【标题速读】【Advmat】【2022年】【7月】

2023-07-12 23:33 作者:Rt_Cola 0人读过 | 我要投稿

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。

Spinodal Architected Materials

In article number 2109304, Glaucio H. Paulino and co-workers report spinodal architected materials with tunable anisotropy to unify optimal design and manufacturing of multiscale structures. Mechanical anisotropy and porosity are spatially tailored to directly target mechanical function (e.g., stiffness) and indirectly promote biological function (e.g., fluid transport conduits). Applications to medical (e.g., prosthetics) and mechanical components are demonstrated.

Spinodal建筑材料

在第2109304号文章中，Glaucio H.Paulino及其同事报告了具有可调各向异性的旋节结构材料，以统一多尺度结构的优化设计和制造。机械各向异性和孔隙率在空间上被定制为直接针对机械功能（例如刚度）并间接促进生物功能（例如流体输送导管）。演示了医疗（如假肢）和机械部件的应用。

Flexible Sensors

In article number 2201663, Kohei Nakajima, Kuniharu Takei, and co-workers propose a multitasking flexible sensor realized by using reservoir computing analysis to estimate rain-droplet volume and wind flow for future weathercasting. Surface morphology and conditions of the sensor are investigated to detect continuous water-droplet conductivity precisely, and an optimized reservoir computing algorithm is applied for water-volume and wind-flow estimations using a single sensor.

柔性传感器

在编号为2201663的文章中，Nakajima Kohei、Takei Kuniharu及其同事提出了一种多任务柔性传感器，该传感器通过使用水库计算分析来估计未来天气预报的雨滴量和风量。研究了传感器的表面形态和条件，以精确检测连续水滴的电导率，并将优化的储层计算算法应用于使用单个传感器估计水量和风量。

Transition Metal Carbo-Chalcogenides

In article number 2200574, Michael Naguib and co-workers report on the synthesis of 2D transition metal carbo-chalcogenides (TMCCs) by exfoliating their bulk layered counterparts (e.g., Nb2S2C and Ta2S2C) through electrochemical Li-ion intercalation followed by agitation in water. 2D TMCCs combine the surface of 2D TM dichalcogenides (TMDCs) and the core of 2D TM carbides (MXenes) offering unique characteristics of both TMDCs and MXenes.

过渡金属碳硫族化合物

在第2200574号文章中，Michael Naguib及其同事报道了2D过渡金属碳硫族化物（TMCCs）的合成，方法是通过电化学Li离子嵌入，然后在水中搅拌，剥离其块状层状对应物（例如Nb2S2C和Ta2S2C）。2D TMCCs结合了2D TM二硫属化物（TMDCs）的表面和2D TM碳化物（MXenes）的核心，提供了TMDCs和MXenes的独特特性。

Sodium–Sulfur Batteries

In article number 2106572, Hongchang Hao, David Mitlin, and co-workers report a remarkable new molybdenum-carbide-based electrocatalyst for sodium–sulfur batteries. In the cover, the astronauts have discovered the molybdenum carbide crystal, being the central object in the image. Around the carbide swirl polysulfides that are adsorbed on its surface, like meteors being drawn to a planet by gravity.

钠硫电池

在第 2106572 号文章中，Hongchanghao、David Mitlin 及其同事报告了一种用于钠硫电池的新型碳化钼电催化剂。在封面中，宇航员发现了碳化钼晶体，它是图像中的中心物体。多硫化物围绕碳化物旋转，被吸附在其表面，就像流星被重力吸引到行星上一样。

Transition Metal Dichalcogenides

In article number 2200492, Miguel M. Ugeda and co-workers demonstrate the feasibility of synthesis and stability of aliovalent alloys of transition metal dichalcogenide materials in the single-layer limit and report the evolution of the electronic ground state (both the electronic structure and behavior of the collective electronic phases) of a 2D Ising superconductor with structural disorder.

过渡金属二硫族化合物

在第2200492号文章中，Miguel M.Ugeda及其同事证明了过渡金属二硫族化合物材料的椭圆合金在单层极限下合成和稳定性的可行性，并报道了具有结构无序的2D Ising超导体的电子基态（电子结构和集体电子相的行为）的演变。

Catalytic Active Sites

In article number 2201328, Guowei Li, B. Andrei Bernevig, Claudia Felser, and co-workers propose a descriptor to predicate the position of catalytic active sites fast and precisely. By a simple checking of the space group and the position of obstructed surface states for the given obstructed insulators, high-performance catalysts can be predicated.

