【标题速读】【AdFM】【2022年】【5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。
1.Dual-Mode Image Sensing Display
In article number 2111894, Cheolmin Park and co-workers develop a simple approach for doping metal ions into all-inorganic perovskite films by employing metal–organic framework (MOF) nanoparticles. With the self-decomposition of MOF nanoparticles at a certain humidity, metal ions are released into nearby perovskite crystals. The perovskite crystals with the defects passivated with the metal ions result in environmentally stable and enhanced photoluminescence of the perovskite for dual-mode image sensing display.
双模式图像传感显示器
在文章编号 2111894 中,Cheolmin Park 及其同事开发了一种简单的方法,通过使用金属有机框架 (MOF) 纳米颗粒将金属离子掺杂到全无机钙钛矿薄膜中。随着MOF纳米粒子在一定湿度下的自分解,金属离子被释放到附近的钙钛矿晶体中。具有被金属离子钝化的缺陷的钙钛矿晶体导致钙钛矿的环境稳定和增强的光致发光,用于双模式图像传感显示。
2.Artificial Muscles
In article number 2111145, Il-Kwon Oh and co-workers grow a copper nanowire forest directly on the surface of a shape memory alloy coil (SMAc) to provoke thermal dissipation and accelerate its actuation speed. Then, the cooling-accelerated Cu nanowire grown SMAc is applied as artificial muscles for a versatile prosthetic hand capable of making a series of sign languages and playing the grand piano. Moreover, a unique feature of felines, a retractable claw, is realized by using the cooling-accelerated Cu nanowire grown SMAc for successful control of traction force.
人工肌肉
在文章编号 2111145 中,Il-Kwon Oh 和同事直接在形状记忆合金线圈 (SMAc) 的表面上生长铜纳米线森林,以激发热量耗散并加快其驱动速度。然后,将加速冷却的铜纳米线生长的 SMAc 用作多功能假手的人造肌肉,能够发出一系列手语并弹奏三角钢琴。此外,通过使用冷却加速的铜纳米线生长的SMAc来成功控制牵引力,实现了猫科动物的独特功能,即可伸缩的爪子。
3.Solar-to-Ammonia Efficiency
In article 2108316, Damien Voiry and co-workers report a single atom catalyst based on iron single atoms supported on 2D MoS2 nanosheets. The catalyst demonstrates near-unity selectivity for the electrosynthesis of ammonia with a solar-to-NH3 efficiency of 3.4% when coupled to an external InGaP/GaAs/Ge triple-junction solar cell.
太阳能转氨效率
在文章 2108316 中,Damien Voiry 及其同事报告了一种基于 2D MoS2 纳米片上支撑的铁单原子的单原子催化剂。当与外部 InGaP/GaAs/Ge 三结太阳能电池耦合时,该催化剂表现出近乎一致的氨电合成选择性,太阳能转化为 NH3 的效率为 3.4%。
4.Cellulose Ester Dispersion
To minimize the deleterious impacts of agrochemicals and polymer carriers, in article number 2108046, Charles H. Opperman, Saad A. Khan, and co-workers design aqueous dispersions of biodegradable polymers with tunable morphology. These green formulations show controlled release, fast spread, and impressive resistance to washing off from rain when used in foliar applications.
纤维素酯分散体
为了最大限度地减少农用化学品和聚合物载体的有害影响,Charles H. Opperman、Saad A. Khan 及其同事在文章编号 2108046 中设计了具有可调形态的可生物降解聚合物的水分散体。当用于叶面施用时,这些绿色配方表现出受控释放、快速传播和令人印象深刻的耐雨水冲刷性。
5.Escaping the Labyrinth of Bioinspiration: Biodiversity as Key to Successful Product Innovation.
逃离生物灵感的迷宫:生物多样性是成功产品创新的关键。
6.Recent Progress of Micro/Nanorobots for Cell Delivery and Manipulation.
用于细胞输送和操作的微/纳米机器人的最新进展。
7.In Situ Surface Self-Reconstruction Strategies in Li-Rich Mn-Based Layered Cathodes for Energy-Dense Li-Ion Batteries.
