【标题速读】【AdFM】【2022年】【12月】

2023-08-13 21:11 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。

1.Solid Oxide Electrochemical Cells

In article number 2207725, Kang Taek Lee, Ha-Ni Im, and Hyeongmin Yu, report the fabrication of a highly conductive, ultra-thin (250 nm), and defect-free Sm0.075Nd0.075Ce0.85O2−δ (SNDC) interlayer via readily processable gelatin-assisted deposition. The solid oxide electrochemical cells (SOCs) with this SNDC interlayer exhibited exceptionally high electrochemical performances both in the fuel cell (3.34 W cm−2) and electrolysis mode (2.1 A cm−2 at 1.3V) at 750 °C.

固体氧化物电化学电池

在文章编号 2207725 中，Kang Taek Lee、Ha-Ni Im 和 Hyeongmin Yu 报道了高导电性、超薄（250 nm）和无缺陷的 Sm0.075Nd0.075Ce0.85O2 的制造-通过易于加工的明胶辅助沉积形成δ (SNDC) 中间层。具有该SNDC中间层的固体氧化物电化学电池（SOC）在750 ℃下在燃料电池（3.34 W cm - 2）和电解模式（ 1.3V下2.1 A cm - 2 ）下均表现出极高的电化学性能。

2.Less is More

In article number 2205909, Janusz Lewiński, Chang Kook Hong, and co-workers demonstrate a novel approach to low-temperature processable and inherently pure ZnO electron transport layer (ETL) for highly stable planar heterojunction perovskite solar cells (PSCs) based on organic ligand-free ZnO quantum dots. The champion PSC achieved a power conversion efficiency of 20.05%, the state-of-the-art performance among reported non-passivated pure-ZnO ETL-based PSCs.

少即是多

在文章编号 2205909 中，Janusz Lewiński、Chang Kook Hong 及其同事展示了一种可低温加工且本质纯的 ZnO 电子传输层 (ETL) 的新方法，用于基于高度稳定的平面异质结钙钛矿太阳能电池 (PSC)有机无配体 ZnO 量子点。冠军 PSC 实现了 20.05% 的功率转换效率，这是已报道的非钝化纯 ZnO ETL 基 PSC 中最先进的性能。

3.Ultra-Stable Mxenes

In article number 2203296, Yonghee Lee, Chi Won Ahn, Mu-Hyun Baik, and co-workers demonstrate a simple and powerful strategy in the preservation of titanium carbide MXene (Ti3C2Tx) phases with long-lasting stability in aqueous environments. Pyrrole-functionalized MXenes were found to facilitate anti-oxidation at room temperature over 700 days, at 70 °C over 42 days, and even with a strong oxidizer (H2O2) over 50 days.

超稳定 MXene

在文章编号 2203296 中，Yonghee Lee、Chi Won Ahn、Mu-Hyun Baik 及其同事展示了一种简单而强大的策略，可在水性环境中保存碳化钛 MXene (Ti3C2TX) 相，并具有持久稳定性。研究发现，吡咯功能化的 MXene 在室温下可抗氧化 700 天以上，在 70°C 下可抗氧化 42 天以上，甚至在强氧化剂 (H2O2) 下也可抗氧化 50 天以上。

4.Laser-Induced Secondary Crystallization

In article number 2207206, Rui Chen, Zhipeng Wei, and co-workers systematically investigate the laser-induced secondary crystallization of CsPbBr3 perovskite nanocrystals thin film. Green amplified spontaneous emission with a low threshold and a high net modal gain was achieved after the laser treatment. Moreover, the modified film exhibited excellent amplified spontaneous emission stability in terms of time and temperature.

