【标题速读】【Advmat】【2022年】【9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。
Organic Semiconductors
In article number 2202575, Anirudh Sharma, Derya Baran, and co-workers unravel the inconsistencies of the determination of the absolute energy levels in organic semiconductors and their implication, particularly in the field of organic solar cells. In the cover image, the charges generated by the excitation of the materials by light are represented by the energy balls with feet and hands: electrons are represented in green and holes in red. The charges are jumping down a staircase, representing the energy levels of different organic semiconductor materials.
有机半导体
在第 2202575 号文章中,Anirudh Sharma、Derya Baran 及其同事阐明了有机半导体中绝对能级测定的不一致及其含义,特别是在有机太阳能电池领域。在封面图片中,光激发材料产生的电荷由带有脚和手的能量球表示:电子用绿色表示,空穴用红色表示。电荷从楼梯上跳下来,代表不同有机半导体材料的能级。
Dual-Responsive Actuators
In article number 2203613, Il-Kwon Oh and co-workers report the design and synthesis of magnetically and electrically driven dual-responsive soft actuators (MESAs) from a nickel-based metal–organic framework. The MESA is successfully utilized to demonstrate the hovering motion of a hummingbird robot under magnetic and electric fields.
双响应执行器
在文章编号 2203613 中,Il-Kwon Oh 和同事报告了基于镍基金属有机框架的磁电驱动双响应软执行器 (MESA) 的设计和合成。MESA 已成功用于演示蜂鸟机器人在磁场和电场下的悬停运动。
Visualization of Fingerprints
Visualization of fingerprints plays a crucial role in personal identification, security, and criminal investigation. In article number 2202540, Tao Tu and co-workers report the instantaneous high-resolution visualization of latent fingerprints in water using color-tunable aggregation-induced emission pincer complexes under UV or even ambient light. This work provides an excellent example for practical recording and analysis of latent fingerprints in different scenarios.
指纹可视化
指纹可视化在个人身份识别、安全和刑事调查中发挥着至关重要的作用。在第 2202540 号文章中,Tao Tu 和同事报告了在紫外线甚至环境光下使用颜色可调的聚集诱导发射钳复合物对水中潜在指纹进行瞬时高分辨率可视化。这项工作为不同场景下潜在指纹的实际记录和分析提供了一个很好的例子。
Bismuth Oxyselenide
Novel photoinduced quasiparticles, excimers, in the non-van-der-Waals 2D semiconductor Bi2O2Se are unambiguously by Jianbo Hu and co-workers in article number 2204227, identified through analyzing the emerging dynamic features by transient absorption spectra. Excimers in the Bi2O2Se nanosheets are diffusive and their formation can be simply described as excitons relaxed to an excimer geometry. This work advances the fundamental understanding of carrier dynamics in Bi2O2Se, which may motivate novel device design.
硒化铋
胡建波及其同事在文章编号 2204227 中明确指出,非范德华二维半导体 Bi2O2Se 中的新型光致准粒子(准分子)是通过瞬态吸收光谱分析新兴动态特征而确定的。Bi2O2Se 纳米片中的准分子具有扩散性,其形成可以简单地描述为弛豫至准分子几何形状的激子。这项工作增进了对 Bi2O2Se 载流子动力学的基本理解,这可能会激发新颖的器件设计。
Biotemplating
In article number 2200408, Jae-Byum Chang and co-workers propose a method using 1.4 nm nanogold-conjugated antibodies for synthesizing metallic structures that resemble the 3D assemblies of specific proteins in mammalian cells and animal tissues, which can facilitate the conversion of specific protein structures into metallic forms in ex vivo multicellular organisms.
生物模板
在文章号2200408中,Jae Byum Chang及其同事提出了一种使用1.4nm纳米金缀合抗体合成金属结构的方法,该金属结构类似于哺乳动物细胞和动物组织中特定蛋白质的3D组装,这可以促进特定蛋白质结构在离体多细胞生物中转化为金属形式。
Superhydrophobic Surfaces
Researchers have designed a new type of superhydrophobic surfaces with chemical reactivity. In article number 2203619, Wenqian Feng and co-workers demonstrate living photolithography on such superhydrophobic surfaces to graft functional moieties with controlled the densities and species. The distinctive properties of this surface can provide new insight into intelligent superhydrophobic material development and practical applications, such as aqueous/oil microdroplet arrays, multi-anti-counterfeiting labels, and integrated microfluidic reactors with enzymes for chemical logic learning.