催化活性位点

在2201328号文章中，李国伟、B.Andrei Bernevig、Claudia Felser及其同事提出了一个描述符来快速准确地预测催化活性位点的位置。通过简单地检查给定阻塞绝缘体的空间群和阻塞表面状态的位置，可以预测高性能催化剂。

Single-Molecule Devices

In article number 2202135, Zong-Liang Li, Christian A. Nijhuis, Enrique Del Barco, and co-workers report a single-electron logic calculator formed by a gated Au/S-(CH2)3-Fc-(CH2)9-S/Au transistor. The unique adjacent conductive molecular orbitals in the Fc moiety are controlled by the orthogonal bias and gate voltages, resulting in the implementation of all universal logic gates within a single-molecule device.

单分子器件

在2202135号文章中，李宗亮、Christian A.Nijhuis、Enrique Del Barco及其同事报道了一种由门控Au/S-（CH2）3-Fc-（CH2）9-S/Au晶体管形成的单电子逻辑计算器。Fc部分中独特的相邻导电分子轨道由正交偏置和栅极电压控制，从而在单分子器件内实现所有通用逻辑门。

Pixelated Soft Materials

In article number 2109682, P.-T. Brun and co-workers demonstrate a robust and predictive approach for the passive assembly of pixelated soft materials. They harness capillary suction in curable elastomers that self-assemble into complex tessellation patterns before they cure. The resulting pixelated films are highly modular and can be designed to possess localized material properties.

像素化软材质

在第2109682号文章中，P.-T.Brunn及其同事展示了一种用于像素化软材料被动组装的稳健和预测方法。它们利用可固化弹性体中的毛细管吸力，在固化前将其自行组装成复杂的镶嵌图案。所得到的像素化膜是高度模块化的，并且可以被设计为具有局部材料特性。

Photolithography

In article number 2200687, Pinak Samal, Stefan Giselbrecht, and co-workers present an economical and easily accessible direct deep-UV photolithography method for fabricating microstructures directly in tissue-culture substrates while requiring minimal processing time. The remarkable straightforwardness of the process enables this class of microengineering techniques to be broadly accessible to diverse research communities.

光刻法

在文章编号 2200687 中，Pinak Samal、Stefan Giselbrecht 及其同事提出了一种经济且易于使用的直接深紫外光刻方法，用于直接在组织培养基质中制造微结构，同时需要最短的处理时间。该过程非常简单，使得此类微工程技术能够广泛地被不同的研究团体所使用。

Nanoporous Materials

In article number 2201502, David Fairen-Jimenez and co-workers conduct a round-robin exercise by providing 18 already-measured adsorption isotherms to sixty-one labs and show that the reproducibility of the Brunauer–Emmett–Teller (BET) area determination in micro- and mesoporous materials remains a largely ignored issue. To solve this, a new computational approach—called BETSI—that expands on the Rouquerol criteria and makes an unambiguous BET area assignment possible is developed.

纳米多孔材料

在编号为2201502的文章中，David Fairen Jimenez及其同事通过向61个实验室提供18条已经测量的吸附等温线进行了一次循环练习，并表明微介孔材料中Brunauer–Emmett–Teller（BET）面积测定的可重复性在很大程度上仍然是一个被忽视的问题。为了解决这个问题，开发了一种称为BETSI的新计算方法，该方法扩展了Rouquerol标准，并使明确的BET区域分配成为可能。

Nanocrystalline Alloys

In article number 2200354, Jason Trelewicz and co-workers connect nanocrystalline stability regimes with temperature-dependent segregation states through in situ mapping of microstructural evolution in Mo–Au nanometallic multilayers combined with thermodynamic predictions of stable solute configurations. These findings provide a framework for decoupling thermodynamic and kinetic contributions to the stability of nanocrystalline alloys exhibiting a transition from grain-boundary segregation to solute clustering and nanophase separation at elevated temperatures.

纳米晶合金

在文章编号 2200354 中，Jason Trelewicz 及其同事通过 Mo-Au 纳米金属多层中微观结构演化的原位绘图与稳定溶质构型的热力学预测相结合，将纳米晶体稳定状态与温度依赖性偏析状态联系起来。这些发现为解耦热力学和动力学对纳米晶合金稳定性的贡献提供了一个框架，纳米晶合金在高温下表现出从晶界偏析到溶质聚集和纳米相分离的转变。

Cell Adhesion

In article number 2110340, Ramasamy Paulmurugan, Young Keun Kim, Heemin Kang, and co-workers report template-mediated in situ tuning of nanoligand size and spacing. They demonstrate that submolecular ligand spacing and magnetic ligand anchoring facilitate adhesion-structure assembly-mediated pro-healing polarization of host macrophages. Increasing the ligand spacing significantly suppresses macrophage adhesion whereas increasing both ligand size and spacing slightly inhibits it.

