【标题速读】【Advmat】【2022年】【4月】

2023-07-12 00:01 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。

Hydrogel Actuators

Biochemical circuits regulate the movement of living organisms. In article number 2106816, Sergey N. Semenov and co-workers use a synthetic chemical reaction network based on thiols to regulate hydrogel actuators. The signal inducing the actuation is propagated by the autocatalytic front of the thiols. It can jump from one actuator to another or be initiated by the chemical circuit with preprogrammed delay.

水凝胶执行器

生化回路调节生物体的运动。在第 2106816 号文章中，Sergey N. Semenov 及其同事使用基于硫醇的合成化学反应网络来调节水凝胶执行器。诱导驱动的信号由硫醇的自催化前端传播。它可以从一个执行器跳到另一个执行器，或者由具有预编程延迟的化学电路启动。

Immunotherapy

In article number 2106350, Dan Peer and co-workers propose a strategy to boost chemo-immunotherapy by using a dual cell-targeted lipid nanotherapeutic boost. With this approach, chemo-induced immunogenic cancer cell death is increased, tumor myeloid cell is reprogrammed, and cytotoxic T cell is recruited, which consequently improves responsiveness to immunotherapy.

免疫疗法

在第 2106350 号文章中，Dan Peer 及其同事提出了一种通过使用双细胞靶向脂质纳米治疗增强剂来增强化学免疫治疗的策略。通过这种方法，化疗诱导的免疫原性癌细胞死亡增加，肿瘤骨髓细胞被重新编程，并招募细胞毒性 T 细胞，从而提高对免疫治疗的反应性。

Nanosprings

In article number 2108419, Ziyao Zhou, Houbing Huang, Yong Peng, Ming Liu, and co-workers report freestanding, epitaxial, ferroelectric nanosprings with superscalability, which provide insights regarding mechanical behaviors and domain evolution of ferroelectric oxide springs. The excellent scalability originates from the continuous ferroelastic domain structures, resulting from twisting under coexisting axial and shear strains. The superstretchable, elastic, and recoverable oxide spring provides a novel platform to flexible electronics.

纳米弹簧

在第 2108419 号文章中，Ziyao Zhou、Houbing Huang、Yong Peng、Ming Liu 及其同事报告了具有超可扩展性的独立式外延铁电纳米弹簧，这提供了有关铁电氧化物弹簧的机械行为和域演化的见解。优异的可扩展性源于连续的铁弹性域结构，该结构是由共存的轴向应变和剪切应变下的扭曲产生的。超拉伸、弹性和可恢复的氧化物弹簧为柔性电子产品提供了一个新颖的平台。

Microlasers

A self-assembled CdSe/CdS@Cd1-xZnxS core/buffer-shell@graded-shell nanoplatelets whispering-gallery-mode microlaser with ultralow lasing threshold, high quality factor, and stable single-frequency operation is proposed by Jun Yang, Van Duong Ta, Handong Sun in article number 2108884. The results highlight the significance of interface engineering on the optimization of gain properties of heterostructured nanomaterials and shed light on developing future miniaturized tunable coherent light sources.

微型激光器

Jun Yang, Van Duong 提出了一种自组装 CdSe/CdS@Cd1-xZnxS 核/缓冲壳@分级壳纳米片回音壁模式微型激光器，具有超低激光阈值、高品质因数和稳定的单频运行。Ta，Handong Sun，文章编号 2108884。研究结果强调了界面工程对异质结构纳米材料增益性能优化的重要性，并为开发未来小型化可调谐相干光源提供了线索。

Solid Electrolyte Interphase

The solid electrolyte interphase (SEI) plays a critical role in determining the cycling stability of lithium-metal anodes. However, viewing the SEI in batteries remains extremely challenging due to its supersensitivity to the electron beam under a microscope. In article number 2108252, Ju Li, Meng Gu, and co-workers develop an ultralow-dosage cryo-TEM protocol to directly visualize the SEI in 3D at different charging states, revealing surprising and fundamentally significant results for the SEI. The optimized chemo-mechanical properties of the SEI contribute significantly to the superior performances of Li-metal batteries.

固体电解质界面

固体电解质界面（SEI）在决定锂金属负极的循环稳定性方面起着至关重要的作用。然而，由于电池对显微镜下的电子束具有超敏感性，观察电池中的 SEI 仍然极具挑战性。在第 2108252 号文章中，Ju Li、Meng Gu 及其同事开发了一种超低剂量冷冻 TEM 协议，可直接在不同充电状态下以 3D 方式可视化 SEI，揭示了 SEI 的令人惊讶且具有根本意义的结果。 SEI 优化的化学机械性能对锂金属电池的卓越性能做出了重大贡献。

Supramolecular Hydrogels

In article number 2108300, Hang Zhao, Xianglong Han, Qianming Chen, and co-workers introduce a high-strength and injectable supramolecular hydrogel, which was constructed by the self-assembly of a monomeric nucleoside molecular gelator (2-amino-2'-fluoro-2'-deoxyadenosine, 2-FA). Notably, it also exhibits excellent biocompatibility, fast biodegradation, antibacterial properties, and osteoclast inhibition, making it a potential candidate biomaterial for tooth-extraction wound healing and tissue engineering.