超疏水表面
研究人员设计了一种具有化学反应性的新型超疏水表面。在第 2203619 号文章中,Wenqian Feng 及其同事展示了在这种超疏水表面上进行活体光刻技术,以控制密度和种类来接枝功能部分。该表面的独特特性可以为智能超疏水材料的开发和实际应用提供新的见解,例如水/油微滴阵列、多重防伪标签以及用于化学逻辑学习的带有酶的集成微流体反应器。
Negative Differential Resistance
In article number 2202799, a reconfigurable, multiple negative differential resistance (m-NDR) device, which features electric-field-induced tunability of multiple threshold voltages, is presented by Jin-Hong Park and co-workers. Its reconfigurability is verified in terms of the function of a multi-valued logic circuit composed of a reconfigurable m-NDR device and a load transistor; staggered-type and broken-type double peak-NDR device operations are adopted for ternary inverter and latch circuits, respectively.
负微分电阻
在第 2202799 号文章中,Jin-Hong Park 及其同事提出了一种可重新配置的多重负微分电阻 (m-NDR) 器件,该器件具有电场感应的多个阈值电压可调性。通过可重构m-NDR器件和负载晶体管组成的多值逻辑电路的功能验证了其可重构性;三值反相器和锁存电路分别采用交错型和断续型双峰NDR器件操作。
Bone Repair
In article number 2202044, Jiayong Dai, Jianxun Ding, Huanghao Yang, and co-workers develop an osteoimmunity-regulating biomimetically hierarchical scaffold to improve large-scale bone-defect regene ration through alleviating inflammation, enhancing neovascularization, stimulating osteogenesis, and inhibiting osteoclasts, facilitating the balance of the immune system and bone metabolism and augmenting bone repair.
骨修复
在文章编号2202044中,戴家勇、丁建勋、杨黄浩及其同事开发了一种骨免疫调节仿生分级支架,通过减轻炎症、增强新生血管、刺激成骨和抑制破骨细胞来提高大规模骨缺损的再生率,促进免疫系统和骨代谢的平衡并增强骨修复。
Pressure Sensors
In article number 2202478, Jun Yang, Jun Chen, and co-workers report a kirigami-inspired pressure sensor for wearable dynamic cardiovascular monitoring. Utilizing the vertical kirigami-inspired structure and a simple fabrication process, the sensor provides an ascendant way to overcome motion artifacts when monitoring human pulse signals, thus representing a solid advancement toward personalized cardiovascular monitoring in the era of the Internet of things.
压力传感器
在第 2202478 号文章中,Jun Yang、Jun Chen 及其同事报告了一种受剪纸启发的压力传感器,用于可穿戴动态心血管监测。该传感器利用垂直剪纸结构和简单的制造工艺,在监测人体脉搏信号时提供了一种克服运动伪影的优势方法,从而代表了物联网时代个性化心血管监测的坚实进步。
Dendrite Regulation
In article number 2203835, Liqun Wang, Feng Hou, Ji Liang, and co-workers present Cu nanowires that have regularly exposed (111) planes at the edges, which induces tiny, homogeneously distributed, and uniform Zn dendrites by matching Zn(002)/Cu(111) facets. This dendrite regulation strategy is extremely effective in improving Zn-anode reversibility in ultrahigh current densities and promising in stabilizing other metal species as well.
树枝状结构调节
在文章编号2203835中,Liqu Wang、Feng Hou、Ji Liang及其同事提出了在边缘具有规则暴露的(111)平面的Cu纳米线,其通过匹配Zn(002)/Cu(111)面诱导微小、均匀分布和均匀的Zn枝晶。这种枝晶调节策略在提高锌阳极在超高电流密度下的可逆性方面非常有效,并有望稳定其他金属物种。
Interactive Displays
A wireless stand-alone trimodal interactive display is developed by Cheolmin Park and co-workers, as reported in article number 2204760, where finger touch is displayed with three types of outputs of field-induced electroluminescence, inverse piezoelectric sound, and tactile vibration, and remotely powered by the unique AC-to-AC power transfer based on direct capacitive coupling, making the device potentially suitable for a smart braille display.