高能量密度锂离子电池富锂锰基层状阴极的原位表面自重构策略。
8.In Situ Investigation on Life-Time Dynamic Structure–Performance Correlation Toward Electrocatalyst Service Behavior in Water Splitting.
水分解中电催化剂使用行为的寿命动态结构-性能相关性的原位研究。
9.Insights into 2D/2D MXene Heterostructures for Improved Synergy in Structure toward Next-Generation Supercapacitors: A Review.
深入了解 2D/2D MXene 异质结构以改善下一代超级电容器结构的协同作用:综述。
10.Metal–Organic Framework-Assisted Metal-Ion Doping in All-Inorganic Perovskite for Dual-Mode Image Sensing Display.
用于双模式图像传感显示的全无机钙钛矿中金属有机框架辅助金属离子掺杂。
11.Cooling-Accelerated Nanowire-Nitinol Hybrid Muscle for Versatile Prosthetic Hand and Biomimetic Retractable Claw.
用于多功能假手和仿生可伸缩爪的冷却加速纳米线-镍钛合金混合肌肉。
12.3.4% Solar-to-Ammonia Efficiency from Nitrate Using Fe Single Atomic Catalyst Supported on MoS2 Nanosheets.
使用 MoS2 纳米片负载的 Fe 单原子催化剂将硝酸盐转化为氨的效率达到 3.4%。
13.Toward Sustainable Crop Protection: Aqueous Dispersions of Biodegradable Particles with Tunable Release and Rainfastness.
实现可持续作物保护:具有可调释放和耐雨性的可生物降解颗粒的水分散体。
14.Sequential Assembly Tailored Interior of Porous Carbon Spheres for Boosted Water Decontamination through Peroxymonosulfate Activation.
连续组装定制的多孔碳球内部,通过过一硫酸盐活化增强水净化。
15.Highly Active Hollow Porous Carbon Spheres@Graphite Felt Composite Electrode for High Power Density Vanadium Flow Batteries.
用于高功率密度钒液流电池的高活性空心多孔碳球@石墨毡复合电极。
16.Site-Specific Axial Oxygen Coordinated FeN4 Active Sites for Highly Selective Electroreduction of Carbon Dioxide.
用于二氧化碳高选择性电还原的位点特异性轴向氧配位 FeN4 活性位点。
17.Nanodot-in-Nanofiber Structured Carbon-Confined Sb2Se3 Crystallites for Fast and Durable Sodium Storage.
纳米纤维中的纳米点结构碳限制 Sb2Se3 微晶,用于快速、持久的钠存储。
18.3D Printed Template-Directed Assembly of Multiscale Graphene Structures.
3D 打印模板定向组装多尺度石墨烯结构。
19.Photo-Induced Dynamic Room Temperature Phosphorescence Based on Triphenyl Phosphonium Containing Polymers.
基于含三苯基鏻聚合物的光致动态室温磷光。
20.Edge and Point-Defect Induced Electronic and Magnetic Properties in Monolayer PtSe2.
单层 PtSe2 中边缘和点缺陷引起的电子和磁性。
21.Genetically Encoded Synthetic Beta Cells for Insulin Biosynthesis and Release under Hyperglycemic Conditions.
用于高血糖条件下胰岛素生物合成和释放的基因编码合成β细胞。
22.Specific Adsorption Reinforced Interface Enabling Stable Lithium Metal Electrode.
特定的吸附增强界面可实现稳定的锂金属电极。
23.Capsules as Miniature Factories: On-Demand Synthesis in Prepackaged Capsules Enabled by Switching on a Catalytic Reaction.
胶囊作为微型工厂:通过开启催化反应实现预包装胶囊中的按需合成。
24.Operando Formation of Van der Waals Heterostructures for Achieving Macroscale Superlubricity on Engineering Rough and Worn Surfaces.
范德华异质结构的操作形成,用于在工程粗糙和磨损表面上实现宏观超润滑。
25.Domain-Confined Etching Strategy to Regulate Defective Sites in Carbon for High-Efficiency Electrocatalytic Oxygen Reduction.