超分子水凝胶

在第2108300号文章中，赵航、韩翔龙、陈千明及其同事介绍了一种高强度、可注射的超分子水凝胶，该水凝胶是通过单体核苷分子凝胶剂（2-氨基-2'- 氟-2'-脱氧腺苷，2-FA)。值得注意的是，它还表现出优异的生物相容性、快速生物降解、抗菌特性和破骨细胞抑制作用，使其成为拔牙伤口愈合和组织工程的潜在候选生物材料。

Neurochemical Analyzers

In article number 2108203, Chul-Ho Lee, Dong Pyo Jang, Suk-Won Hwang, and co-workers demonstrate a soft, wireless, and bioresorbable neurochemical system that is designed to determine various concentrations of neurotransmitters as well as to monitor peripheral physiologies in a simultaneous manner. Such technology is motivated by the need for assessment and treatment of postoperative complications that may occur over a certain period of time after neurological surgeries.

神经化学分析仪

在文章编号 2108203 中，Chul-Ho Lee、Dong Pyo Jang、Suk-Won Hwang 及其同事展示了一种软、无线和生物可吸收的神经化学系统，该系统旨在确定神经递质的各种浓度并监测周围生理学。同时的方式。此类技术的动机是需要评估和治疗神经外科手术后一段时间内可能发生的术后并发症。

Photocatalytic CO2 Reduction

In article number 2109330, Zhenyi Zhang and co-workers report plasmonic active “hot spot”-confined photocatalytic CO2 reduction over a well-designed Au/TiO2/W18O49 plasmonic heterostructure. The active “hot spot” can synergistically confine hot electrons, CO, and protons, thereby leading to high photocatalytic activity and selectivity for CH4 production.

光催化二氧化碳减排

在第 2109330 号文章中，Zhenyi 张及其同事报告了在精心设计的 Au/TiO2/W18O49 等离子体异质结构上的等离子体活性“热点”限制光催化 CO2 还原。活性“热点”可以协同限制热电子、CO和质子，从而产生高光催化活性和CH4生产选择性。

Sodium-Ion Batteries

Cathode materials are decisive for the development of sodium-ion batteries (SIBs). In article number 2110108, Xing-Long Wu and co-workers present a high-entropy Na3V2(PO4)2F3-based cathode for advanced SIBs. The high-entropy effect endows this cathode material with a lowered Na+ migration barrier and enhanced electronic conductivity, which jointly promote charge transport and sodium-storage ability in the phosphate cathode, thereby enhancing the average operating voltage and energy density of the SIB.

钠离子电池

阴极材料对钠离子电池的发展起着决定性的作用。在第2110108号文章中，吴兴龙及其同事提出了一种用于先进SIB的高熵Na3V2（PO4）2F3基阴极。高熵效应赋予这种阴极材料降低的Na+迁移势垒和增强的电子导电性，共同促进了磷酸盐阴极中的电荷传输和钠存储能力，从而提高了SIB的平均工作电压和能量密度。

Sodium-Metal Batteries

In article number 2109767, Byung-Hyun Kim, Bumjoon J. Kim, Seung Woo Lee, and co-workers report anode-free sodium-metal batteries. The cover image depicts two batteries: the left shows typical sodium-metal batteries, where the continuous dendrite growth in the sodium-metal anodes causes a short-circuit, resulting in battery failure. Contrarily, the right shows highly reversible porous carbon hosts with carbon-shell-coated Fe nanoparticles for the sodium-metal anode, allowing superior cycling performance and improving the energy density of the batteries.

钠金属电池

在第 2109767 号文章中，Byung-Hyun Kim、Bumjoon J. Kim、Seung Woo Lee 及其同事报告了无阳极钠金属电池。封面图片描绘了两种电池：左侧显示了典型的钠金属电池，其中钠金属阳极中的连续枝晶生长导致短路，从而导致电池故障。相反，右图显示了高度可逆的多孔碳主体，其碳壳包覆的铁纳米颗粒用于钠金属阳极，可实现优异的循环性能并提高电池的能量密度。

Nanomedicine

In article number 2107506, Xinyi Jiang and co-workers introduce an inhaled nanoformulation that is developed with biogenic ribosomal protein for mRNA delivery. The variety of isoelectric points of ribosomal proteins endows them with flexible positive charge properties, by which negatively charged mRNA is efficiently condensed to form a nanocomplex in a biomimetic fashion.