交互式显示器
Cheolmin Park及其同事开发了一种无线独立的三模态交互式显示器,如文章编号2204760所述,其中手指触摸通过场致电致发光、反向压电声音和触觉振动三种类型的输出进行显示,并通过基于直接电容耦合的独特交流-交流功率传输进行远程供电,使得该设备潜在地适合于智能盲文显示器。
Metasurfaces
A self-aligned suspended chiral bilayer metasurface via single-step electron-beam lithography is reported by Tun Cao, Yan Jun Liu, and co-workers in article number 2203956. A huge optical chirality of 221° μm−1 is achieved by the free-standing metasurfaces with overall thickness of 100 nm. The bilayer metasurface demonstrates label-free discrimination of chiral molecules at zeptomole level, with sensitivity orders of magnitude larger than conventional circular dichroism spectroscopy.
超表面
Tun Cao、Yan Jun Liu 及其同事通过单步电子束光刻技术报道了一种自对准悬浮手性双层超表面,文章编号为 2203956。自由光学手性实现了 221° μm−1 的巨大光学手性。-总厚度为100 nm的直立超表面。双层超表面表现出在 zeptomole 水平上对手性分子的无标记辨别,其灵敏度比传统的圆二色光谱法大几个数量级。
Plasmonic Arrays
In article number 2205330, Leonardo Scarabelli and co-workers report on the in situ growth of gold nanoparticle plasmonic ordered arrays. In situ growth is an unconventional fabrication approach where gold precursors are reduced directly at specific chemically patterned areas on the substrate. Taking advantage of bottom-up wet-chemistry synthesis principles, nanoparticle morphology and array periodicity can be easily tuned using this method. The plasmonic arrays display narrow lattice plasmon resonances, constituting a major step forward for this class of techniques.
等离子阵列
在第 2205330 号文章中,Leonardo Scarabelli 及其同事报告了金纳米颗粒等离子体有序阵列的原位生长。原位生长是一种非常规的制造方法,其中金前体直接在基板上的特定化学图案区域被还原。利用自下而上的湿化学合成原理,可以使用这种方法轻松调整纳米粒子的形态和阵列周期性。等离子体阵列显示出窄晶格等离子体共振,这是此类技术向前迈出的重要一步。
Microbial Electrosynthesis
Microbial electrosynthesis holds the promise of sustainable chemical production. In article number 2203480, Guillermo C. Bazan and co-workers show that 3D living biocomposites integrating electroactive bacteria with an n-type conjugated polyelectrolyte allow efficient long-range electron transfer from electrode to living cells, thereby enabling microbial electrosynthesis. The one-step self-assembly process offers a simple and effective strategy to improve bioelectrochemical systems.
微生物电合成
微生物电合成有望实现可持续化学生产。在文章编号 2203480 中,Guillermo C. Bazan 及其同事表明,将电活性细菌与 n 型共轭聚电解质集成的 3D 活体生物复合材料可以实现从电极到活细胞的高效长程电子转移,从而实现微生物电合成。一步自组装过程提供了一种简单而有效的策略来改进生物电化学系统。
Thermoelectric Materials
In article number 2204132, G. Jeffrey Snyder, Yeon Sik Jung, Min-Wook Oh, and co-workers show that charged cation antisites are principal defects forestalling p-type dopability of AgBiSe2-based thermoelectric materials via saturation annealing under selenium vapor. This finding offers a rational design rule for stabilizing thermoelectric properties of chalcogenide-based materials.
热电材料
在文章编号 2204132 中,G. Jeffrey Snyder、Yeon Sik Jung、Min-Wook Oh 及其同事表明,带电阳离子反位点是通过在硒蒸气下进行饱和退火来阻止 AgBiSe2 基热电材料的 p 型掺杂性的主要缺陷。这一发现为稳定硫族化物材料的热电性能提供了合理的设计规则。
Heat Transfer
In article number 2205120, Hortense Le Ferrand and co-workers present a high-thermal-conductivity BN-based composite with locally oriented microstructures that can conduct heat intentionally toward specific areas. The customizable heat-transfer paths highlight a solution for thermal management of future 3D integrated electronics.