用于调节碳缺陷位点以实现高效电催化氧还原的域限制蚀刻策略。
26.Energy Optimization of a Mirror-Symmetric Spherical Triboelectric Nanogenerator.
镜面对称球形摩擦纳米发电机的能量优化。
27.Risk-Perceptional and Feedback-Controlled Response System Based on NO2-Detecting Artificial Sensory Synapse.
基于 NO2 检测人工感觉突触的风险感知和反馈控制响应系统。
28.Pursuing High-Performance Organic Field-Effect Transistors through Organic Salt Doping.
通过有机盐掺杂追求高性能有机场效应晶体管。
29.Harvesting of Infrared Part of Sunlight to Enhance Polaron Transport and Solar Water Splitting.
收集阳光的红外部分以增强极化子传输和太阳能水分解。
30.Self-Healing SeO2 Additives Enable Zinc Metal Reversibility in Aqueous ZnSO4 Electrolytes.
自修复 SeO2 添加剂使锌金属在水性 ZnSO4 电解质中具有可逆性。
31.Magic of Architecting Oligo-DNAs: 3D Structure-Dependent Stability and Programmable Specificity to Tumor Cells.
构建寡 DNA 的魔力:3D 结构依赖性稳定性和对肿瘤细胞的可编程特异性。
32.Compromising Charge Generation and Recombination with Asymmetric Molecule for High-Performance Binary Organic Photovoltaics with Over 18% Certified Efficiency.
利用不对称分子降低电荷产生和复合,实现认证效率超过 18% 的高性能二元有机光伏。
33.Seeking New Layered Oxyselenides with Promising Thermoelectric Performance.
寻求具有良好热电性能的新型层状硒化物。
34.Precursor Tailoring Enables Alkylammonium Tin Halide Perovskite Phosphors for Solid-State Lighting.
前驱体定制使烷基铵锡卤化物钙钛矿磷光体能够用于固态照明。
35.Synergistic Polarization Loss of MoS2-Based Multiphase Solid Solution for Electromagnetic Wave Absorption.
用于电磁波吸收的 MoS2 基多相固溶体的协同极化损耗。
36.Regulating the Local Spin State and Band Structure in Ni3S2 Nanosheet for Improved Oxygen Evolution Activity.
调节 Ni3S2 纳米片中的局部自旋态和能带结构以提高析氧活性。
37.Manipulating Interfacial Thermal Conduction of 2D Janus Heterostructure via a Thermo-Mechanical Coupling.
通过热机械耦合操纵 2D Janus 异质结构的界面热传导。
38.High-Throughput Production of Cheap Mineral-Based Heterostructures for High Power Sodium Ion Capacitors.
用于高功率钠离子电容器的廉价矿物基异质结构的高通量生产。
39.Ultrathin DDR Films with Exceptionally High CO2 Flux and Uniformly Adjustable Orientations.
超薄 DDR 薄膜具有极高的 CO2 通量和均匀可调的方向。
40.Periodic Nanoarray of Graphene pn-Junctions on Silicon Carbide Obtained by Hydrogen Intercalation.
通过氢插层获得碳化硅上石墨烯 pn 结的周期性纳米阵列。
41.Synergistic Effects of Multifunctional Lanthanides Doped CsPbBrCl2 Quantum Dots for Efficient and Stable MAPbI3 Perovskite Solar Cells.
多功能镧系元素掺杂 CsPbBrCl2 量子点对高效稳定 MAPbI3 钙钛矿太阳能电池的协同效应。
42.High Space Efficiency Hybrid Nanogenerators for Effective Water Wave Energy Harvesting.
用于有效收集水波能量的高空间效率混合纳米发电机。
43.Tuning Mixed Electronic/Ionic Conductivity of 2D CdPS3 Nanosheets as an Anode Material by Synergistic Intercalation and Vacancy Engineering.
通过协同插层和空位工程调节作为阳极材料的 2D CdPS3 纳米片的混合电子/离子电导率。
44.Cyber-Physical Watermarking with Inkjet Edible Bioprinting.