激光诱导二次结晶

在文章编号 2207206 中，Rui Chen、Zhipeng Wei 及其同事系统地研究了激光诱导 CsPbBr3 钙钛矿纳米晶体薄膜的二次结晶。激光处理后实现了具有低阈值和高净模态增益的绿色放大自发发射。此外，改性薄膜在时间和温度方面表现出优异的放大自发发射稳定性。

5.Hybrid Epidermal Biosensing System

In article number 2208344, Jae Yeong Park and co-workers reported in-depth investigations of electrophysiological parameters with precise glucose level determination using a butterfly inspired hybrid epidermal biosensing (bi-HEB) patch. As a portable smart healthcare monitoring system, the NPC@MXene-based bi-HEB patch was successfully paired with a miniaturized printed circuit board to assess glucose and electrocardiogram of individuals during exercise.

混合表皮生物传感系统

在文章编号 2208344 中，Jae Yeong Park 及其同事报告了使用受蝴蝶启发的混合表皮生物传感 (bi-HEB) 贴片对电生理参数进行了深入研究，并精确测定了葡萄糖水平。作为便携式智能医疗保健监测系统，基于 NPC@MXene 的 bi-HEB 贴片成功与小型化印刷电路板配对，以评估个体运动期间的血糖和心电图。

6.Single-Walled Carbon Nanotubes

In article number 2209688, Gili Bisker, Ayala Lampel and co-workers depict a functional, metal-binding hybrid composed of melanin-inspired material formed by enzymatic oxidative polymerization of Fmoc-tyrosine as surface coverage of single-walled carbon nanotubes (SWCNTs). The SWCNT/melanin-like composite can scavenge and filter metal-ions from solutions, where metal binding to the melanin-like coating is transduced into an optical signal of the SWCNT near-infrared fluorescence.

单壁碳纳米管

在文章编号 2209688 中，Gili Bisker、Ayala Lampel 及其同事描述了一种功能性金属结合杂化物，由黑色素启发的材料组成，该材料通过 Fmoc-酪氨酸的酶促氧化聚合形成，作为单壁碳的表面覆盖纳米管（SWCNT）。 SWCNT/类黑色素复合材料可以清除和过滤溶液中的金属离子，其中与类黑色素涂层结合的金属被转换成SWCNT近红外荧光的光学信号。

7.Topological Designs

In article number 2207393, Jun Chen, Weiqing Yang, Weili Deng and co-workers, developed topological designs to enhance the electromechanical response, for the electrospun piezoelectric membranes, which show a 300% increase in electric output and a 478% increase in frequency response range compared with traditional electrospun membranes. It represents a milestone in designing electrospun membranes for electromechanical conversion and high-performance soft bioelectronics.

拓扑设计

在第 2207393 号文章中，Jun Chen、Weiqing Yang、Weili Deng 及其同事开发了拓扑设计来增强电纺压电膜的机电响应，结果显示电输出增加了 300%，电输出增加了 478%。与传统静电纺膜相比，频率响应范围更大。它代表了设计用于机电转换和高性能软生物电子学的电纺膜的里程碑。

8.Multifunctional 1D Nanostructures toward Future Batteries: A Comprehensive Review.

面向未来电池的多功能一维纳米结构：综合回顾。

9.2D Van der Waals Heterostructures for Chemical Sensing.

用于化学传感的 2D 范德华异质结构。

10.Exceptionally High-Performance Reversible Solid Oxide Electrochemical Cells with Ultrathin and Defect-Free Sm0.075Nd0.075Ce0.85O2-δ Interlayers.

具有超薄且无缺陷的 Sm0.075Nd0.075Ce0.85O2-δ 中间层的超高性能可逆固体氧化物电化学电池。

11.Organic Ligand-Free ZnO Quantum Dots for Efficient and Stable Perovskite Solar Cells.

用于高效稳定钙钛矿太阳能电池的无有机配体 ZnO 量子点。

12.Ultra-Stable Titanium Carbide MXene Functionalized with Heterocyclic Aromatic Amines.

用杂环芳香胺功能化的超稳定碳化钛 MXene。

13.Laser-Induced Secondary Crystallization of CsPbBr3 Perovskite Film for Robust and Low Threshold Amplified Spontaneous Emission.