传播热量
在文章编号 2205120 中,Hortense Le Ferrand 及其同事提出了一种高导热性 BN 基复合材料,具有局部定向微结构,可以有意地将热量传导到特定区域。可定制的传热路径突出了未来 3D 集成电子产品热管理的解决方案。
Liquid Sculpture
In article number 2205563, Yuchao Li, Lingxiang Jiang, and co-workers present an optothermal strategy to dynamically control phase-separated liquids with an unprecedented level of spatiotemporal addressability, for the realization of liquid painting and liquid animation, such as a liquid sculpture of a butterfly.
液体雕塑
在2205563号文章中,李宇超、蒋凌翔及其同事提出了一种光热策略,以前所未有的时空可寻址性水平动态控制相分离的液体,以实现液体绘画和液体动画,如蝴蝶的液体雕塑。
Janus Monolayers
In article number 2205226, Bernhard Urbaszek, Antony George, Andrey Turchanin, and co-workers present a new method to grow large-scale and high-structural-quality SeMoS Janus monolayers on Au substrates. Their high optical quality is demonstrated by optical and magneto-optical measurements which reveal the strong exciton-phonon coupling and enable an exciton g-factor of −3.3 to be obtained. Cover art by Shahab Mohebi Fard.
Janus单层膜
在文章编号 2205226 中,Bernhard Urbaszek、Antony George、Andrey Turchanin 及其同事提出了一种在 Au 基底上生长大规模和高结构质量 SeMoS Janus 单层的新方法。光学和磁光测量证明了它们的高光学质量,这些测量揭示了强激子-声子耦合,并且能够获得-3.3的激子g因子。封面艺术由 Shahab Mohebi Fard 创作。
CO2 Electroreduction
It remains challenging to increase the energy efficiency while maintaining long durability of catalysts for CO2 electroreduction to CO. In article number 2204637, Xin Wang, Ming Feng, Aiping Yu, Zhongwei Chen, and co-workers demonstrate a dual-scale delicate design of a non-noble Sn–ZnO active interface inserted into nanopores of high-surface-area carbon nanospheres, through d-bandwidth tuning and nanoconfinement tailoring to develop efficient and stable CO2 electroreduction.
CO2电还原
在保持CO2电还原为CO的催化剂的长期耐久性的同时提高能源效率仍然是一项挑战。在文章编号2204637中,王欣、冯明、余爱平、陈忠伟及其同事展示了插入高表面积碳纳米球的纳米孔中的非贵Sn–ZnO活性界面的双尺度精细设计,通过d带宽调谐和纳米限制剪裁,开发高效稳定的CO2电还原。
3D-Printed Microbatteries
In article number 2205569, Shuanghao Zheng, Zhong-Shuai Wu, and co-workers report a prototype of a planar and flexible 3D-printed sodium-ion microbattery with a 3D hierarchically porous framework by consecutively printing cathode, anode, and electrolyte inks. Such a printable strategy paves a new avenue for scalable and customizable fabrication of high-energy micro-power-sources for next-generation wearable and portable microelectronics.
3D 打印微电池
在第 2205569 号文章中,郑双豪、吴中帅及其同事通过连续打印阴极、阳极和电解质墨水,报道了一种平面柔性 3D 打印钠离子微电池原型,该电池具有 3D 分层多孔框架。这种可打印策略为下一代可穿戴和便携式微电子产品的高能微电源的可扩展和可定制制造铺平了新途径。
4D Printing
In article number 2204890, Ruike Renee Zhao, H. Jerry Qi, and co-workers report a hybrid 4D printing method to fabricate freestanding liquid crystal elastomers “on-the-fly” by using laser-assisted direct ink writing. This process is integrated with Digital Light Processing for printing optional structural or sacrificial materials to create active architectures, such as active tensegrities, loading-bearing actuators, and 3D liquid crystal lattices, in a one-step additive process.