细胞粘附

在第 2110340 号文章中，Ramasamy Paulmurugan、Young Keun Kim、Heemin Kang 及其同事报告了模板介导的纳米配体尺寸和间距的原位调节。他们证明，亚分子配体间距和磁性配体锚定有助于粘附结构组装介导的宿主巨噬细胞的促愈合极化。增加配体间距显着抑制巨噬细胞粘附，而增加配体大小和间距则轻微抑制巨噬细胞粘附。

Ex-Solution Catalysts

In article number 2201109, WooChul Jung, Il-Doo Kim, and co-workers reconceptualize the ex-solution process with the design of a host oxide structure using a metal–organic framework as an oxide precursor. The critical challenges of ex-solution, which emerge through conventional synthesis methods, are addressed all at once through this strategy. The ex-solved nanoparticles promote oxygen chemisorption and function as primary active sites for acetone oxidation reactions in an example process, attaining record-breaking performance in acetone oxidation and acetone-detection reactions.

前溶液催化剂

在第 2201109 号文章中，WooChul Jung、Il-Doo Kim 和同事通过使用金属有机框架作为氧化物前体设计主体氧化物结构，重新概念化了前溶液过程。通过传统合成方法出现的前解决方案的关键挑战通过该策略一次性得到解决。前溶解的纳米颗粒促进氧化学吸附，并在示例过程中充当丙酮氧化反应的主要活性位点，在丙酮氧化和丙酮检测反应中实现了破纪录的性能。

Acoustic Meta-Engine

In article number 2201575, Bin Liang, Jian-Chun Cheng, Johan Christensen, and co-workers report a metasurface-inspired compact motor that is capable of converting linear to angular momentum for audible and ultrasonic waves. With speed of up to 1000 rpm, noninvasive driving is made possible through appropriately designed momentum twisting, which opens the door to a new class of integrated mechanical devices solely powered by sound.

声学元引擎

在文章编号 2201575 中，Bin Liang、Jian-Chun Cheng、Johan Christensen 及其同事报告了一种受超表面启发的紧凑型电机，能够将可听波和超声波的线性动量转换为角动量。速度高达 1000 rpm，通过适当设计的动量扭转可以实现无创驾驶，这为完全由声音驱动的新型集成机械设备打开了大门。

(Sm,Y)Fe12-Based Magnets

In article number 2203503, Xuefeng Zhang, Wei Li, and co-workers demonstrate the construction of a core–shell structure (Sm-rich shell and Y-rich core) in a (Sm,Y)Fe12-based magnet via a spontaneous spinodal decomposition process, resulting in the synchronous enhancement of magnetic properties and phase stability in the optimized alloy. An innovative strategy is thus provided, which has important significance for the design of high-performance magnets.

(Sm,Y)Fe12 基磁铁

在文章编号 2203503 中，Xuefeng Zhang、Wei Li 及其同事演示了通过自发旋节线在 (Sm,Y)Fe12 基磁体中构建核壳结构（富 Sm 壳和富 Y 核）分解过程，导致优化合金的磁性能和相稳定性同步增强。由此提供了一种创新策略，对于高性能磁体的设计具有重要意义。

Cellulose Nanocrystals

Rod-like cellulose nanocrystal aqueous colloidal suspensions can be prepared from eucalyptus kraft pulp. In article number 2108227, Maria Helena Godinho and co-workers show the formation of a liquid crystalline (LC) phase atop an isotropic phase, inverted from the typical high-density LC phase. The bounciness of the particles is attributed to the presence of air. The behavior observed is an indication that the LC phase is an indirect way to reveal cellulose nanocrystal/water interactions.

纤维素纳米晶

棒状纤维素纳米晶水胶体悬浮液可以由桉树牛皮纸浆制备。在文章编号 2108227 中，Maria Helena Godinho 及其同事展示了在各向同性相之上形成液晶 (LC) 相，与典型的高密度 LC 相相反。颗粒的弹力归因于空气的存在。观察到的行为表明液晶相是揭示纤维素纳米晶体/水相互作用的间接方式。

Bacterial Cell Division

In article number 2202364, Petra Schwille, Cesar Rodriguez-Emmenegger, and co-workers show the reconstitution of a bacterial divisome in fully synthetic dendrimersomes. The fine-tuning of interactions between the active cell machinery and synthetic membrane enables the reproduction of the natural dynamic behavior in a synthetic system. This constitutes a breakthrough in the assembly of synthetic cells as tuning of membrane–divisome interactions is the key to engineering biological behavior and beyond.

细菌细胞分裂

在第 2202364 号文章中，Petra Schwille、Cesar Rodriguez-Emmenegger 及其同事展示了在完全合成的树枝状聚合物中重建细菌分裂体。活性细胞机器和合成膜之间相互作用的微调使得能够在合成系统中再现自然动态行为。这构成了合成细胞组装的突破，因为调节膜-分裂体相互作用是工程生物行为及其他行为的关键。

Zener Tunneling

In article number 2110044, Xian-Min Jin and co-workers report the realization of highly controllable Zener tunneling for protecting photonic coherence. The excited photonic states flow collectively along the energy band due to almost-total Zener tunneling, below which the excited states on the lattice materials undergo a directionally oscillating trajectory, directly associated with the above energy band. These results represent a step toward flexible quantum engineering for large-scale artificial quantum materials.