激光诱导 CsPbBr3 钙钛矿薄膜二次结晶，实现鲁棒、低阈值放大自发发射。

14.A Nanoporous Carbon-MXene Heterostructured Nanocomposite-Based Epidermal Patch for Real-Time Biopotentials and Sweat Glucose Monitoring.

一种基于纳米多孔碳-MXene异质结构纳米复合材料的表皮贴片，用于实时生物电势和汗液葡萄糖监测。

15.Multicomponent System of Single-Walled Carbon Nanotubes Functionalized with a Melanin-Inspired Material for Optical Detection and Scavenging of Metals.

采用黑色素启发材料功能化的单壁碳纳米管多组分系统，用于金属的光学检测和清除。

16.Topological Nanofibers Enhanced Piezoelectric Membranes for Soft Bioelectronics.

用于软生物电子学的拓扑纳米纤维增强压电膜。

17.Versatile Hole Selective Molecules Containing a Series of Heteroatoms as Self-Assembled Monolayers for Efficient p-i-n Perovskite and Organic Solar Cells.

含有一系列杂原子的多功能空穴选择性分子作为自组装单分子层，用于高效 pin 钙钛矿和有机太阳能电池。

18.Inhibiting the Growth of 1D Intermediates in Quasi-2D Ruddlesden−Popper Perovskites.

- Popper 钙钛矿中 1D 中间体的生长。

19.Voltage Control of Patterned Metal/Insulator Properties in Oxide/Oxyfluoride Lateral Perovskite Heterostructures via Ion Gel Gating.

通过离子凝胶门控氧化物/氟氧化物横向钙钛矿异质结构中图案化金属/绝缘体特性的电压控制。

20.Harvesting Electrical Energy from High Temperature Environment by Aerogel Nano-Covered Triboelectric Yarns.

通过气凝胶纳米覆盖摩擦电纱线从高温环境中获取电能。

21.Cellulose-Reinforced Programmable and Stretch-Healable Actuators for Smart Packaging.

用于智能包装的纤维素增强可编程和可拉伸修复执行器。

22.Oxygen Vacancy-Rich Sr2MgSi2O7:Eu2+,Dy3+ Long Afterglow Phosphor as a Round-the-Clock Catalyst for Selective Reduction of CO2 to CO.

富氧空位 Sr2MgSi2O7:Eu2+,Dy3+ 长余辉荧光粉作为全天候催化剂，用于选择性将 CO2 还原为 CO。

23.In-Memory Computing of Multilevel Ferroelectric Domain Wall Diodes at LiNbO3 Interfaces.

LiNbO3 接口多级铁电畴壁二极管的内存计算。

24.A Time-Dependent Fluorescent Hydrogel for “Time-Lock” Information Encryption.

用于“时间锁定”信息加密的时间依赖性荧光水凝胶。

25.A Unified Understanding of Diverse Spin Textures of Kramers–Weyl Fermions in Nonmagnetic Chiral Crystals.

对非磁性手性晶体中克莱默-外尔费米子不同自旋结构的统一理解。

26.Binder-Free Wood Converted Carbon for Enhanced Water Desalination Performance.

无粘合剂木材转化碳可增强海水淡化性能。

27.Deep-Learning-Assisted Noncontact Gesture-Recognition System for Touchless Human-Machine Interfaces.

用于非接触式人机界面的深度学习辅助非接触式手势识别系统。

28.Engineering Interfacial Effects in Electron and Phonon Transport of Sb2Te3/MoS2 Multilayer for Thermoelectric ZT Above 2.0.

用于热电ZT高于2.0的Sb2Te3/MoS2多层电子和声子传输的工程界面效应。

29.Enabling Conversion-Type Iron Fluoride Cathode by Halide-Based Solid Electrolyte.

通过卤化物固体电解质实现转换型氟化铁阴极。

30.Stretchable Strain Sensors Based on Deterministic-Contact-Resistance Braided Structures with High Performance and Capability of Continuous Production.

基于确定性接触电阻编织结构的可拉伸应变传感器，具有高性能和连续生产能力。

31.Self-Passivated Metal Klein Edge of 1T-Phase Transition Metal Dichalcogenides and the Induced High-Efficient Hydrogen Evolution Reaction Activity.