使用喷墨可食用生物打印进行网络物理水印。
45.Underwater Energy Harvesting and Sensing by Sweeping Out the Charges in an Electric Double Layer using an Oil Droplet.
通过使用油滴清除双电层中的电荷来进行水下能量收集和传感。
46.Manipulation of New Married Edge-Adjacent Fe2N5 Catalysts and Identification of Active Species for Oxygen Reduction in Wide pH Range.
新型联边 Fe2N5 催化剂的操作以及宽 pH 范围内氧还原活性物质的鉴定。
47.Fast Identification of the Crystallographic Orientation of Violet Phosphorus Nanoflakes with Preferred In-Plane Cleavage Edge Orientation.
快速鉴定具有优选面内解理边缘取向的紫磷纳米片的晶体取向。
48.Yolk–Shell Antimony/Carbon: Scalable Synthesis and Structural Stability Study in Sodium Ion Batteries.
蛋黄壳锑/碳:钠离子电池的可扩展合成和结构稳定性研究。
49.Radially Porous Nanocomposite Scaffolds with Enhanced Capability for Guiding Bone Regeneration In Vivo.
具有增强的引导体内骨再生能力的径向多孔纳米复合支架。
50.Strain-Activated Copper Catalyst for pH-Universal Hydrogen Evolution Reaction.
用于 pH 通用析氢反应的应变活化铜催化剂。
51.Multi-Metal Oxide Nanoparticles Multi-metal oxide (MMO) nanomaterials have significant potential to facilitate various demanding (electro)catalytic reactions, but its intrinsic complexity hinders the in-depth understanding of the origin of the catalytic activity. In article number 2110857, Seoin Back, Seung-Ho Yu, Yung-Eun Sung, Taeghwan Hyeon, and co-workers report the structural understanding of uniform-sized spinel-type MMO nanoparticles, which boosts the electrocatalytic oxygen reduction reaction (ORR) activity. Physicochemical and electrochemical analyses reveal the contribution of each element to the structural flexibility and corresponding improved ORR activity.
多金属氧化物纳米颗粒多金属氧化物(MMO)纳米材料具有促进各种高要求(电)催化反应的巨大潜力,但其内在的复杂性阻碍了对催化活性起源的深入理解。在第 2110857 号文章中,Seoin Back、Seung-Ho Yu、Yung-Eun Sung、Taeghwan Hyeon 及其同事报告了对均匀尺寸尖晶石型 MMO 纳米颗粒的结构理解,该纳米颗粒可提高电催化氧还原反应 (ORR) 活性。物理化学和电化学分析揭示了每种元素对结构灵活性和相应改善的 ORR 活性的贡献。
52.3D Printing In article number 2112914, Dorota Koziej and co-workers utilize TiO2 nanoparticle-based gels as additive-free inks for 3D printing of structured aerogels. The TiO2 gels are loaded with plasmonic Au nanorods to facilitate photothermal heating of the aerogel. In general, diverse colloidal nanomaterials can be processed into inks and 3D printed, thus giving access to multifunctional aerogels with full control of the nano-, micro-, and macroscopic length scales.
3D 打印 在文章编号 2112914 中,Dorota Koziej 及其同事利用 TiO2 纳米颗粒凝胶作为无添加剂墨水,用于结构化气凝胶的 3D 打印。 TiO2 凝胶负载有等离子体金纳米棒,以促进气凝胶的光热加热。一般来说,不同的胶体纳米材料可以加工成墨水和3D打印,从而获得完全控制纳米、微米和宏观长度尺度的多功能气凝胶。
53.Micro-Redoxcapacitors The choice between the battery or the capacitor has long been a standing dilemma, involving sacrifices of either power or energy density. For systems that require combined high capacity and rate performance, the use of both batteries and capacitors is inevitable, hindering reduction in complexity, size, and cost. In article number, 2111805, Haibo Hu, Derek Ho, and co-workers show that a new device category, coined the micro-redoxcapacitor, can resolve the dilemma effectively.