齐纳隧道

在第 2110044 号文章中，Xian-Min Jin 及其同事报告了实现高度可控齐纳隧道以保护光子相干性。由于几乎完全齐纳隧道效应，激发光子态沿着能带集体流动，在该能带之下，晶格材料上的激发态经历与上述能带直接相关的定向振荡轨迹。这些结果代表了大规模人造量子材料的灵活量子工程迈出了一步。

Human T-Cell Analysis

Researchers at Yale University have designed a new blood test for rapid electronic detection of T-cell immunity in humans using silicon nanowire arrays. In article number 2109661, Mohsen Nami, Richard Edelson, and co-workers demonstrate a novel device in near-instantaneous assessment of individual immunity against COVID-19, and describe potential applications as a Point-of-Care tool for screening vaccine responses or monitoring patient immunity in cancer, autoimmunity, and infectious diseases.

人类T细胞分析

耶鲁大学的研究人员设计了一种新的血液测试方法，使用硅纳米线阵列快速电子检测人体T细胞免疫。在第2109661号文章中，Mohsen Nami、Richard Edelson及其同事展示了一种用于近瞬时评估个人对新冠肺炎免疫的新型设备，并描述了作为一种预防点工具的潜在应用，用于筛查疫苗反应或监测癌症、自身免疫和传染病患者的免疫。

Photodetectors

A photodetector based on the type-II Weyl semimetal TaIrTe4 is designed by Dong Sun and co-workers in article number 2201229 to directly detect the orbital angular momentum (OAM) order of the vertex beam in the mid-infrared wavelength. The helical phase gradient of light can be distinguished by a current whose magnitude is proportional to the OAM mode number. This detector can be integrated into a focal plane array that can resolve multiple optical parameters of a target.

光电探测器

Dong Sun 及其同事在文章编号 2201229 中设计了一种基于 II 型 Weyl 半金属 TaIrTe4 的光电探测器，用于直接探测中红外波长顶光束的轨道角动量 (OAM) 阶数。光的螺旋相位梯度可以通过电流来区分，电流的大小与OAM模式数成正比。该探测器可以集成到焦平面阵列中，该阵列可以解析目标的多个光学参数。

Topological Soliton Arrays

In article number 2201749, Ivan Smalyukh, Dong Ki Yoon, and co-workers report a new way to rationalize the real-time observation of the generation and transformation of topological solitons using cholesteric liquid crystals confined in patterned substrates. The line textures are cholesteric fingers of the third kind (CF-3s), in which 1D topological solitons called twist walls are stabilized by two twist disclination lines, which are nucleated and grown from the air pockets on the top view. This image represents that the CF-3s array is formed like an infinite maze.

拓扑孤子阵列

在第 2201749 号文章中，Ivan Smalyukh、Dong Ki Yoon 及其同事报告了一种新方法，可以使用限制在图案化基板中的胆甾型液晶来合理化实时观察拓扑孤子的生成和转换。线纹理是第三类胆甾指（CF-3s），其中称为扭曲壁的一维拓扑孤子通过两条扭曲向错线稳定，这两条扭曲向错线从俯视图上的气穴成核并生长。该图像表示 CF-3s 阵列形成一个无限迷宫。

Electrode Materials

In article number 2202137, Kee-Sun Sohn, Tae Joo Shin, Docheon Ahn, Jun Lu, and co-workers report an in-depth phase analysis of their developed Na1−xTMO2 cathode materials with P2- and O3-type phases for Na-ion rechargeable batteries, providing structural visualization on an atomic scale and unveiling the existence of a mixed-phase intergrowth layer distribution and unequal distribution of P2 and O3 phases. The synergetic effect of the simultaneous existence of P- and O-type phases and their unique structures allows an extraordinary level of capacity retention in a wide range of voltage (1.5–4.5 V).

电极材料

在文章编号 2202137 中，Kee-Sun Sohn、Tae Joo Shin、Docheon Ahn、Jun Lu 及其同事报告了他们开发的 Na1−xTMO2 阴极材料的深入相分析，其中 Na- 具有 P2 型和 O3 型相。离子充电电池，提供原子尺度的结构可视化，并揭示混合相共生层分布的存在以及 P2 和 O3 相的不均匀分布。 P型和O型相同时存在的协同效应及其独特的结构使得在宽电压范围（1.5-4.5V）下具有非凡的容量保持水平。

Thermoacoustic Metasurfaces

In article number 2202026, Ying Cheng, Xiaojun Liu, Johan Christensen, and co-workers report an orbital-angular-momentum multiplexing technology based on space-time thermoacoustic metasurfaces for enhanced communication densities. In analogy to the Chinese story “Monkey King Prays for Rain”, multifaceted weather signals, i.e, lightning, thunder and rain, etc., are synchronously transmitted through multipath orbital-angular-momentum beams.