纳米医学

在第 2107506 号文章中，Xinyi Jiang 及其同事介绍了一种吸入纳米制剂，该制剂是用生物核糖体蛋白开发的，用于 mRNA 递送。核糖体蛋白等电点的多样性赋予它们灵活的正电荷特性，通过这种特性，带负电荷的mRNA以仿生方式有效凝聚形成纳米复合物。

Zinc-Metal Batteries

In article number 2110047, Hongpeng Li, Lichao Tan, Zhongwei Chen and co-workers report a novel 3D host for Zn-metal anodes fabricated by assembling carbon nanotubes and graphene into a hierarchical porous structure, followed by decorating with Zn metal–organic framework (Zn-MOF) derivatives. The mechanically robust 3D host with high zincophilicity and conductivity could address the issues of dendrite growth, thereby enabling high-energy-density Zn-metal batteries.

锌金属电池

在第 2110047 号文章中，Hongpeng Li、Lichao Tan、Zhongwei Chen 及其同事报告了一种新型 3D 锌金属阳极主体，该材料通过将碳纳米管和石墨烯组装成分层多孔结构，然后用锌金属有机框架进行装饰（ Zn-MOF)衍生物。机械坚固的3D主体具有高亲锌性和导电性，可以解决枝晶生长的问题，从而实现高能量密度的锌金属电池。

Volumetric Bioprinting

Volumetric bioprinting shapes organoid-laden constructs into centimeter-scale assemblies that mimic native liver function. In article number 2110054, Riccardo Levato and co-workers report the development of a hydrogel-based bioresin with tunable optical properties to minimize scattering in light-based printing and ensure high resolution. Organoid viability and maturation is preserved by the shear-stress-free printing, and salient liver functions mature in response to the 3D bioprinted architecture.

体积生物打印

体积生物打印将充满类器官的结构塑造成模仿天然肝功能的厘米级组件。在第 2110054 号文章中，Riccardo Levato 及其同事报告了一种基于水凝胶的生物树脂的开发，该生物树脂具有可调节的光学特性，可最大限度地减少光打印中的散射并确保高分辨率。无剪切应力打印保留了类器官的活力和成熟度，并且显着的肝功能响应 3D 生物打印结构而成熟。

Conformal Amorphous Carbon

Ultrathin Cu diffusion barriers with high conformality have gained great attention for next-generation ultrahigh-density semiconductor device miniaturization. In article number 2110454, Sun Hwa Lee, Rodney S. Ruoff, Ki-Bum Kim, Sang Ouk Kim, and co-workers introduce a handy and reliable method for the preparation of conformal amorphous carbon (a-C) barrier layers with nanometer-level thickness. A polystyrene brush layer is grafted onto a 3D copper structure with self-limiting chemistry, and subsequent carbonization yields large-area uniform 1 nm-level a-C layers with excellent Cu blocking performance.

共形非晶碳

具有高共形性的超薄铜扩散势垒在下一代超高密度半导体器件小型化方面受到了广泛关注。在文章编号 2110454 中，Sun Hwa Lee、Rodney S. Ruoff、Ki-Bum Kim、Sang Ouk Kim 及其同事介绍了一种方便可靠的方法，用于制备纳米级厚度的共形非晶碳 (a-C) 阻挡层。将聚苯乙烯刷层接枝到具有自限性化学的3D铜结构上，随后的碳化产生大面积均匀的1 nm级a-C层，具有优异的Cu阻挡性能。

4D Bioprinting

For bioprinting of 4D living tissues, in article number 2109394, Eben Alsberg and co-workers devise a cell-laden bioink featuring high-resolution printing, physiological-trigger-enabled shape morphing, and long-term cell viability and function. With this system, they demonstrate that the printed cell-rich bioconstructs can exert multidirectional reshaping in a controlled manner and transform and develop into tissues with sophisticated structures. The system is anticipated to advance bioprinting to a horizon that enables 4D biomimetic tissue engineering.

4D生物打印

对于 4D 活体组织的生物打印，在文章编号 2109394 中，Eben Alsberg 和同事设计了一种充满细胞的生物墨水，具有高分辨率打印、生理触发形状变形以及长期细胞活力和功能。通过该系统，他们证明了打印的富含细胞的生物结构可以以受控的方式进行多向重塑，并转化和发育成具有复杂结构的组织。该系统预计将推动生物打印技术迈向 4D 仿生组织工程的新境界。

Multifunctional Logic Circuits

In article number 2109491, Yutaka Wakayama and co-workers demonstrate electrically reconfigurable organic logic circuits using a dual-gate anti-ambipolar transistor. The transistor shows a negative differential transconductance even at room temperature. This unique feature achieves five two-input logic gate operations with “only a transistor”. Such logic operations are not obtainable in conventional transistors. The device concept will provide a way of realizing multifunctional organic logic circuits using a simple circuit design.