微型氧化还原电容器 电池和电容器之间的选择长期以来一直是一个长期的困境,涉及牺牲功率或能量密度。对于需要高容量和倍率性能的系统,电池和电容器的使用是不可避免的,这阻碍了复杂性、尺寸和成本的降低。在文章编号 2111805 中,Haibo Hu、Derek Ho 及其同事表明,一种新的器件类别(创造的微型氧化还原电容器)可以有效解决这一困境。
54.Charge Redistribution In article number 2111901, Young Hwa Jung, Hyun-Wook Lee, and co-workers demonstrate that the fast reaction rate activates charge redistribution in manganese hexacyanomanganates, which can mitigate the strong Jahn–Teller effect of high-spin Mn(III) by solving the unequal number of electrons in eg orbitals. As a result, the dissolution of Mn is effectively suppressed, inducing improved long-term cyclability in an aqueous electrolyte.
电荷重新分布 在文章编号 2111901 中,Young Hwa Jung、Hyun-Wook Lee 及其同事证明,快速反应速率可激活六氰基锰酸锰中的电荷重新分布,从而减轻高自旋 Mn(III) 的强 Jahn-Teller 效应通过解决例如轨道中电子数量不等的问题。结果,有效抑制了锰的溶解,从而改善了水性电解质中的长期循环性能。
55.Recent Progress in Double Network Elastomers: One Plus One is Greater Than Two.
双网络弹性体最新进展:一加一大于二。
56.Optimizing the Electrocatalytic Selectivity of Carbon Dioxide Reduction Reaction by Regulating the Electronic Structure of Single-Atom M-N-C Materials.
通过调节单原子MNC材料的电子结构优化二氧化碳还原反应的电催化选择性。
57.Topological Materials for Functional Optoelectronic Devices.
功能光电器件的拓扑材料。
58.Non-Radiative Recombination Energy Losses in Non-Fullerene Organic Solar Cells.
非富勒烯有机太阳能电池中的非辐射复合能量损失。
59.A New Era of Integrative Ice Frozen Assembly into Multiscale Architecturing of Energy Materials.
将冰冻组装集成到能源材料多尺度架构中的新时代。
60.Gold Nanomaterials-Implemented Wearable Sensors for Healthcare Applications.
用于医疗保健应用的金纳米材料实现的可穿戴传感器。
61.Atomic Structure Modification of Fe‒N‒C Catalysts via Morphology Engineering of Graphene for Enhanced Conversion Kinetics of Lithium–Sulfur Batteries.
对 Fe - N - C 催化剂进行原子结构改性,以增强锂硫电池的转换动力学。
62.Additive-Free, Gelled Nanoinks as a 3D Printing Toolbox for Hierarchically Structured Bulk Aerogels.
无添加剂的凝胶纳米墨水作为分层结构散装气凝胶的 3D 打印工具箱。
63.Micro-Redoxcapacitor: A Hybrid Architecture Out of the Notorious Energy-Power Density Dilemma.
微型氧化还原电容器:摆脱臭名昭著的能量功率密度困境的混合架构。
64.Mitigating Jahn–Teller Effects by Fast Electrode Kinetics Inducing Charge Redistribution.
通过快速电极动力学诱导电荷重新分布来减轻 Jahn-Teller 效应。
65.Effects of Charge Dynamics in the Emission Layer on the Operational Lifetimes of Blue Phosphorescent Organic Light-Emitting Diodes.
发射层电荷动力学对蓝色磷光有机发光二极管工作寿命的影响。
66.Multi-Component Crosslinked Hydrogel Electrolyte toward Dendrite-Free Aqueous Zn Ion Batteries with High Temperature Adaptability.
用于具有高温适应性的无枝晶水性锌离子电池的多组分交联水凝胶电解质。
67.Ru Coordinated ZnIn2S4 Triggers Local Lattice-Strain Engineering to Endow High-Efficiency Electrocatalyst for Advanced Zn-Air Batteries.
