Applications as Polymer Donor and Hole Transport Material in Polymer/Perovskite Solar Cells.
基于喹喔啉的 D-A 共聚物作为聚合物供体和空穴传输材料在聚合物/钙钛矿太阳能电池中的应用。
8.Acceptor Modulation Strategies for Improving the Electron Transport in High-Performance Organic Field-Effect Transistors.
用于改善高性能有机场效应晶体管中的电子传输的受主调制策略。
9.Color-Tunable Supramolecular Luminescent Materials.
颜色可调的超分子发光材料。
10.Structures and Materials in Stretchable Electroluminescent Devices.
可拉伸电致发光器件的结构和材料。
11.Developing the Nondevelopable: Creating Curved-Surface Electronics from Nonstretchable Devices.
开发不可开发的:从不可拉伸的设备创建曲面电子产品。
12.Intrinsic Linear Dichroism of Organic Single Crystals toward High-Performance Polarization-Sensitive Photodetectors.
有机单晶的固有线性二色性用于高性能偏振敏感光电探测器。
13.Organic Semiconductor Crystal Engineering for High-Resolution Layer-Controlled 2D Crystal Arrays.
用于高分辨率层控制二维晶体阵列的有机半导体晶体工程。
14.Temperature-Triggered Supramolecular Assembly of Organic Semiconductors.
温度触发的有机半导体超分子组装。
15.Short Excited-State Lifetimes Mediate Charge-Recombination Losses in Organic Solar Cell Blends with Low Charge-Transfer Driving Force.
较短的激发态寿命介导了具有低电荷转移驱动力的有机太阳能电池混合物中的电荷复合损失。
16.Controlled n-Doping of Naphthalene-Diimide-Based 2D Polymers.
萘二酰亚胺基二维聚合物的受控 n 掺杂。
17.High-Efficiency Ion-Exchange Doping of Conducting Polymers.
导电聚合物的高效离子交换掺杂。
18.Color-Tunable All-Fluorescent White Organic Light-Emitting Diodes with a High External Quantum Efficiency Over 30% and Extended Device Lifetime.
颜色可调的全荧光白色有机发光二极管,具有超过 30% 的高外部量子效率和更长的器件使用寿命。
19.Molecular Oligothiophene–Fullerene Dyad Reaching Over 5% Efficiency in Single-Material Organic Solar Cells.
分子低聚噻吩-富勒烯二元体在单一材料有机太阳能电池中的效率达到 5% 以上。
20.Emissive Charge-Transfer States at Hybrid Inorganic/Organic Heterojunctions Enable Low Non-Radiative Recombination and High-Performance Photodetectors.
混合无机/有机异质结的发射电荷转移状态可实现低非辐射复合和高性能光电探测器。
21.Tuning Conjugated Polymer Chain Packing for Stretchable Semiconductors.
调整可拉伸半导体的共轭聚合物链填料。
22.Oligoethylene Glycol Side Chains Increase Charge Generation in Organic Semiconductor Nanoparticles for Enhanced Photocatalytic Hydrogen Evolution.
低聚乙二醇侧链可增加有机半导体纳米颗粒中的电荷产生,从而增强光催化析氢。
23.De Novo Synthesis of Free-Standing Flexible 2D Intercalated Nanofilm Uniform over Tens of cm2.
从头合成数十平方厘米的均匀独立柔性二维插层纳米膜。
24.Assessing the Photovoltaic Quality of Vacuum-Thermal Evaporated Organic Semiconductor Blends.
评估真空热蒸发有机半导体混合物的光伏质量。
25.14 GHz Schottky Diodes Using a p-Doped Organic Polymer.
使用 p 掺杂有机聚合物的 14 GHz 肖特基二极管。
26.2D MBenes: A Novel Member in the Flatland.
2D MBenes:平地的新成员。
27.Advanced Functional Liquid Crystals.
先进功能液晶。
28.Tuning Two-Electron Oxygen-Reduction Pathways for H2O2 Electrosynthesis via Engineering Atomically Dispersed Single Metal Site Catalysts.
通过工程原子分散单金属位点催化剂调整 H2O2 电合成的双电子氧还原途径。
29.Microfluidic Tissue Engineering and Bio-Actuation.
微流控组织工程和生物驱动。
30.Recent Advances of Aqueous Rechargeable Zinc-Iodine Batteries: Challenges, Solutions, and Prospects.