1T相过渡金属二硫化物的自钝化金属克莱因边缘及其诱导的高效析氢反应活性。

32.Electronic Delocalization Regulates the Occupancy and Energy Level of Co 3dz2 Orbitals to Enhance Bifunctional Oxygen Catalytic Activity.

电子离域调节 Co 3dz2 轨道的占据和能量水平，以增强双功能氧催化活性。

33.Phthalocyanine Based Metal–Organic Framework Ultrathin Nanosheet for Efficient Photocathode toward Light-Assisted Li–CO2 Battery.

用于光辅助锂二氧化碳电池高效光电阴极的酞菁基金属有机框架超薄纳米片。

34.Homogeneous Metallic Deposition Regulated by Porous Framework and Selenization Interphase Toward Stable Sodium/Potassium Anodes.

通过多孔框架和硒化界面调节均匀金属沉积以获得稳定的钠/钾阳极。

35.Engineering Pore Nanostructure of Carbon Cathodes for Zinc Ion Hybrid Supercapacitors.

用于锌离子混合超级电容器的碳阴极的工程孔隙纳米结构。

36.Phosphorus Vacancies and Heterojunction Interface as Effective Lithium-Peroxide Promoter for Long-Cycle Life Lithium–Oxygen Batteries.

磷空位和异质结界面作为长循环寿命锂氧电池的有效过氧化锂促进剂。

37.Revealing Intrinsic Superconductivity of the Nb/BiSbTe2Se Interface.

揭示 Nb/BiSbTe2Se 界面的本征超导性。

38.Tailored Organic Cathode Material with Multi-Active Site and Compatible Groups for Stable Quasi-Solid-State Lithium-Organic Batteries.

具有多活性位点和相容基团的定制有机正极材料，用于稳定的准固态锂有机电池。

39.Maximizing Ion Permselectivity in MXene/MOF Nanofluidic Membranes for High-Efficient Blue Energy Generation.

最大化 MXene/MOF 纳米流体膜的离子渗透选择性，以实现高效蓝色能量生成。

40.A Reverse-Defect-Engineering Strategy toward High Edge-Nitrogen-Doped Nanotube-Like Carbon for High-Capacity and Stable Sodium Ion Capture.

针对高边缘氮掺杂纳米管状碳的逆向缺陷工程策略，以实现高容量和稳定的钠离子捕获。

41.Three Birds with One Stone: Tetramethylurea as Electrolyte Additive for Highly Reversible Zn-Metal Anode.

一石三鸟：四甲基脲作为高可逆锌金属阳极的电解质添加剂。

42.Orientation Independent Growth of Uniform Ferroelectric Hf0.5Zr0.5O2 Thin Films on Silicon for High-Density 3D Memory Applications.

用于高密度 3D 存储器应用的硅上均匀铁电 Hf0.5Zr0.5O2 薄膜的方向独立生长。

43.Band Gap and Defect Engineering for High-Performance Cadmium-free Sb2(S,Se)3 Solar Cells and Modules.

高性能无镉 Sb2(S,Se)3 太阳能电池和模块的带隙和缺陷工程。

44.Spontaneous Asymmetry of Chiral Magnetic Domains Within a Magnetic Field.

磁场内手性磁域的自发不对称性。

45.Ambipolar Nonvolatile Memory Behavior and Reversible Type-Conversion in MoSe2/MoSe2 Transistors with Modified Stack Interface.

具有改进堆栈接口的 MoSe2/MoSe2 晶体管中的双极非易失性存储器行为和可逆类型转换。

46.Adaptation-Proof SARS-CoV-2 Vaccine Design.

适应性强的 SARS-CoV-2 疫苗设计。

47.In Situ Construction of Gradient Oxygen Release Buffer and Interface Cation Self-Accelerator Stabilizing High-Voltage Ni-Rich Cathode.