热声超表面

在第 2202026 号文章中，Ying Cheng、Xiaojun Liu、Johan Christensen 及其同事报告了一种基于时空热声超表面的轨道角动量复用技术，用于增强通信密度。类似于中国故事“孙悟空求雨”，闪电、雷雨等多方面的天气信号通过多径轨道角动量束同步传输。

Polymer–Protein Hybrids

Polymer–protein hybrids provide a new route for protein stabilization in harsh environments. In article number 2201809, Michael A. Webb, Adam J. Gormley, and co-workers demonstrate a strategy combining automated polymer synthesis and machine learning to design copolymers tailored to enhance the stability of target proteins. This strategy may overcome challenges and accelerate development associated with utilizing proteins in industrial and medical applications.

聚合物-蛋白质杂种

聚合物-蛋白质杂化物为恶劣环境下的蛋白质稳定性提供了新途径。在文章编号 2201809 中，Michael A. Webb、Adam J. Gormley 及其同事展示了一种将自动化聚合物合成和机器学习相结合的策略，以设计定制的共聚物来增强目标蛋白质的稳定性。该策略可以克服挑战并加速与在工业和医学应用中利用蛋白质相关的开发。

Organic Semiconductors

3D printing of electronics has received growing attention due to their potential applications in emerging fields such as nanoelectronics and nanophotonics. In article number 2200512, Mohammad Reza Abidian and co-workers introduce a homogenous and transparent photosensitive resin doped with an organic semiconductor material compatible with the multiphoton lithography process to fabricate a variety of 3D flexible microelectronic devices, bioelectronics, and biosensors. The results demonstrate the great potential of these novel devices for various applications in the emerging fields of flexible bioelectronics/biosensors, nanoelectronics, organ-on-chips, and immune cell therapies.

有机半导体

电子产品3D打印由于其在纳米电子学和纳米光子学等新兴领域的潜在应用而受到越来越多的关注。在文章编号 2200512 中，Mohammad Reza Abidian 及其同事介绍了一种均匀透明的光敏树脂，掺杂有与多光子光刻工艺兼容的有机半导体材料，可制造各种 3D 柔性微电子器件、生物电子学和生物传感器。结果表明，这些新型器件在柔性生物电子学/生物传感器、纳米电子学、器官芯片和免疫细胞疗法等新兴领域的各种应用中具有巨大潜力。

Cancer Therapy

As glycocalyx-directed binding interactions are prevalent in cancer cells and are used for cell–cell communication and cell adhesion through carbohydrate-mediated interactions, Hee-Seung Lee, Sangyong Jon, and co-workers have developed a nanomedicine platform based on a library of glycocalyx-mimicking nanoparticles that enables screening and identification of cancer-cell-selective glyconanoparticles, as described in article number 2203993. This work demonstrates the potential of the glycocalyx-mimicking nanoparticle platform for use in targeted cancer therapy.

癌症治疗

由于糖萼导向的结合相互作用在癌细胞中普遍存在，并通过碳水化合物介导的相互作用用于细胞间通讯和细胞粘附，Hee-Seung Lee、Sangyong Jon 和同事开发了一个基于糖萼库的纳米医学平台。糖萼模拟纳米颗粒能够筛选和鉴定癌细胞选择性糖纳米颗粒，如文章编号 2203993 中所述。这项工作证明了糖萼模拟纳米颗粒平台用于靶向癌症治疗的潜力。

Biosensors

The speed of innovation in the development, commercialization, and implementation of new technologies for infectious disease diagnostics has enabled humans to better combat the COVID-19 pandemic. In article number 2201085, Kiana Aran, Can Dincer, and co-workers highlight the development of various novel and reimagined multiomic sensing technologies to address the gaps in testing and surveillance for future outbreaks of coronaviruses and other infectious diseases.

生物传感器

传染病诊断新技术的开发、商业化和实施的创新速度使人类能够更好地对抗 COVID-19 大流行。在第 2201085 号文章中，Kiana Aran、Can Dincer 及其同事强调了各种新颖和重新构想的多组学传感技术的发展，以解决未来冠状病毒和其他传染病爆发的测试和监测方面的差距。

Photodetectors

Endowing photodetectors with mechanical flexibility and actual functionality are current research issues in developing optoelectronic devices. In article number 2201303, Xiaosheng Fang and co-workers report an all-organic self-powered photodetector prepared by an all-solution method with ultraflexible dual-polarity output, which can be utilized in detecting steady biosignals for photo-plethysmography application.