水性可充电锌碘电池的最新进展:挑战、解决方案和前景。
31.Conductive Materials with Elaborate Micro/Nanostructures for Bioelectronics.
用于生物电子学的具有精细微/纳米结构的导电材料。
32.Surface Modification of 2D Photocatalysts for Solar Energy Conversion.
用于太阳能转换的二维光催化剂的表面改性。
33.Dual-Mode Organic Electrochemical Transistors Based on Self-Doped Conjugated Polyelectrolytes for Reconfigurable Electronics.
用于可重构电子器件的基于自掺杂共轭聚电解质的双模式有机电化学晶体管。
34.Thermally Activated Delayed Fluorescent Dendrimers that Underpin High-Efficiency Host-Free Solution-Processed Organic Light-Emitting Diodes.
热激活延迟荧光树枝状聚合物支撑高效无主体溶液加工的有机发光二极管。
35.Spanning Network Gels from Nanoparticles and Graph Theoretical Analysis of Their Structure and Properties.
纳米颗粒生成网络凝胶及其结构和性能的图论分析。
36.Negative Phototransistors with Ultrahigh Sensitivity and Weak-Light Detection Based on 1D/2D Molecular Crystal p–n Heterojunctions and their Application in Light Encoders.
基于 1D/2D 分子晶体 p-n 异质结的超高灵敏度和弱光检测负光电晶体管及其在光编码器中的应用。
37.Stretchable Redox-Active Semiconducting Polymers for High-Performance Organic Electrochemical Transistors.
用于高性能有机电化学晶体管的可拉伸氧化还原活性半导体聚合物。
38.Tunable Planar Focusing Based on Hyperbolic Phonon Polaritons in α-MoO3.
基于 α-MoO3 中双曲声子极化子的可调谐平面聚焦。
39.In Situ Fabrication of Porous CoxP Hierarchical Nanostructures on Carbon Fiber Cloth with Exceptional Performance for Sodium Storage.
在碳纤维布上原位制造多孔 CoxP 分级纳米结构,具有优异的钠存储性能。
40.Giant Spin Hall Effect and Spin–Orbit Torques in 5d Transition Metal–Aluminum Alloys from Extrinsic Scattering.
5d 过渡金属铝合金中来自外在散射的巨自旋霍尔效应和自旋轨道扭矩。
41.Platelet Pharmacytes for the Hierarchical Amplification of Antitumor Immunity in Response to Self-Generated Immune Signals.
用于响应自身产生的免疫信号而分层放大抗肿瘤免疫的血小板药细胞。
42.A Better Choice to Achieve High Volumetric Energy Density: Anode-Free Lithium-Metal Batteries.
实现高体积能量密度的更好选择:无阳极锂金属电池。
43.A Robust Memristor Based on Epitaxial Vertically Aligned Nanostructured BaTiO3−CeO2 Films on Silicon.
一种基于硅上外延垂直排列纳米结构 BaTiO3−CeO2 薄膜的鲁棒忆阻器。
44.Hydrogen-Bond-Assisted Solution Discharge in Aprotic Li–O2 Batteries.
非质子 Li-O2 电池中的氢键辅助溶液放电。
45.Photoexcitation Dynamics and Long-Lived Excitons in Strain-Engineered Transition Metal Dichalcogenides.
应变工程过渡金属二硫化物中的光激发动力学和长寿命激子。
46.pH-Responsive Polymer Nanoparticles for Efficient Delivery of Cas9 Ribonucleoprotein With or Without Donor DNA.
pH 响应性聚合物纳米颗粒,用于在有或没有供体 DNA 的情况下有效递送 Cas9 核糖核蛋白。
47.A Universal Strategy of Intermolecular Exchange to Stabilize α-FAPbI3 and Manage Crystal Orientation for High-Performance Humid-Air-Processed Perovskite Solar Cells.
用于稳定 α-FAPbI3 并管理高性能湿空气处理钙钛矿太阳能电池晶体取向的通用分子间交换策略。
48.An Ultrafast, Durable, and High-Loading Polymer Anode for Aqueous Zinc-Ion Batteries and Supercapacitors.
用于水性锌离子电池和超级电容器的超快、耐用和高负载聚合物阳极。
49.Ultrathin Van der Waals Antiferromagnet CrTe3 for Fabrication of In-Plane CrTe3/CrTe2 Monolayer Magnetic Heterostructures.