多功能逻辑电路

在文章编号 2109491 中，Yutaka Wakayama 及其同事演示了使用双栅极反双极晶体管的电可重构有机逻辑电路。即使在室温下，晶体管也表现出负差分跨导。这一独特功能“仅用一个晶体管”实现了五个二输入逻辑门操作。这种逻辑运算在传统晶体管中是无法实现的。该器件概念将提供一种使用简单的电路设计来实现多功能有机逻辑电路的方法。

Exciton Linewidth

Due to strong multiparticle interactions in 2D transition metal dichalcogenides at room temperature, their homogeneous exciton linewidths are significantly broadened, degrading the quality of their excitonic mode and emission. In article number 2108721, Yuebing Zheng and co-workers achieve near-intrinsic exciton linewidth in monolayer WS2 at room temperature, approaching the theoretical limit at 0 K. A dielectric nanosphere is designed to boost the dynamic competition between exciton and trion decay channels, rebuilding the excitonic relaxation processes with suppressed exciton nonradiative recombination.

激子线宽

由于室温下二维过渡金属二硫属化物中强烈的多粒子相互作用，它们的均匀激子线宽显着变宽，降低了其激子模式和发射的质量。在文章编号 2108721 中，Yuebing Cheng 及其同事在室温下在单层 WS2 中实现了近本征激子线宽，接近 0 K 时的理论极限。介电纳米球旨在增强激子和 Trion 衰变通道之间的动态竞争，重建激子弛豫过程与抑制激子非辐射复合。

Ferroelectric Field-Effect Transistors

In article number 2200032, Hang Luo, Jian Sun, and co-workers report how a ferroelectric field-effect transistor (FeFET) can work as both a hysteresis-free low-power-consumption negative-capacitance field-effect transistor and a memory device for neural computing. The functions are reconfigured and controlled by modulating the behaviors of the interfacial oxygen vacancies. The frontispiece shows the chips consisting of the reconfigurable FeFET devices.

铁电场效应晶体管

在2200032号文章中，Hang Luo、Jian Sun及其同事报道了铁电场效应晶体管（FeFET）如何作为无磁滞低功耗负电容场效应晶体管和用于神经计算的存储设备工作。通过调节界面氧空位的行为来重新配置和控制功能。正面展示了由可重新配置的FeFET器件组成的芯片。

Functional Hydrogels

In article number 2109178, Jianxiang Zhang, Xiaodong Li, and co-workers report functional hydrogels transformed from nanoparticles in response to a physiologically and pathologically acidic microenvironment, which can be used for tissue injury protection and treatment of inflammatory diseases by triggerable and sustained delivery of therapeutic agents.

功能性水凝胶

在文章编号2109178中，张建祥、李晓东及其同事报道了由纳米颗粒转化的功能性水凝胶对生理和病理酸性微环境的响应，其可通过触发和持续递送治疗剂用于组织损伤保护和治疗炎症性疾病。

Biocatalysts

In article number 2200255, Yi Wang, Li Qiu, Chong Cheng, and co-workers report a library of reactive oxygen species (ROS)-catalytic metalloenzyme-mimics with different types of atomic metal centers; the catalytic activities, substrate selectivities, and ROS products are compared. These biocatalysts show high ROS-catalytic performances and it is found that the catalytic activities are highly related to the electronic structures of the metal centers.

生物催化剂

在文章编号 2200255 中，Yi Wang、Li Qiu、Chong Cheng 及其同事报告了具有不同类型原子金属中心的活性氧 (ROS) 催化金属酶模拟物库；比较催化活性、底物选择性和 ROS 产物。这些生物催化剂表现出较高的ROS催化性能，并且发现催化活性与金属中心的电子结构高度相关。

Oxygen Evolution Reaction

In article number 2110552, Aleksandar Staykov, Miho Yamauchi, and co-workers report that Au-cluster-loaded unillamellar hydroxide catalysts drastically enhance the electrochemical oxygen evolution reaction (OER). The electronic sates of a catalytic site can be finely tuned by the formation of a Au-cluster–hydroxide interface for the OER. Theoretical and advanced spectroscopic study advocates the cooperative mechanism of charge transfer and direct O–O coupling evoked at the interface.