光电探测器

赋予光电探测器机械灵活性和实际功能是开发光电器件的当前研究问题。在第2201303号文章中，Xiaosheng Fang及其同事报告了一种采用全溶液方法制备的具有超柔性双极性输出的全有机自供电光电探测器，可用于检测光电体积描记法应用中的稳定生物信号。

1.Progress and Future Prospects of Wide-Bandgap Metal-Compound-Based Passivating Contacts for Silicon Solar Cells.

硅太阳能电池宽禁带金属化合物钝化接触的进展和未来展望。

2.Are Liquid Metals Bulk Conductors?.

液态金属是体导体吗？

3.Thermoplasmonics in Solar Energy Conversion: Materials, Nanostructured Designs, and Applications.

太阳能转换中的热等离子体：材料、纳米结构设计和应用。

4.Materials with Tunable Optical Properties for Wearable Epidermal Sensing in Health Monitoring.

具有可调谐光学特性的材料，用于健康监测中的可穿戴表皮传感。

5.Recent Structural Engineering of Polymer Semiconductors Incorporating Hydrogen Bonds.

结合氢键的聚合物半导体的最新结构工程。

6.Engineered Living Hydrogels.

工程活性水凝胶。

7.Optimally-Tailored Spinodal Architected Materials for Multiscale Design and Manufacturing.

用于多尺度设计和制造的优化定制旋节线建筑材料。

8.A Multitasking Flexible Sensor via Reservoir Computing.

通过储层计算的多任务灵活传感器。

9.Transition Metal Carbo-Chalcogenide “TMCC:” A New Family of 2D Materials.

过渡金属碳硫属化物“TMCC”：新型二维材料系列。

10.Molybdenum Carbide Electrocatalyst In Situ Embedded in Porous Nitrogen-Rich Carbon Nanotubes Promotes Rapid Kinetics in Sodium-Metal–Sulfur Batteries.

原位嵌入多孔富氮碳纳米管中的碳化钼电催化剂促进钠金属硫电池的快速动力学。

11.Nontrivial Doping Evolution of Electronic Properties in Ising-Superconducting Alloys.

伊辛超导合金电子特性的非平凡掺杂演化。

12.Obstructed Surface States as the Descriptor for Predicting Catalytic Active Sites in Inorganic Crystalline Materials.

受阻表面态作为预测无机晶体材料催化活性位点的描述符。

13.Stable Universal 1- and 2-Input Single-Molecule Logic Gates.

稳定的通用 1 输入和 2 输入单分子逻辑门。

14.Simultaneous Electrochemical Exfoliation and Covalent Functionalization of MoS2 Membrane for Ion Sieving.

用于离子筛分的 MoS2 膜的同步电化学剥离和共价功能化。

15.Structural Phase Transitions between Layered Indium Selenide for Integrated Photonic Memory.

用于集成光子存储器的层状硒化铟之间的结构相变。

16.Identification of the Stable Pt Single Sites in the Environment of Ions: From Mechanism to Design Principle.

离子环境中稳定 Pt 单位点的识别：从机制到设计原理。

17.Single-Junction Organic Solar Cells with 19.17% Efficiency Enabled by Introducing One Asymmetric Guest Acceptor.

通过引入一种不对称客体受体实现效率为 19.17% 的单结有机太阳能电池。

18.Steric Engineering Enables Efficient and Photostable Wide-Bandgap Perovskites for All-Perovskite Tandem Solar Cells.

立体工程为全钙钛矿串联太阳能电池提供高效且光稳定的宽带隙钙钛矿。

19.Implanting an Electron Donor to Enlarge the d–p Hybridization of High-Entropy (Oxy)hydroxide: A Novel Design to Boost Oxygen Evolution.

植入电子供体以扩大高熵（氧）氢氧化物的 d-p 杂化：一种促进析氧的新颖设计。

20.Reinforced Layered Double Hydroxide Oxygen-Evolution Electrocatalysts: A Polyoxometallic Acid Wet-Etching Approach and Synergistic Mechanism.

增强层状双氢氧化物析氧电催化剂：多金属氧酸湿法蚀刻方法和协同机制。

21.Programming Cellular Alignment in Engineered Cardiac Tissue via Bioprinting Anisotropic Organ Building Blocks.

通过生物打印各向异性器官构件对工程心脏组织中的细胞排列进行编程。

22.Powering ≈50 µm Motion by a Molecular Event in DNA Crystals.

通过 DNA 晶体中的分子事件为 ≈50 µm 运动提供动力。

23.Dirac Fermion Cloning, Moiré Flat Bands, and Magic Lattice Constants in Epitaxial Monolayer Graphene.

狄拉克费米子克隆、莫尔平带和外延单层石墨烯中的神奇晶格常数。

24.Coupling Lipid Nanoparticle Structure and Automated Single-Particle Composition Analysis to Design Phospholipase-Responsive Nanocarriers.