原位构建梯度释氧缓冲液和界面阳离子自加速剂稳定高压富镍阴极。

48.From Amorphous to Polycrystalline Rubrene: Charge Transport in Organic Semiconductors Paralleled with Silicon.

从非晶态到多晶红荧烯：有机半导体中与硅平行的电荷传输。

49.Giant and Robust Anomalous Nernst Effect in a Polycrystalline Topological Ferromagnet at Room Temperature.

室温下多晶拓扑铁磁体中巨大而鲁棒的反常能斯特效应。

50.Monolithic Integrated Flexible Yet Robust Droplet-Based Electricity Generator.

单片集成灵活而坚固的基于液滴的发电机。

51.Are Halide-Perovskites Suitable Materials for Battery and Solar-Battery Applications–Fundamental Reconsiderations on Solubility, Lithium Intercalation, and Photo-Corrosion.

卤化物钙钛矿是否适合电池和太阳能电池应用的材料——对溶解度、锂嵌入和光腐蚀的根本重新考虑。

52.Less is More: Preorganization Leads to Better Tumor Retention and Therapeutic Efficacy.

少即是多：预组织导致更好的肿瘤保留和治疗效果。

53.Directed and Continuous Interfacial Channels for Optimized Ion Transport in Solid-State Electrolytes.

用于优化固态电解质中离子传输的定向和连续界面通道。

54.A Multifunctional Hybrid Graphene and Microfluidic Platform to Interface Topological Neuron Networks.

用于连接拓扑神经元网络的多功能混合石墨烯和微流体平台。

55.Neural Engineering

In article number 2204925, Orit Shefi and co-workers depict that neurons are transformed into magnetic units and dynamically localized within 3D biomaterials using magnetic manipulations. Iron-oxide nanoparticles are synthesized and incorporated into neurons, which are then subjected to various magnetic fields. The neurons' movement is controlled inside multi-layered 3D collagen scaffolds simulating in-vivo tissue structures, thus constructing pre-designed, viable and functional 3D microarchitectures of neural networks.

神经工程

在第 2204925 号文章中，Orit Shefi 及其同事描述了神经元被转化为磁性单元，并使用磁性操作动态定位在 3D 生物材料内。合成氧化铁纳米粒子并将其纳入神经元中，然后将神经元置于各种磁场中。神经元的运动在模拟体内组织结构的多层 3D 胶原支架内进行控制，从而构建预先设计的、可行的、功能性的神经网络 3D 微架构。

56.Cell Tracking

In article number 2207626, Jeff W.M. Bulte, Chao Wang, and Ali Shakeri-Zadeh review the occasional adverse effects encountered with magnetic labeling of cells for in vivo cell tracking using magnetic resonance imaging (MRI) and magnetic particle imaging. Mesenchymal stem cells (MSCs) are abundant in mannose residues on their cell membrane. Using mannose-sensitive chemical exchange saturation transfer MRI, in vivo tracking of MSCs is now possible without the need of labeling them, facilitating clinical translation. Credit: Image courtesy of Shreyas Kuddannaya.

细胞追踪

在文章编号 2207626 中，Jeff WM Bulte、Chao Wang 和 Ali Shakeri-Zadeh 回顾了使用磁共振成像 (MRI) 和磁粒子成像进行体内细胞追踪时对细胞进行磁性标记时偶尔遇到的不利影响。间充质干细胞（MSC）的细胞膜上富含甘露糖残基。使用甘露糖敏感的化学交换饱和转移 MRI，现在可以对 MSC 进行体内追踪，而无需对其进行标记，从而促进临床转化。图片来源：Shreyas Kuddannaya 提供图片。

57.Magnetic Systems for Regenerative Medicine

The magnetic manipulation of biomaterials and living cells can be leveraged to widen the available design space of bioengineered systems. In this Special Issue, organized by Rui M. A. Domingues and Manuela E. Gomes, invited experts demonstrate how these concepts are being explored in the fields of regenerative medicine and in vitro modeling.