析氧反应

在文章编号 2110552 中，Aleksandar Staykov、Miho Yamauchi 及其同事报告称，负载 Au 簇的单层氢氧化物催化剂可显着增强电化学析氧反应 (OER)。催化位点的电子状态可以通过形成 OER 的金簇-氢氧化物界面来微调。理论和先进的光谱研究主张电荷转移和界面处直接 O-O 耦合的协同机制。

Sustainable Optics

Ores are everywhere on our earth and other planets, and many of them possess layered structures. In article 2110464, Baofu Ding, Bilu Liu, and co-workers develop a seawater-assisted green method to produce 2D minerals in large quantities from bulky ores. These 2D minerals are used as inorganic liquid crystals for color optics. This work creates novel opportunities of using abundant naturally minerals for advanced technological applications.

可持续光学

矿石在我们的地球和其他行星上随处可见，其中许多具有层状结构。在文章 2110464 中，Baofu Ding、Bilu Liu 和同事开发了一种海水辅助的绿色方法，可以从大块矿石中大量生产二维矿物。这些二维矿物用作彩色光学的无机液晶。这项工作为利用丰富的天然矿物质进行先进技术应用创造了新的机会。

Artificial Nerve Fibers

Artificial nerve fibers with self-healing ability and stretchability in a cryogenic environment help construct fast and complex information interaction networks for bionic intelligent robots, as described by Zhou Li and co-workers in article number 2105416. Once accidental mechanical damage to the robot occurs, the artificial nerve fibers can autonomously recover their function and appearance in a short time. This is essential for robots to complete tasks in dynamic extreme environments.

人工神经纤维

正如周力及其同事在文章编号2105416中所述，在低温环境下具有自愈能力和可拉伸性的人造神经纤维有助于为仿生智能机器人构建快速且复杂的信息交互网络。一旦机器人发生意外机械损伤，人工神经纤维可以在短时间内自主恢复其功能和外观。这对于机器人在动态极端环境中完成任务至关重要。

Layered Hybrid Perovskites

Mechanical pressure can be a tool for tailoring optoelectronic properties of layered hybrid perovskites without changing their composition. In article number 2108720, Bruno Ehrler, Jovana V. Milić, and co-workers demonstrate that Dion–Jacobson and Ruddlesden–Popper perovskites based on 1,4-phenylenedimethylammonium and benzylammonium spacers show reversible mechanochromism in the 0–0.35 GPa pressure range due to a structural interplay between the organic spacer and the inorganic framework, expanding the perspectives for their future applications.

层状杂化钙钛矿

机械压力可以成为调整层状杂化钙钛矿光电特性而不改变其成分的工具。在文章编号 2108720 中，Bruno Ehrler、Jovana V. Milić 及其同事证明，基于 1,4-亚苯基二甲基铵和苄基铵间隔基的 Dion-Jacobson 和 Ruddlesden-Popper 钙钛矿在 0-0.35 GPa 压力范围内表现出可逆的机械变色现象，这是由于有机间隔物和无机框架之间的结构相互作用，扩展了其未来应用的前景。

Dehumidification

Dehumidification is significant for environmental sustainability and human health. In article number 2200865, Wenshuai Chen, Guihua Yu, and co-workers report the development of a nanostructured moisture-absorbing gel by integration of hygroscopic lithium salt and hydrophilic nanocellulose networks. The gel maintains a large hygroscopic active area for capturing water from air, and thus exhibits super-moisture-absorption ability. Even in a space with a volume over 20 000 times of its own, it demonstrates fast dehumidification without energy input and environment pollution.

除湿

除湿对于环境可持续性和人类健康具有重要意义。在第 2200865 号文章中，Wenshuai Chen、Guihua Yu 及其同事报告了通过整合吸湿性锂盐和亲水性纳米纤维素网络开发的纳米结构吸湿凝胶。该凝胶保持较大的吸湿活性面积，可从空气中捕获水分，从而表现出超强的吸湿能力。即使在体积超过自身20000倍的空间内，也能快速除湿，无需能源输入，不污染环境。

Half Metals

In article number 2200626, Yi-feng Yang, Youwen Long, and co-workers report a new half metal synthesized by a unique high-pressure and high-temperature method. The compound exhibits a record-high Curie temperature up to 710 K in perovskite oxides combined with a wide spin-up energy bandgap and large saturated moment. The superior synthetic performance makes it promising for spintronic applications.