Ru 配位 ZnIn2S4 触发局部晶格应变工程,为先进锌空气电池提供高效电催化剂。
68.Atomically Dispersed Intrinsic Hollow Sites of M-M1-M (M1 = Pt, Ir; M = Fe, Co, Ni, Cu, Pt, Ir) on FeCoNiCuPtIr Nanocrystals Enabling Rapid Water Redox.
FeCoNiCuPtIr 纳米晶体上原子分散的 M-M1-M(M1 = Pt、Ir;M = Fe、Co、Ni、Cu、Pt、Ir)本征空心位点可实现快速水氧化还原。
69.Localized Electrosynthesis and Subsequent Electrochemical Mapping of Catalytically Active Metal–Organic Frameworks.
催化活性金属有机框架的局部电合成和后续电化学图谱。
70.High-Performance Non-Volatile Flash Photomemory via Highly Oriented Quasi-2D Perovskite.
通过高度定向的准二维钙钛矿实现高性能非易失性闪存光存储器。
71.Antibacterial Films Based on MOF Composites that Release Iodine Passively or Upon Triggering by Near-Infrared Light.
基于 MOF 复合材料的抗菌薄膜,可被动或近红外光触发释放碘。
72.Homogeneous Grain Boundary Passivation in Wide-Bandgap Perovskite Films Enables Fabrication of Monolithic Perovskite/Organic Tandem Solar Cells with over 21% Efficiency.
宽带隙钙钛矿薄膜中的均匀晶界钝化使得单片钙钛矿/有机串联太阳能电池的制造效率超过 21%。
73.Managing Phase Orientation and Crystallinity of Printed Dion–Jacobson 2D Perovskite Layers via Controlling Crystallization Kinetics.
通过控制结晶动力学来管理印刷 Dion-Jacobson 2D 钙钛矿层的相取向和结晶度。
74.A Vascularized Conductive Elastic Patch for the Repair of Infarcted Myocardium through Functional Vascular Anastomoses and Electrical Integration.
一种通过功能性血管吻合和电集成修复梗塞心肌的血管化导电弹性补片。
75.Negative Capacitance from the Inhomogenous Stray Field in a Ferroelectric–Dielectric Structure.
铁电介电结构中不均匀杂散场产生的负电容。
76.Tailoring the Mechanical Performance of Carbon Nanotubes Buckypaper by Aramid Nanofibers towards Robust and Compact Supercapacitor Electrode.
通过芳纶纳米纤维调整碳纳米管巴基纸的机械性能,以获得坚固且紧凑的超级电容器电极。
77.Grain-Boundaries-Engineering via Laser Manufactured La-Doped BaSnO3 Nanocrystals with Tailored Surface States Enabling Perovskite Solar Cells with Efficiency of 23.74%.
通过激光制造具有定制表面状态的 La 掺杂 BaSnO3 纳米晶体的晶界工程,使钙钛矿太阳能电池的效率达到 23.74%。
78.Modulating Crystal and Interfacial Properties by W-Gradient Doping for Highly Stable and Long Life Li-Rich Layered Cathodes.
通过 W 梯度掺杂调节晶体和界面特性,实现高度稳定和长寿命的富锂层状阴极。
79.Multifunctional Organic Single-Crystalline Microwire Arrays toward Optical Applications.
面向光学应用的多功能有机单晶微线阵列。
80.In Situ Customized Illusion Enabled by Global Metasurface Reconstruction.
通过全局超表面重建实现原位定制幻觉。
81.Dual Modification Engineering via Lanthanide-Based Halide Quantum Dots and Black Phosphorus Enabled Efficient Perovskite Solar Cells with High Open-Voltage of 1.235 V.
通过基于镧系元素的卤化物量子点和黑磷的双重改性工程,实现了具有 1.235 V 高开路电压的高效钙钛矿太阳能电池。
82.Nanoporous Kevlar Aerogel Confined Phase Change Fluids Enable Super-Flexible Thermal Diodes.
纳米多孔凯夫拉尔气凝胶限制相变流体可实现超柔性热二极管。
83.High-Performance All-Small-Molecule Organic Solar Cells Enabled by Regio-Isomerization of Noncovalently Conformational Locks.