用于再生医学的磁性系统

可以利用生物材料和活细胞的磁性操纵来扩大生物工程系统的可用设计空间。在由 Rui MA Domingues 和 Manuela E. Gomes 组织的本期特刊中，受邀专家展示了如何在再生医学和体外建模领域探索这些概念。

58.4D Printed Shape-Morphing Biocompatible Materials with Unpaired Movements

4D printed shape-morphing materials allow for remote and reversible actuation of pre-defined structures. In article number 2202539, Lorenzo Moroni and co-workers demonstrate that these reversible actuation can be programed to display patterns of attraction and repulsion within same object while using composites based on biocompatible anisotropic nanomagnets.

具有不成对运动的 4D 打印形状变形生物相容性材料

4D 打印形状变形材料允许对预定义结构进行远程和可逆驱动。在第 2202539 号文章中，Lorenzo Moroni 及其同事证明，这些可逆驱动可以通过编程来显示同一物体内的吸引和排斥模式，同时使用基于生物相容性各向异性纳米磁体的复合材料。

59.In Vivo Cellular Magnetic Imaging: Labeled versus Unlabeled Cells.

体内细胞磁成像：标记细胞与未标记细胞。

60.Bioengineering 3D Neural Networks Using Magnetic Manipulations.

使用磁操纵的生物工程 3D 神经网络。

61.4D Printed Shape Morphing Biocompatible Materials Based on Anisotropic Ferromagnetic Nanoparticles.

基于各向异性铁磁纳米粒子的 4D 打印形状变形生物相容性材料。

62.Pre-Programmed Rod-Shaped Microgels to Create Multi-Directional Anisogels for 3D Tissue Engineering.

预编程棒状微凝胶可创建用于 3D 组织工程的多向异向凝胶。

63.Remote Magnetic Microengineering and Alignment of Spheroids into 3D Cellular Fibers.

远程磁微工程和将球体对准 3D 细胞纤维。

64.Remotely Actuated Magnetic Nanocarpets for Bone Tissue Engineering: Non-Invasive Modulation of Mechanosensitive Ion Channels for Enhanced Osteogenesis.

用于骨组织工程的远程驱动磁性纳米地毯：机械敏感离子通道的非侵入性调节以增强成骨作用。

65.Volbots: Volvox Microalgae-Based Robots for Multimode Precision Imaging and Therapy.

Volbots：基于 Volvox 微藻的机器人，用于多模式精确成像和治疗。

66.Superparamagnetic Iron Oxide Nanoparticles for Targeted Cell Seeding: Magnetic Patterning and Magnetic 3D Cell Culture.

用于靶向细胞接种的超顺磁性氧化铁纳米颗粒：磁性图案和磁性 3D 细胞培养。

67.Magnetothermal Modulation of Calcium-Dependent Nerve Growth.

钙依赖性神经生长的磁热调节。

68.How do the Local Physical, Biochemical, and Mechanical Properties of an Injectable Synthetic Anisotropic Hydrogel Affect Oriented Nerve Growth?.

可注射合成各向异性水凝胶的局部物理、生化和机械特性如何影响定向神经生长？

69.Magnetically-Assisted 3D Bioprinting of Anisotropic Tissue-Mimetic Constructs.

各向异性组织模拟结构的磁辅助 3D 生物打印。

70.Levitational 3D Bioassembly and Density-Based Spatial Coding of Levitoids.

Levitoid 的悬浮 3D 生物组装和基于密度的空间编码。

71.Lead-Free Perovskite Photodetectors

In article number 2207713, Dong Hwan Wang, Il Jeon, and co-workers report non-toxic, lead-free tin-based perovskite materials as a photosensitive layer. This tin-based perovskite photodetector achieves a faster response of a few microseconds with higher detection performance and wider detection range compared to a lead-based perovskite. This eco-friendly and efficient Sn-based perovskite thin-film fabrication sets a milestone for the commercialization of perovskite applications.