半金属

在第 2200626 号文章中，Yi-feng Yang、Youwen Long 及其同事报告了一种通过独特的高压高温方法合成的新型半金属。该化合物在钙钛矿氧化物中表现出高达 710 K 的创纪录高居里温度，同时具有宽自旋能带隙和大饱和矩。优异的合成性能使其在自旋电子学应用中具有广阔的前景。

Intracellular Mechanical Drugs

Today it is incontestable that cell mechanics is as important as cell biochemistry. However, although there is a plethora of biochemical drugs to study and treat cells, there is a lack of their mechanical counterparts. In article number 2109581, Teresa Suárez, José A. Plaza, and co-workers propose silicon chips as intracellular mechanical drugs to study how intracellular mechanical cues define cell function and fate with even future therapeutic potential applications.

细胞内机械药物

如今，细胞力学与细胞生物化学同样重要，这是无可争议的。然而，尽管有大量的生化药物用于研究和治疗细胞，但缺乏相应的机械药物。在文章编号 2109581 中，Teresa Suárez、José A. Plaza 及其同事提出将硅芯片作为细胞内机械药物，以研究细胞内机械线索如何定义细胞功能和命运，甚至在未来的治疗潜在应用中。

Artificial Enzymes

In article number 2108646, Lang Ma, Chong Cheng, Li Qiu, and co-workers report a new vanadium-based artificial enzyme (VOx-AE) for efficient reactive oxygen species (ROS)-catalysis by modulating the d electrons in the active centers via a unique Zn–O–V bridge structure. The VOx-AE exhibits enhanced ROS catalytic activity, augmented eradication of drug-resistant bacteria, and comparable wound treatment indexes to antibiotics.

人工酶

在文章编号2108646中，Lang Ma、Chong Cheng、Li Qiu及其同事报道了一种新的钒基人工酶（VOx AE），通过独特的Zn–O–V桥结构调节活性中心的d电子，用于有效的活性氧（ROS）催化。VOx-AE表现出增强的ROS催化活性，增强了对耐药细菌的根除，伤口治疗指标与抗生素相当。

1.Theory of Chirality Induced Spin Selectivity: Progress and Challenges.

手性诱导自旋选择性理论：进展与挑战。

2.Recent Advances in Oxidation Stable Chemistry of 2D MXenes.

2D MXene 氧化稳定化学的最新进展。

3.Cellular Nanosponges for Biological Neutralization.

用于生物中和的细胞纳米海绵。

4.Efficiency of Polymer Light-Emitting Diodes: A Perspective.

聚合物发光二极管的效率：视角。

5.Spatiotemporal Regulation of Hydrogel Actuators by Autocatalytic Reaction Networks.

自催化反应网络对水凝胶执行器的时空调节。

6.Dual-Targeted Lipid Nanotherapeutic Boost for Chemo-Immunotherapy of Cancer.

双靶点脂质纳米治疗促进癌症的化学免疫治疗。

7.Self-Assembled Epitaxial Ferroelectric Oxide Nanospring with Super-Scalability.

具有超可扩展性的自组装外延铁电氧化物纳米弹簧。

8.Ultralow-Threshold and High-Quality Whispering-Gallery-Mode Lasing from Colloidal Core/Hybrid-Shell Quantum Wells.

来自胶体核/混合壳量子井的超低阈值和高质量耳语廊模式激光。

9.Cryo-Electron Tomography of Highly Deformable and Adherent Solid-Electrolyte Interphase Exoskeleton in Li-Metal Batteries with Ether-Based Electrolyte.

具有醚基电解质的锂金属电池中高度可变形和粘附的固体电解质界面外骨架的冷冻电子断层扫描。

10.High-Strength and Injectable Supramolecular Hydrogel Self-Assembled by Monomeric Nucleoside for Tooth-Extraction Wound Healing.

由单体核苷自组装的高强度可注射超分子水凝胶，用于拔牙伤口愈合。

11.In Situ Carbon Corrosion and Cu Leaching as a Strategy for Boosting Oxygen Evolution Reaction in Multimetal Electrocatalysts.

原位碳腐蚀和铜浸出作为促进多金属电催化剂中析氧反应的策略。

12.An Energy-Storing DNA-Based Nanocomplex for Laser-Free Photodynamic Therapy.

一种基于 DNA 的能量储存纳米复合物，用于无激光光动力疗法。

13.Heterometallic Benzenehexathiolato Coordination Nanosheets: Periodic Structure Improves Crystallinity and Electrical Conductivity.

异金属苯六硫醇配位纳米片：周期性结构提高结晶度和导电性。

14.Quasi-2D Perovskite Crystalline Layers for Printable Direct Conversion X-Ray Imaging.

用于可打印直接转换 X 射线成像的准二维钙钛矿晶体层。

15.A Facile “Double-Catalysts” Approach to Directionally Fabricate Pyridinic NB-Pair-Doped Crystal Graphene Nanoribbons/Amorphous Carbon Hybrid Electrocatalysts for Efficient Oxygen Reduction Reaction.