4D打印
在第 2204890 号文章中,Ruike Renee Zhu、H. Jerry Qi 及其同事报告了一种混合 4D 打印方法,通过使用激光辅助直接墨水书写“即时”制造独立式液晶弹性体。该工艺与数字光处理集成,用于打印可选的结构或牺牲材料,以在一步增材工艺中创建活性结构,例如活性张拉整体、承载执行器和 3D 液晶晶格。
High-Performance Nanozymes
In article number 2205324, Zhenglin Yang, Xiyun Yan, Kelong Fan, and co-workers report a high-performance catalase-like iron single-atom nanozyme prepared by edge-site engineering. Hierarchical mesoporous and edge-hosted atomic sites are formed during the pyrolysis process, enabling efficient catalytic decomposition of H2O2 into O2 and H2O. Based on the catalase-like activity, effective treatment of retinal vasculopathies is realized by intravitreal administration of the nanozyme.
高性能纳米酶
在第2205324号文章中,杨正林、颜熙云、范克龙等人报道了一种通过边缘位点工程制备的高性能类过氧化氢酶铁单原子纳米酶。在热解过程中形成分层介孔和边缘托管原子位点,从而能够将 H2O2 有效催化分解为 O2 和 H2O。基于过氧化氢酶样活性,通过玻璃体内施用纳米酶可实现视网膜血管病变的有效治疗。
Covalent Polymer Self-Assembly
In article number 2109701, Yang Shi and co-workers introduce a new mechanism of polymer self-assembly via covalent bonding. The covalent approach uses a homopolymer and simple protocols but shows much better robustness and controllability than non-covalent polymer self-assembly. The new strategy builds up hierarchical nano- to macroscale materials.
共价聚合物自组装
在第 2109701 号文章中,Yang Shi 及其同事介绍了一种通过共价键进行聚合物自组装的新机制。共价方法使用均聚物和简单的方案,但显示出比非共价聚合物自组装更好的鲁棒性和可控性。新策略构建了从纳米级到宏观级的分层材料。
Flexible Electronics
In article number 2203330, Fangxu Yang, Wenping Hu, and co-workers demonstrate a polymer-template-assisted molecular-assembly strategy to fabricate large-area and highly aligned organic single crystal arrays. The proposed strategy is shown to be applicable to a variety of semiconductor molecules, and the resulting transistors exhibit excellent performance and high bendable durability, demonstrating great promise for flexible electronics.
柔性电子产品
在第 2203330 号文章中,Fangxu Yang、Wenping Hu 及其同事展示了聚合物模板辅助分子组装策略,用于制造大面积且高度排列的有机单晶阵列。所提出的策略被证明适用于各种半导体分子,所得晶体管表现出优异的性能和高可弯曲耐用性,展示了柔性电子产品的巨大前景。
1.Liquid-Phase Exfoliation of Nonlayered Non-Van-Der-Waals Crystals into Nanoplatelets.
非层状非范德华晶体液相剥离成纳米片。
2.Toward Practical High-Energy-Density Lithium–Sulfur Pouch Cells: A Review.
走向实用的高能量密度锂硫软包电池:回顾。
3.Reactive Oxygen Species Scavenging Nanomedicine for the Treatment of Ischemic Heart Disease.
用于治疗缺血性心脏病的活性氧清除纳米药物。
4.The Energy Level Conundrum of Organic Semiconductors in Solar Cells.
太阳能电池中有机半导体的能级难题。
5.A Dual-Responsive Magnetoactive and Electro–Ionic Soft Actuator Derived from a Nickel-Based Metal–Organic Framework.
一种源自镍基金属有机框架的双响应磁活性和电离子软执行器。
6.Instantaneous High-Resolution Visual Imaging of Latent Fingerprints in Water Using Color-Tunable AIE Pincer Complexes.
使用颜色可调的 AIE Pincer 复合物对水中的潜指纹进行瞬时高分辨率视觉成像。
7.Excimer Formation in the Non-Van-Der-Waals 2D Semiconductor Bi2O2Se.
非范德华二维半导体 Bi2O2Se 中准分子的形成。
8.Multiscale Functional Metal Architectures by Antibody-Guided Metallization of Specific Protein Assemblies in Ex Vivo Multicellular Organisms.
通过抗体引导离体多细胞生物中特定蛋白质组件的金属化来实现多尺度功能金属结构。
9.Convection Driven Ultrarapid Protein Detection via Nanobody-Functionalized Organic Electrochemical Transistors.
通过纳米抗体功能化有机电化学晶体管进行对流驱动的超快速蛋白质检测。
10.Preparation of 2D Molybdenum Phosphide via Surface-Confined Atomic Substitution.