无铅钙钛矿光电探测器

在文章编号 2207713 中，Dong Hwan Wang、Il Jeon 及其同事报告了无毒、无铅锡基钙钛矿材料作为感光层。与铅基钙钛矿相比，这种锡基钙钛矿光电探测器实现了几微秒的更快响应，具有更高的检测性能和更宽的检测范围。这种环保高效的锡基钙钛矿薄膜制造为钙钛矿应用的商业化树立了里程碑。

72.Donor-Acceptor Polymers

In article number 2207886, Jaeyoung Jang, Hwan Jung, Yong Jin Jeong, and co-workers demonstrate the aggregation effects of donor-acceptor polymers during solution-state doping with 2,3,5,6-tetrafluoro-7,7,8,8-tetracyanoquino dimethane (F4TCNQ) for organic thermoelectrics. The aggregations of the polymers are controlled by side-chain engineering. In the solution state, aggregated polymers induce efficient doping, while a less aggregated polymer forms a Lewis complex with F4TCNQ, which limits thermoelectric performance. This study highlights the importance of a tailored side chain for efficient solution-state doping.

供体-受体聚合物

在文章编号 2207886 中，Jaeyoung Jang、Hwan Jung、Yong Jin Jeong 及其同事演示了溶液态掺杂 2,3,5,6-tetraflu-7、用于有机热电材料的 7,8,8-四氰基醌二甲烷 (F4TCNQ)。聚合物的聚集由侧链工程控制。在溶液状态下，聚集的聚合物诱导有效的掺杂，而较少聚集的聚合物与F4TCNQ形成路易斯络合物，这限制了热电性能。这项研究强调了定制侧链对于有效溶液态掺杂的重要性。

73.Liquid–Liquid Triboelectric Nanogenerator

In article number 2208393, Ho Cheung Shum and co-workers investigate mechanisms of contact electrification in various liquid-liquid systems and thus demonstrate a liquid-liquid triboelectric nanogenerator to harvest energy from rainwater. It can generate a high charge density (3.63 μC/L) with high output stability (crest factor ≈1.1), highlighting the promise of all-liquid systems in distributed green energy and passive sensors.

液-液摩擦纳米发电机

在文章编号 2208393 中，Ho Cheung Shum 及其同事研究了各种液-液系统中的接触起电机制，从而演示了一种从雨水中收集能量的液-液摩擦纳米发电机。它可以产生高电荷密度（3.63 μC/L）和高输出稳定性（波峰因数≈1.1），凸显了全液体系统在分布式绿色能源和无源传感器中的前景。

74.Topography-Supported Nanoarchitectonics

In article number 2206863, Sang Hoon Kim, Hyun-Do Jung, and co-workers describe multifunctional orthopedic implants with enhanced mechanical durability and biocompatibility through the integration of 3D printing technology, dopamine-induced biomineralization, and biomimetic coating. These processes provide a functional platform for systematically modulated bone regeneration and remodeling based on topography-supported nanoarchitectonics.

地形支持的纳米结构

在文章编号 2206863 中，Sang Hoon Kim、Hyun-Do Jung 及其同事描述了通过集成 3D 打印技术、多巴胺诱导的生物矿化和仿生涂层来增强机械耐用性和生物相容性的多功能骨科植入物。这些过程为基于地形支持的纳米结构系统地调节骨再生和重塑提供了功能平台。

75.Bone Repair Biomaterials: A Perspective from Immunomodulation.

骨修复生物材料：免疫调节的视角。

76.Developing High-Performance Metal Selenides for Sodium-Ion Batteries.

开发用于钠离子电池的高性能金属硒化物。

77.Nanoengineered Textiles for Outdoor Personal Cooling and Drying.

用于户外个人冷却和干燥的纳米工程纺织品。

78.Toward Unifying the Mechanistic Concepts in Electrochemical CO2 Reduction from an Integrated Material Design and Catalytic Perspective.

从集成材料设计和催化角度统一电化学二氧化碳还原的机理概念。

79.Immunocyte-Derived Nanodrugs for Cancer Therapy.