通过非共价构象锁的区域异构化实现高性能全小分子有机太阳能电池。
84.Messy or Ordered? Multiscale Mechanics Dictates Shape-Morphing of 2D Networks Hierarchically Assembled of Responsive Microfibers.
凌乱还是有序?多尺度力学决定了响应性微纤维分层组装的二维网络的形状变形。
85.Observation of Short-Period Helical Spin Order and Magnetic Transition in a Nonchiral Centrosymmetric Helimagnet.
非手性中心对称螺旋磁体中短周期螺旋自旋顺序和磁跃迁的观察。
86.Molecular Engineering Enables TADF Emitters Well Suitable for Non-Doped OLEDs with External Quantum Efficiency of Nearly 30%.
分子工程使 TADF 发射器非常适合非掺杂 OLED,外部量子效率接近 30%。
87.Sn-Doped Black Phosphorene for Enhancing the Selectivity of Nitrogen Electroreduction to Ammonia.
掺杂锡的黑磷烯用于增强氮电还原氨的选择性。
88.Insoluble Naphthoquinone-Derived Molecular Cathode for High-Performance Lithium Organic Battery.
用于高性能锂有机电池的不溶性萘醌衍生分子阴极。
89.A Skin-Like Pressure- and Vibration-Sensitive Tactile Sensor Based on Polyacrylamide/Silk Fibroin Elastomer.
基于聚丙烯酰胺/丝素蛋白弹性体的类皮肤压力和振动敏感触觉传感器。
90.Drive High Power UVC-LED Wafer into Low-Cost 4-Inch Era: Effect of Strain Modulation.
将高功率 UVC-LED 晶圆带入低成本 4 英寸时代:应变调制的效果。
91.Pseudocapacitive Co-Free Trimetallic Ni-Zn-Mn Perovskite Fluorides Enable Fast-Rechargeable Zn-Based Aqueous Batteries.
赝电容性无钴三金属 Ni-Zn-Mn 钙钛矿氟化物可实现快速可充电锌基水系电池。
92.One-Interlayer-Twisted Multilayer MoS2 Moiré Superlattices.
单层扭曲多层MoS2莫尔超晶格。
93.Integrated Water and Thermal Managements in Bioinspired Hierarchical MXene Aerogels for Highly Efficient Solar-Powered Water Evaporation.
仿生分层 MXene 气凝胶中的集成水和热管理,用于高效太阳能水蒸发。
94.Symmetrical Acceptor–Donor–Acceptor Molecule as a Versatile Defect Passivation Agent toward Efficient FA0.85MA0.15PbI3 Perovskite Solar Cells.
对称受体-供体-受体分子作为高效 FA0.85MA0.15PbI3 钙钛矿太阳能电池的多功能缺陷钝化剂。
95.Large-Area Printing of Ferroelectric Surface and Super-Domain for Solar Water Splitting.
用于太阳能水分解的铁电表面和超级域的大面积印刷。
96.Polydimethylsiloxane-Silane Synergy enables Dropwise Condensation of Low Surface Tension Liquids.
聚二甲基硅氧烷-硅烷协同作用可实现低表面张力液体的滴状缩合。
97.A “Three-Region” Configuration for Enhanced Electrochemical Kinetics and High-Areal Capacity Lithium–Sulfur Batteries.
用于增强电化学动力学和高面积容量锂硫电池的“三区”配置。
98.Quantitative Determination of Native Point-Defect Concentrations at the ppm Level in Un-Doped BaSnO3 Thin Films.
定量测定未掺杂 BaSnO3 薄膜中 ppm 级的原生点缺陷浓度。
99.Polaronic Conductivity in Cr2Ge2Te6 Single Crystals.
Cr2Ge2Te6 单晶中的极化电导率。
100.Recording Messages on Nonplanar Objects by Cryogenic Electron-Beam Writing.
通过低温电子束写入在非平面物体上记录消息。
============================
由于专栏图片数量限制,关注我的个人公众号“远梦研”查看更多。