通过表面限制原子取代制备二维磷化钼。
11.Self-Healing and Light-Soaking in MAPbI3: The Effect of H2O.
MAPbI3 中的自愈和光浸泡:H2O 的影响。
12.Endocytosis-Independent and Cancer-Selective Cytosolic Protein Delivery via Reversible Tagging with LAT1 substrate.
通过 LAT1 底物的可逆标记实现不依赖于内吞作用和癌症选择性的胞浆蛋白递送。
13.Semicrystalline Conjugated Polymers with Well-Defined Active Sites for Nitrogen Fixation in a Seawater Electrolyte.
具有明确活性位点的半结晶共轭聚合物,用于海水电解质中的固氮。
14.Ultrafine Silver Nanoparticle Encapsulated Porous Molecular Traps for Discriminative Photoelectrochemical Detection of Mustard Gas Simulants by Synergistic Size-Exclusion and Site-Specific Recognition.
超细银纳米颗粒封装的多孔分子陷阱,通过协同尺寸排阻和位点特异性识别对芥子气模拟物进行判别性光电化学检测。
15.Emergent Magnetic Fan Structures in Manganite Homojunction Arrays.
锰酸盐同质结阵列中的新兴磁扇结构。
16.Anode Catalysts in Anion-Exchange-Membrane Electrolysis without Supporting Electrolyte: Conductivity, Dynamics, and Ionomer Degradation.
无支持电解质的阴离子交换膜电解中的阳极催化剂:电导率、动力学和离聚物降解。
17.Single-Crystalline Perovskite p–n Junction Nanowire Arrays for Ultrasensitive Photodetection.
用于超灵敏光电检测的单晶钙钛矿 p-n 结纳米线阵列。
18.Controlled Formation of Conduction Channels in Memristive Devices Observed by X-ray Multimodal Imaging.
通过 X 射线多模态成像观察忆阻器件中传导通道的受控形成。
19.Exposing Single Ni Atoms in Hollow S/N-Doped Carbon Macroporous Fibers for Highly Efficient Electrochemical Oxygen Evolution.
在空心 S/N 掺杂碳大孔纤维中暴露单个 Ni 原子,实现高效电化学析氧。
20.Mass Transfer Printing of Metal-Halide Perovskite Films and Nanostructures.
金属卤化物钙钛矿薄膜和纳米结构的大规模转移印刷。
21.Volatile Organic Compound Sensing Array and Optoelectronic Filter System using Ion-Pairing Dyes with a Wide Visible Spectrum.
使用具有宽可见光谱的离子对染料的挥发性有机化合物传感阵列和光电过滤系统。
22.Percolated Plasmonic Superlattices of Nanospheres with 1 nm-Level Gap as High-Index Metamaterials.
具有 1 nm 级间隙的纳米球渗透等离子体超晶格作为高折射率超材料。
23.SrTiO3/CuNi-Heterostructure-Based Thermopile for Sensitive Human Radiation Detection and Noncontact Human–Machine Interaction.
基于 SrTiO3/CuNi 异质结构的热电堆,用于灵敏的人体辐射检测和非接触式人机交互。
24.Highly Sensitive Photoelectric Detection and Imaging Enhanced by the Pyro-Phototronic Effect Based on a Photoinduced Dynamic Schottky Effect in 4H-SiC.
基于 4H-SiC 中光致动态肖特基效应的热释光电子效应增强的高灵敏度光电探测和成像。
25.Robust Piezoelectricity with Spontaneous Polarization in Monolayer Tellurene and Multilayer Tellurium Film at Room Temperature for Reliable Memory.
室温下单层碲烯和多层碲薄膜具有自发极化的鲁棒压电性,可实现可靠的存储。
26.Photoactivatable Silencing Extracellular Vesicle (PASEV) Sensitizes Cancer Immunotherapy.
光激活沉默细胞外囊泡 (PASEV) 使癌症免疫疗法变得敏感。
27.Experimental Realization of Atomic Monolayer Si9C15.
原子单层 Si9C15 的实验实现。
28.A New Polymer Donor Enables Binary All-Polymer Organic Photovoltaic Cells with 18% Efficiency and Excellent Mechanical Robustness.