用于癌症治疗的免疫细胞衍生纳米药物。

80.Metal-Organic Frameworks and Electrospinning: A Happy Marriage for Wastewater Treatment.

金属有机框架和静电纺丝：废水处理的幸福结合。

81.Polyoxometalate-Soft Matter Composite Materials: Design Strategies, Applications, and Future Directions.

多金属氧酸盐-软物质复合材料：设计策略、应用和未来方向。

82.Prevention of Noise Current Generation in Tin-Based Lead-Free Perovskites for Highly Sensitive Photodetection.

防止用于高灵敏光电检测的锡基无铅钙钛矿中产生噪声电流。

83.Understanding the Solution-State Doping of Donor–Acceptor Polymers Through Tailored Side Chain Engineering for Thermoelectrics.

通过定制的热电侧链工程了解供体-受体聚合物的溶液态掺杂。

84.Liquid–Liquid Triboelectric Nanogenerator for Harvesting Distributed Energy.

用于收集分布式能量的液-液摩擦纳米发电机。

85.Topography-Supported Nanoarchitectonics of Hybrid Scaffold for Systematically Modulated Bone Regeneration and Remodeling.

地形支持的混合支架纳米结构，用于系统调节骨再生和重塑。

86.4D Printing of Shape Memory Polymers: From Macro to Micro.

形状记忆聚合物的 4D 打印：从宏观到微观。

87.Direct Writing Unclonable Watermarks with an Electrochemical Jet.

使用电化学喷射直接写入不可克隆水印。

88.Subaqueous Bioprinting: A Novel Strategy for Fetal Membrane Repair with 7-Axis Robot-Assisted Minimally Invasive Surgery.

水下生物打印：通过 7 轴机器人辅助微创手术修复胎膜的新策略。

89.Fast and Regulated Zinc Deposition in a Semiconductor Substrate toward High-Performance Aqueous Rechargeable Batteries.

半导体基材中快速、可控的锌沉积可用于高性能水系可充电电池。

90.Magnetic Properties of Layered Hybrid Organic-Inorganic Metal-Halide Perovskites: Transition Metal, Organic Cation and Perovskite Phase Effects.

层状杂化有机-无机金属卤化物钙钛矿的磁性：过渡金属、有机阳离子和钙钛矿相效应。

91.Tradeoff between Intermolecular Interaction and Backbone Disorder by High Molecular Dipole Block for Improving Blend Morphology of Polymer Solar Cells.

通过高分子偶极子块来权衡分子间相互作用和主链无序，以改善聚合物太阳能电池的共混形态。

92.Brain-Targeting Metastatic Tumor Cell Membrane Cloaked Biomimetic Nanomedicines Mediate Potent Chemodynamic and RNAi Combinational Therapy of Glioblastoma.

脑靶向转移性肿瘤细胞膜包裹的仿生纳米药物介导胶质母细胞瘤的有效化学动力学和 RNAi 联合疗法。

93.Semiconductor Halogenation in Molecular Highly-Oriented Layered p–n (n–p) Junctions.

分子高度取向层状 p-n (n-p) 结中的半导体卤化。

94.Stable High-Conductivity Ethylenedioxythiophene Polymers via Borane-Adduct Doping.

通过硼烷加合物掺杂获得稳定的高电导率乙烯二氧噻吩聚合物。

95.Ultra-High Speed, High-Sensitivity Spin-Cast MXene-Semiconductor-MXene Photodetectors.

超高速、高灵敏度旋铸 MXene-半导体-MXene光电探测器。

96.A Thiourea Competitive Crystallization Strategy for FA-Based Perovskite Solar Cells.

基于 FA 的钙钛矿太阳能电池的硫脲竞争结晶策略。

97.Co-Delivery of an Amyloid-Disassembling Polyphenol Cross-Linked in a Micellar Shell with Core-Loaded Antibiotics for Balanced Biofilm Dispersal and Killing.

胶束壳中交联的淀粉样蛋白分解多酚与核心负载抗生素的共同递送，以实现平衡的生物膜分散和杀灭。