耦合脂质纳米颗粒结构和自动单颗粒成分分析来设计磷脂酶响应性纳米载体。

25.Nanostructured Metallic Glass in a Highly Upgraded Energy State Contributing to Efficient Catalytic Performance.

处于高度升级能量状态的纳米结构金属玻璃有助于高效的催化性能。

26.Van der Waals Exfoliation Processed Biopiezoelectric Submucosa Ultrathin Films.

范德华去角质处理生物压电粘膜下层超薄膜。

27.Studying Complex Evolution of Hyperelastic Materials under External Field Stimuli using Artificial Neural Networks with Spatiotemporal Features in a Small-Scale Dataset.

使用小规模数据集中具有时空特征的人工神经网络研究外部场刺激下超弹性材料的复杂演化。

28.Magnetic-Powered Janus Cell Robots Loaded with Oncolytic Adenovirus for Active and Targeted Virotherapy of Bladder Cancer.

装载溶瘤腺病毒的磁力 Janus 细胞机器人，用于膀胱癌的主动和靶向病毒治疗。

29.Preparation of Amorphous SnO2-Encapsulated Multiphased Crystalline Cu Heterostructures for Highly Efficient CO2 Reduction.

用于高效 CO2 还原的非晶 SnO2 封装多相结晶铜异质结构的制备。

30.Salt-Assisted 2H-to-1T′ Phase Transformation of Transition Metal Dichalcogenides.

盐辅助过渡金属二硫属化物的 2H 至 1T' 相变。

31.Strain Modulation for Light-Stable n–i–p Perovskite/Silicon Tandem Solar Cells.

光稳定 n–i–p 钙钛矿/硅串联太阳能电池的应变调制。

32.Coupling Localized Laser Writing and Nonlocal Recrystallization in Perovskite Crystals for Reversible Multidimensional Optical Encryption.

耦合钙钛矿晶体中的局域激光写入和非局域再结晶，实现可逆多维光学加密。

33.Defective Fe Metal–Organic Frameworks Enhance Metabolic Profiling for High-Accuracy Diagnosis of Human Cancers.

有缺陷的铁金属有机框架增强了人类癌症高精度诊断的代谢分析。

34.In-Memory Computing using Memristor Arrays with Ultrathin 2D PdSeOx/PdSe2 Heterostructure.

使用具有超薄 2D PdSeOx/PdSe2 异质结构的忆阻器阵列进行内存计算。

35.Near-Infrared Light-Emitting Diodes utilizing a Europium-Activated Calcium Oxide Phosphor with External Quantum Efficiency of up to 54.7%.

近红外发光二极管采用铕激活氧化钙荧光粉，外部量子效率高达 54.7%。

36.Real-Space Crystal Structure Analysis by Low-Dose Focal-Series TEM Imaging of Organic Materials with Near-Atomic Resolution.

通过低剂量焦系列 TEM 成像以近原子分辨率对有机材料进行实空间晶体结构分析。

37.Effective Passivation with Self-Organized Molecules for Perovskite Photovoltaics.

用于钙钛矿光伏的自组织分子的有效钝化。

38.Catalytic Mechanism of Oxygen Vacancies in Perovskite Oxides for Lithium–Sulfur Batteries.

锂硫电池钙钛矿氧化物中氧空位的催化机制。

39.Universal Dynamic Liquid Interface for Healing Perovskite Solar Cells.

用于修复钙钛矿太阳能电池的通用动态液体界面。

40.Native Ligand Carbonization Renders Common Platinum Nanoparticles Highly Durable for Electrocatalytic Oxygen Reduction: Annealing Temperature Matters.

天然配体碳化使常见的铂纳米颗粒对于电催化氧还原具有高度耐用性：退火温度很重要。

41.How Reproducible are Surface Areas Calculated from the BET Equation?.

根据 BET 方程计算的表面积的重现性如何？

42.Recent Advances in Intelligent Wearable Medical Devices Integrating Biosensing and Drug Delivery.

集成生物传感和药物输送的智能可穿戴医疗设备的最新进展。

43.Advances in SnO2 for Efficient and Stable n–i–p Perovskite Solar Cells.

用于高效、稳定 n-i-p 钙钛矿太阳能电池的 SnO2 进展。

44.Formation of Pixelated Elastic Films via Capillary Suction of Curable Elastomers in Templated Hele–Shaw Cells.

在模板化 Hele-Shaw 细胞中通过毛细管吸入可固化弹性体形成像素化弹性薄膜。

45.Polystyrene Pocket Lithography: Sculpting Plastic with Light.

聚苯乙烯袖珍光刻：用光雕刻塑料。

46.Unraveling Thermodynamic and Kinetic Contributions to the Stability of Doped Nanocrystalline Alloys using Nanometallic Multilayers.