新型聚合物供体使二元全聚合物有机光伏电池具有 18% 的效率和出色的机械鲁棒性。
29.A Room-Temperature Ferroelectric Resonant Tunneling Diode.
室温铁电谐振隧道二极管。
30.Rapid Ultratough Topological Tissue Adhesives.
快速超韧拓扑组织粘合剂。
31.Energy Interplay in Materials: Unlocking Next-Generation Synchronous Multisource Energy Conversion with Layered 2D Crystals.
材料中的能量相互作用:利用层状二维晶体解锁下一代同步多源能量转换。
32.Multimode Electron Tomography Sheds Light on Synthesis, Structure, and Properties of Complex Metal-Based Nanoparticles.
多模电子断层扫描揭示了复杂金属基纳米颗粒的合成、结构和性能。
33.Data-Driven Materials Innovation and Applications.
数据驱动的材料创新和应用。
34.A Reactive Superhydrophobic Platform for Living Photolithography.
用于活体光刻的反应性超疏水平台。
35.A Van Der Waals Reconfigurable Multi-Valued Logic Device and Circuit Based on Tunable Negative-Differential-Resistance Phenomenon.
基于可调负微分电阻现象的范德瓦尔斯可重构多值逻辑器件和电路。
36.Osteoimmunity-Regulating Biomimetically Hierarchical Scaffold for Augmented Bone Regeneration.
用于增强骨再生的骨免疫调节仿生分层支架。
37.Kirigami-Inspired Pressure Sensors for Wearable Dynamic Cardiovascular Monitoring.
用于可穿戴动态心血管监测的受剪纸启发的压力传感器。
38.Halide Remixing under Device Operation Imparts Stability on Mixed-Cation Mixed-Halide Perovskite Solar Cells.
设备操作下的卤化物再混合可提高混合阳离子混合卤化物钙钛矿太阳能电池的稳定性。
39.The Third Dimension of Ferroelectric Domain Walls.
铁电畴壁的第三维。
40.Cold-Starting All-Solid-State Batteries from Room Temperature by Thermally Modulated Current Collector in Sub-Minute.
通过热调制集电器在亚分钟内从室温冷启动全固态电池。
41.Visualizing Dynamic Mechanical Actions with High Sensitivity and High Resolution by Near-Distance Mechanoluminescence Imaging.
通过近距机械发光成像以高灵敏度和高分辨率可视化动态机械动作。
42.Enhanced Thermoelectric Properties of Bi2Te3-Based Micro–Nano Fibers via Thermal Drawing and Interfacial Engineering.
通过热拉伸和界面工程增强 Bi2Te3 基微纳米纤维的热电性能。
43.Top-Layer Engineering Reshapes Charge Transfer at Polar Oxide Interfaces.
顶层工程重塑极性氧化物界面的电荷转移。
44.3D Hydrogel Evaporator with Vertical Radiant Vessels Breaking the Trade-Off between Thermal Localization and Salt Resistance for Solar Desalination of High-Salinity.
具有垂直辐射容器的 3D 水凝胶蒸发器打破了高盐度太阳能海水淡化的热局部化和耐盐性之间的权衡。
45.Integrated Urinalysis Devices Based on Interface-Engineered Field-Effect Transistor Biosensors Incorporated With Electronic Circuits.
基于与电子电路结合的接口工程场效应晶体管生物传感器的集成尿液分析装置。
46.A Chiral Dual-Core Organoboron Structure Realizes Dual-Channel Enhanced Ultrapure Blue Emission and Highly Efficient Circularly Polarized Electroluminescence.
手性双核有机硼结构实现双通道增强型超纯蓝光发射和高效圆偏振电致发光。
47.Efficient Electroreduction of Nitrate into Ammonia at Ultralow Concentrations Via an Enrichment Effect.
通过富集效应在超低浓度下将硝酸盐有效电还原为氨。
48.Controllable Heterogenous Seeding-Induced Crystallization for High-Efficiency FAPbI3-Based Perovskite Solar Cells Over 24%.
基于 FAPbI3 的高效钙钛矿太阳能电池的可控异质晶种诱导结晶,效率超过 24%。
49.Vacancy-Rich MXene-Immobilized Ni Single Atoms as a High-Performance Electrocatalyst for the Hydrazine Oxidation Reaction.