一种简便的“双催化剂”方法，可定向制造吡啶NB对掺杂晶体石墨烯纳米带/非晶碳杂化电催化剂，用于高效的氧还原反应。

16.Highly Active and Durable Single-Atom Tungsten-Doped NiS0.5Se0.5 Nanosheet @ NiS0.5Se0.5 Nanorod Heterostructures for Water Splitting.

用于水分解的高活性和耐用单原子掺钨 NiS0.5Se0.5 纳米片 @ NiS0.5Se0.5 纳米棒异质结构。

17.Electrical Tuning of Plasmonic Conducting Polymer Nanoantennas.

等离激元导电聚合物纳米天线的电调谐。

18.A Fully Flexible Intelligent Thermal Touch Panel Based on Intrinsically Plastic Ag2S Semiconductor.

基于本质塑料 Ag2S 半导体的全柔性智能热触摸面板。

19.Transforming the Chemical Structure and Bio-Nano Activity of Doxorubicin by Ultrasound for Selective Killing of Cancer Cells.

通过超声波改变阿霉素的化学结构和生物纳米活性以选择性杀死癌细胞。

20.Engineering Multienzyme-Mimicking Covalent Organic Frameworks as Pyroptosis Inducers for Boosting Antitumor Immunity.

工程模拟多酶共价有机框架作为焦亡诱导剂以增强抗肿瘤免疫。

21.Stabilizing Layered Structure in Aqueous Electrolyte via Dynamic Water Intercalation/Deintercalation.

通过动态水嵌入/脱嵌稳定水电解质中的层状结构。

22.Phase-Field Simulations of Tunable Polar Topologies in Lead-Free Ferroelectric/Paraelectric Multilayers with Ultrahigh Energy-Storage Performance.

具有超高储能性能的无铅铁电/顺电多层膜中可调谐极性拓扑的相场模拟。

23.Electrically Programmable Interfacial Adhesion for Ultrastrong Hydrogel Bonding.

用于超强水凝胶粘合的电可编程界面粘合力。

24.Star-Polymer–DNA Gels Showing Highly Predictable and Tunable Mechanical Responses.

星形聚合物-DNA 凝胶显示出高度可预测和可调节的机械响应。

25.Bistability, Remanence, Read/Write-Memory, and Logic Gate Function via a Stimuli-Responsive Polymer.

通过刺激响应聚合物实现双稳态、剩磁、读/写存储器和逻辑门功能。

26.A Biomimetic Human Lung-on-a-Chip with Colorful Display of Microphysiological Breath.

具有微生理呼吸彩色显示的仿生人肺芯片。

27.Direct Synthesis of Photosensitizable Bacterial Cellulose as Engineered Living Material for Skin Wound Repair.

直接合成光敏细菌纤维素作为皮肤伤口修复的工程活性材料。

28.Shape-Changing DNA-Linked Nanoparticle Films Dictated by Lateral and Vertical Patterns.

由横向和垂直图案决定的变形 DNA 连接纳米颗粒薄膜。

29.Enabling Fast Na+ Transfer Kinetics in the Whole-Voltage-Region of Hard-Carbon Anodes for Ultrahigh-Rate Sodium Storage.

在硬碳阳极的全电压区域实现快速 Na+ 传输动力学，以实现超高速率钠存储。

30.A Tissue Adhesion-Controllable and Biocompatible Small-Scale Hydrogel Adhesive Robot.

组织粘附可控且生物相容的小型水凝胶粘附机器人。

31.High-Performance Ternary Perovskite–Organic Solar Cells.

高性能三元钙钛矿有机太阳能电池。

32.Artificial Heterogeneous Interphase Layer with Boosted Ion Affinity and Diffusion for Na/K-Metal Batteries.

具有增强钠/钾金属电池离子亲和力和扩散能力的人工异质中间层。

33.Solution-Deposited and Patternable Conductive Polymer Thin-Film Electrodes for Microbial Bioelectronics.

用于微生物生物电子学的溶液沉积和可图案化导电聚合物薄膜电极。

34.Realizing 19.05% Efficiency Polymer Solar Cells by Progressively Improving Charge Extraction and Suppressing Charge Recombination.

通过逐步改进电荷提取和抑制电荷复合，实现 19.05% 效率的聚合物太阳能电池。

35.Synergetic Anion Vacancies and Dense Heterointerfaces into Bimetal Chalcogenide Nanosheet Arrays for Boosting Electrocatalysis Sulfur Conversion.

双金属硫族化物纳米片阵列中的协同阴离子空位和致密异质界面可促进电催化硫转化。

36.High-Z-Sensitized Radiotherapy Synergizes with the Intervention of the Pentose Phosphate Pathway for In Situ Tumor Vaccination.