使用纳米金属多层揭示热力学和动力学对掺杂纳米晶合金稳定性的贡献。

47.Submolecular Ligand Size and Spacing for Cell Adhesion.

细胞粘附的亚分子配体大小和间距。

48.Promoting Ex-Solution from Metal–Organic-Framework-Mediated Oxide Scaffolds for Highly Active and Robust Catalysts.

促进金属有机骨架介导的氧化物支架的前解，以获得高活性和稳健的催化剂。

49.A Vinylene-Linker-Based Polymer Acceptor Featuring a Coplanar and Rigid Molecular Conformation Enables High-Performance All-Polymer Solar Cells with Over 17% Efficiency.

具有共面和刚性分子构象的基于乙烯基连接体的聚合物受体可实现效率超过 17% 的高性能全聚合物太阳能电池。

50.Activated Ni–OH Bonds in a Catalyst Facilitates the Nucleophile Oxidation Reaction.

催化剂中活化的 Ni-OH 键促进亲核试剂氧化反应。

51.Ultrasensitive Mid-Infrared Biosensing in Aqueous Solutions with Graphene Plasmons.

使用石墨烯等离子体激元在水溶液中进行超灵敏中红外生物传感。

52.Boosting Electrochemical Styrene Transformation via Tandem Water Oxidation over a Single-Atom Cr1/CoSe2 Catalyst.

通过单原子 Cr1/CoSe2 催化剂上的串联水氧化促进电化学苯乙烯转化。

53.A Unique Fe–N4 Coordination System Enabling Transformation of Oxygen into Superoxide for Photocatalytic CH Activation with High Efficiency and Selectivity.

独特的 Fe-N4 配位系统能够将氧气转化为超氧化物，从而高效、高选择性地进行光催化 CH 活化。

54.Tailoring Ultrafast and High-Capacity Sodium Storage via Binding-Energy-Driven Atomic Scissors.

通过结合能驱动原子剪刀定制超快和高容量钠存储。

55.Sr-Doped Superionic Hydrogen Glass: Synthesis and Properties of SrH22.

Sr 掺杂超离子氢玻璃：SrH22 的合成和性能。

56.Site-Specific Electron-Driving Observations of CO2-to-CH4 Photoreduction on Co-Doped CeO2/Crystalline Carbon Nitride S-Scheme Heterojunctions.

共掺杂 CeO2/晶体氮化碳 S 型异质结上 CO2 光还原至 CH4 的特定位点电子驱动观察。

57.Visualizing Atomically Layered Magnetism in CrSBr.

可视化 CrSBr 中的原子层状磁性。

58.A New Polystyrene–Poly(vinylpyridinium) Ionic Copolymer Dopant for n-Type All-Polymer Thermoelectrics with High and Stable Conductivity Relative to the Seebeck Coefficient giving High Power Factor.

一种新型聚苯乙烯-聚（乙烯基吡啶鎓）离子共聚物掺杂剂，用于 n 型全聚合物热电材料，具有相对于塞贝克系数而言高且稳定的电导率，可提供高功率因数。

59.A Light-Hole Germanium Quantum Well on Silicon.

硅上的光孔锗量子阱。

60.Magnetic Anisotropy Control with Curie Temperature above 400 K in a van der Waals Ferromagnet for Spintronic Device.

用于自旋电子器件的范德华铁磁体中居里温度高于 400 K 的磁各向异性控制。

61.Engineered Nanoerythrocytes Alleviate Central Nervous System Inflammation by Regulating the Polarization of Inflammatory Microglia.

工程纳米红细胞通过调节炎症小胶质细胞的极化来减轻中枢神经系统炎症。

62.Engineered Exosomes with Independent Module/Cascading Function for Therapy of Parkinson's Disease by Multistep Targeting and Multistage Intervention Method.

具有独立模块/级联功能的工程外泌体通过多步靶向和多阶段干预方法治疗帕金森病。

63.Enabling 100C Fast-Charging Bulk Bi Anodes for Na-Ion Batteries.

为钠离子电池提供 100C 快速充电散装双阳极。

64.CsPbCl3-Cluster-Widened Bandgap and Inhibited Phase Segregation in a Wide-Bandgap Perovskite and its Application to NiOx-Based Perovskite/Silicon Tandem Solar Cells.

宽带隙钙钛矿中 CsPbCl3 团簇加宽带隙和抑制相分离及其在 NiOx 基钙钛矿/硅串联太阳能电池中的应用。

65.Targeted Drug/Gene/Photodynamic Therapy via a Stimuli-Responsive Dendritic-Polymer-Based Nanococktail for Treatment of EGFR-TKI-Resistant Non-Small-Cell Lung Cancer.

通过基于刺激响应的树突状聚合物的纳米混合物进行靶向药物/基因/光动力治疗，用于治疗 EGFR-TKI 耐药的非小细胞肺癌。