富空位 MXene 固定 Ni 单原子作为肼氧化反应的高性能电催化剂。
50.Red Perovskite Light-Emitting Diodes with Efficiency Exceeding 25% Realized by Co-Spacer Cations.
通过共间隔阳离子实现效率超过 25% 的红色钙钛矿发光二极管。
51.Periodic Nanoporous Inorganic Patterns Directly Made by Self-Ordering of Cracks.
通过裂纹自排序直接制备周期性纳米多孔无机图案。
52.An Initial Covalent Organic Polymer with Closed-F Edges Directly for Proton-Exchange-Membrane Fuel Cells.
一种直接用于质子交换膜燃料电池的具有封闭 F 边缘的初始共价有机聚合物。
53.Controllable Inverse Photoconductance in Semiconducting Nanowire Films.
半导体纳米线薄膜中的可控逆光电导。
54.Releasable Water Charge-Trapping and Water-Resistant Photodetection using 1D Perovskitoid Hydrate Single Crystal.
使用一维钙钛矿水合物单晶进行可释放的水电荷捕获和防水光电检测。
55.High-Performance Electrostrictive Relaxors with Dispersive Endotaxial Nanoprecipitations.
具有分散轴内纳米沉淀的高性能电致伸缩弛豫器。
56.A Single-Molecule Memristor based on an Electric-Field-Driven Dynamical Structure Reconfiguration.
基于电场驱动动态结构重构的单分子忆阻器。
57.Hot-Casting-Assisted Liquid Additive Engineering for Efficient and Stable Perovskite Solar Cells.
用于高效稳定钙钛矿太阳能电池的热铸造辅助液体添加剂工程。
58.Low-Temperature High-Areal-Capacity Rechargeable Potassium-Metal Batteries.
低温大容量可充电钾金属电池。
59.A Self-Reporting Fluorescent Salicylaldehyde–Chlorambucil Conjugate as a Type-II ICD Inducer for Cancer Vaccines.
一种自我报告荧光水杨醛-苯丁酸氮芥缀合物作为癌症疫苗的 II 型 ICD 诱导剂。
60.Coordination Symmetry Breaking of Single-Atom Catalysts for Robust and Efficient Nitrate Electroreduction to Ammonia.
单原子催化剂的配位对称性破缺,实现稳健高效的硝酸盐电还原制氨。
61.Protein-Mimicking Nanoparticles in Biosystems.
生物系统中的模拟蛋白质纳米颗粒。
62.Design Strategies for Structurally Controlled Polymer Surfaces via Cyclophane-Based CVD Polymerization and Post-CVD Fabrication.
通过基于环烷的 CVD 聚合和 CVD 后制造实现结构控制聚合物表面的设计策略。
63.Emerging Liquid Metal Biomaterials: From Design to Application.
新兴液态金属生物材料:从设计到应用。
64.An Ultrahigh Rate and Stable Zinc Anode by Facet-Matching-Induced Dendrite Regulation.
通过面匹配诱导的枝晶调节实现超高速率和稳定的锌阳极。
65.Wireless Stand-Alone Trimodal Interactive Display Enabled by Direct Capacitive Coupling.
通过直接电容耦合实现无线独立三模态交互式显示。
66.Ultrathin Suspended Chiral Metasurfaces for Enantiodiscrimination.
用于对映歧视的超薄悬浮手性超表面。
67.Surface Lattice Plasmon Resonances by Direct In Situ Substrate Growth of Gold Nanoparticles in Ordered Arrays.
通过在有序阵列中直接原位生长金纳米粒子的表面晶格等离子体共振。
68.Enabling Electron Injection for Microbial Electrosynthesis with n-Type Conjugated Polyelectrolytes.
使用 n 型共轭聚电解质实现微生物电合成的电子注入。
69.Fingerprints Indicating Superior Properties of Internal Interfaces in Cu(In,Ga)Se2 Thin-Film Solar Cells.
指纹图谱表明 Cu(In,Ga)Se2 薄膜太阳能电池内部界面具有优异的性能。
70.Tuning Zn-Ion Solvation Chemistry with Chelating Ligands toward Stable Aqueous Zn Anodes.
用螯合配体调节锌离子溶剂化化学以获得稳定的水性锌阳极。
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