用于制造面内 CrTe3/CrTe2 单层磁性异质结构的超薄范德华反铁磁体 CrTe3。
50.Quantum Sensing and Imaging of Spin–Orbit-Torque-Driven Spin Dynamics in the Non-Collinear Antiferromagnet Mn3Sn.
非共线反铁磁体 Mn3Sn 中自旋轨道扭矩驱动的自旋动力学的量子传感和成像。
51.Automated Laser-Transfer Synthesis of High-Density Microarrays for Infectious Disease Screening.
用于传染病筛查的高密度微阵列的自动激光转移合成。
52.Porous Polymers as Universal Reversal Agents for Heparin Anticoagulants through an Inclusion–Sequestration Mechanism.
多孔聚合物通过包合-隔离机制作为肝素抗凝剂的通用逆转剂。
53.Liquid Crystal Elastomer with Integrated Soft Thermoelectrics for Shape Memory Actuation and Energy Harvesting.
具有集成软热电的液晶弹性体,用于形状记忆驱动和能量收集。
54.Crowning Lithium Ions in Hole-Transport Layer toward Stable Perovskite Solar Cells.
将空穴传输层中的锂离子冠冕为稳定的钙钛矿太阳能电池。
55.Adaptive Self-Organization of Nanomaterials Enables Strain-Insensitive Resistance of Stretchable Metallic Nanocomposites.
纳米材料的自适应自组织使可拉伸金属纳米复合材料具有应变不敏感电阻。
56.Strain Release in GaN Epitaxy on 4° Off-Axis 4H-SiC.
4° 离轴 4H-SiC 上 GaN 外延的应变释放。
57.Foldable Solid-State Batteries Enabled by Electrolyte Mediation in Covalent Organic Frameworks.
通过共价有机框架中的电解质介导实现的可折叠固态电池。
58.An On-Chip Liquid Metal Plug Generator.
片上液态金属插头发生器。
59.Cascade Downregulation of the HER Family by a Dual-Targeted Recombinant Protein–Drug Conjugate to Inhibit Tumor Growth and Metastasis.
通过双靶点重组蛋白-药物偶联物级联下调 HER 家族,抑制肿瘤生长和转移。
60.Facile, Energy-Efficient Microscale Fibrillation of Polyacrylamides under Ambient Conditions.
环境条件下聚丙烯酰胺的简便、节能的微尺度原纤化。
61.Pseudo-Planar Heterojunction Organic Photovoltaics with Optimized Light Utilization for Printable Solar Windows.
用于可打印太阳能窗的优化光利用的伪平面异质结有机光伏。
62.Polyiodide Confinement by Starch Enables Shuttle-Free Zn–Iodine Batteries.
淀粉限制的聚碘化物可实现无穿梭锌碘电池。
63.Spatial Distribution Control of Antimicrobial Peptides through a Novel Polymeric Carrier for Safe and Efficient Cancer Treatment.
通过新型聚合物载体控制抗菌肽的空间分布,以实现安全有效的癌症治疗。
64.Acid-in-Clay Electrolyte for Wide-Temperature-Range and Long-Cycle Proton Batteries.
用于宽温范围和长周期质子电池的粘土酸电解质。
65.Optimal Physicochemical Properties of Antibody–Nanoparticle Conjugates for Improved Tumor Targeting.
抗体-纳米颗粒缀合物的最佳理化性质可改善肿瘤靶向。
66.Antibody-Incorporated Nanomedicines for Cancer Therapy.
用于癌症治疗的抗体掺入纳米药物。
67.Monolithic Perovskite-Silicon Tandem Solar Cells: From the Lab to Fab?.
单片钙钛矿-硅串联太阳能电池:从实验室到工厂?。
68.Recent Progress and Future Advances on Aqueous Monovalent-Ion Batteries towards Safe and High-Power Energy Storage.
水系单价离子电池在安全和高功率储能方面的最新进展和未来进展。
69.Lab-on-a-Contact Lens: Recent Advances and Future Opportunities in Diagnostics and Therapeutics.
隐形眼镜实验室:诊断和治疗领域的最新进展和未来机遇。
70.Recent Progress on Self-Healable Conducting Polymers.
自修复导电聚合物的最新进展。
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