高 Z 敏化放射治疗与戊糖磷酸途径的干预协同作用，用于原位肿瘤疫苗接种。

37.Scalable Growth of Organic Single-Crystal Films via an Orientation Filter Funnel for High-Performance Transistors with Excellent Uniformity.

通过定向过滤漏斗可扩展生长有机单晶薄膜，以实现具有出色均匀性的高性能晶体管。

38.Achieving Remarkable Charge Density via Self-Polarization of Polar High-k Material in a Charge-Excitation Triboelectric Nanogenerator.

通过电荷激励摩擦纳米发电机中极性高 k 材料的自极化实现显着的电荷密度。

39.Alternate Storage of Opposite Charges in Multisites for High-Energy-Density Al–MOF Batteries.

高能量密度 Al-MOF 电池多位点相反电荷的交替存储。

40.Crystalline-Amorphous Interfaces Coupling of CoSe2/CoP with Optimized d-Band Center and Boosted Electrocatalytic Hydrogen Evolution.

CoSe2/CoP 的晶体-非晶界面耦合与优化的 d 带中心和增强的电催化析氢。

41.Graphitic Aza-Fused π-Conjugated Networks: Construction, Engineering, and Task-Specific Applications.

石墨 Aza 融合 π 共轭网络：构建、工程和特定任务应用。

42.Designing Next Generation of Persistent Luminescence: Recent Advances in Uniform Persistent Luminescence Nanoparticles.

设计下一代持久发光：均匀持久发光纳米颗粒的最新进展。

43.Growth of 2D Materials at the Wafer Scale.

晶圆级二维材料的生长。

44.Advancing the Mechanical Performance of Glasses: Perspectives and Challenges.

提高眼镜的机械性能：前景和挑战。

45.Hetero-Integration of Silicon Nanomembranes with 2D Materials for Bioresorbable, Wireless Neurochemical System.

硅纳米膜与二维材料的异质集成，用于可生物吸收的无线神经化学系统。

46.Plasmonic Active “Hot Spots”-Confined Photocatalytic CO2 Reduction with High Selectivity for CH4 Production.

等离子体活性“热点”——高选择性限制光催化 CO2 还原，生产 CH4。

47.An Advanced High-Entropy Fluorophosphate Cathode for Sodium-Ion Batteries with Increased Working Voltage and Energy Density.

一种用于钠离子电池的先进高熵氟磷酸盐阴极，具有更高的工作电压和能量密度。

48.A 3D Hierarchical Host with Enhanced Sodiophilicity Enabling Anode-Free Sodium-Metal Batteries.

具有增强亲钠性的 3D 分层主机，可实现无阳极钠金属电池。

49.Inhaled mRNA Nanoformulation with Biogenic Ribosomal Protein Reverses Established Pulmonary Fibrosis in a Bleomycin-Induced Murine Model.

吸入含有生物核糖体蛋白的 mRNA 纳米制剂可逆转博来霉素诱导的小鼠模型中已形成的肺纤维化。

50.Micro-Scale Auxetic Hierarchical Mechanical Metamaterials for Shape Morphing.

用于形状变形的微尺度拉胀分层机械超材料。

51.From p- to n-Type Mixed Conduction in Isoindigo-Based Polymers through Molecular Design.

通过分子设计从异靛蓝聚合物中的 p 型到 n 型混合传导。

52.A Water-Soluble Organic Photocatalyst Discovered for Highly Efficient Additive-Free Visible-Light-Driven Grafting of Polymers from Proteins at Ambient and Aqueous Environments.

一种水溶性有机光催化剂，可用于在环境和水环境中高效无添加剂的可见光驱动的蛋白质接枝聚合物。

53.A Self-Powered Dual-Type Signal Vector Sensor for Smart Robotics and Automatic Vehicles.

用于智能机器人和自动车辆的自供电双型信号矢量传感器。

54.Highly Efficient Cellular Acoustic Absorber of Graphene Ultrathin Drums.

石墨烯超薄鼓的高效蜂窝吸声器。

55.Diverging Expressions of Anharmonicity in Halide Perovskites.

卤化物钙钛矿中非和谐性的不同表达。

56.Room-Temperature Ferromagnetism in Perylene Diimide Organic Semiconductor.

苝二酰亚胺有机半导体中的室温铁磁性。

57.Catalytic Kinetics Regulation for Enhanced Electrochemical Nitrogen Oxidation by Ru-Nanoclusters-Coupled Mn3O4 Catalysts Decorated with Atomically Dispersed Ru Atoms.

用原子分散的 Ru 原子修饰的 Ru-纳米团簇耦合 Mn3O4 催化剂增强电化学氮氧化的催化动力学调节。