快速了解科研前沿动态,每天都有新想法!本内容主要对生命科学领域的一些期刊文章标题进行翻译,如果出现翻译错误请谅解。
1.Apoptotic Bodies. In article number 2210864, Yoon Ki Joung, Bong-Woo Park, and co-workers report apoptotic cell-derived nanovesicles (ApoNVs) decorated with targeting molecules that can be actively delivered to ischemic myocardium for myocardial infarction treatment. By the surface modification of ApoNVs, macrophages in the infarcted myocardium selectively uptake ApoNVs and subsequently exhibit anti-inflammatory phenotype, which successfully results in the cardiac function improvement.
凋亡体。在第 2210864 号文章中,Yoon Ki Joung、Bong-Woo Park 及其同事报告了用靶向分子修饰的凋亡细胞衍生的纳米囊泡 (ApoNV),可以主动递送至缺血心肌以治疗心肌梗死。通过ApoNVs的表面修饰,梗死心肌中的巨噬细胞选择性摄取ApoNVs并随后表现出抗炎表型,从而成功改善心功能。
2.Dielectric Elastomer Actuators. In article number 2213589, Kilwon Cho and co-workers report a flexible and skin-mountable vibrotactile-stimulator based on thin lateral dielectric elastomer actuators. The actuator shows a significant actuation at low operating voltage because of a laterally aligned dielectric multilayer structure with short dielectric distance and a soft elastomer/ionic liquid composite. The vibrotactile-stimulator covers a broad perception frequency/amplitude range of human skin.
介电弹性体执行器。在第 2213589 号文章中,Kilwon Cho 及其同事报告了一种基于薄横向介电弹性体致动器的灵活且可安装在皮肤上的振动触觉刺激器。由于具有短介电距离的横向对齐介电多层结构和软弹性体/离子液体复合材料,致动器在低工作电压下表现出显着的致动。振动触觉刺激器覆盖了人类皮肤的广泛感知频率/幅度范围。
3.Length-Modulated Azide Photocrosslinker. In article 2212127, Kilwon Cho, Boseok Kang, and co-workers, report a series of length-modulated azide photocrosslinkers (n-NIPS) that improve stretchability and charge transport retention in thin films of conjugated polymers. Especially, the shortest photocrosslinker, 1-NIPS, is demonstrated to enhance these properties, even up to 80% unidirectional tensile strain.
长度调制叠氮化物光交联剂。在文章 2212127 中,Kilwon Cho、Boseok Kang 及其同事报道了一系列长度调制叠氮化物光交联剂 (n-NIPS),它们可改善共轭聚合物薄膜的拉伸性和电荷传输保留。特别是,最短的光交联剂 1-NIPS 被证明可以增强这些性能,甚至可以提高高达 80% 的单向拉伸应变。
4.Organ on Chips. In article number 2214179, Lining Arnold Ju and co-workers, devised a novel, cost-effective, and high-throughput fabrication method for the creation of personalized vein-chips, employing movable typing stereolithography and organ-on-chip technologies. This innovative chip accurately replicates an individual patient's unique anatomy and hemodynamics, thereby facilitating the investigation of clot formation in cerebral venous sinus thrombosis. The vein-chip demonstrates significant potential for future personalized thrombotic assessment and monitoring.
芯片上的器官。在第 2214179 号文章中,Lining Arnold Ju 及其同事设计了一种新颖、经济高效且高通量的制造方法,采用可移动打字立体光刻和芯片上器官技术来创建个性化静脉芯片。这种创新芯片准确地复制了个体患者独特的解剖结构和血流动力学,从而促进了脑静脉窦血栓形成中凝块形成的研究。静脉芯片展示了未来个性化血栓评估和监测的巨大潜力。
5.Hydrogels. In article number 2213382, Soo-Jin Park, Insik In, Dong-Yeun Koh, Albert S. Lee, and co-workers propose, catechol-functionalized poly(vinyl alcohol)-based hydrogel to inhibit the oxidation of MXene nanofiller while maintaining excellent mechanical and electrical properties suitable for strain sensors. Sufficient interaction of hydrophobic catechol groups with the MXene surface reduces the oxidation-accessible sites in the MXene for reaction with water and eventually suppresses the oxidation of MXene in the hydrogel.
水凝胶。在文章编号 2213382 中,Soo-Jin Park、Insik In、Dong-Yeun Koh、Albert S. Lee 及其同事提出,儿茶酚功能化的聚(乙烯醇)基水凝胶可以抑制 MXene 纳米填料的氧化,同时保持优异的性能。适用于应变传感器的机械和电气特性。疏水性儿茶酚基团与 MXene 表面的充分相互作用减少了 MXene 中与水反应的氧化可及位点,并最终抑制了水凝胶中 MXene 的氧化。
6.Soft Tissue Engineering. In article number 2215220, Scott J. Hollister, Michael E. Davis, and co-workers report, 3D printing of a novel architected auxetic with enhanced mechanical and biological performance. Specifically, the printed auxetics have high flexibility, permeability, and nonlinear deformation behavior as demonstrated through computational, mechanical, and biological analysis. These characteristics provide a great potential to create clinically viable implants for the reconstruction of large volume soft tissues.
软组织工程。在第 2215220 号文章中,Scott J. Hollister、Michael E. Davis 及其同事报告了一种新型拉胀材料的 3D 打印,该拉胀材料具有增强的机械和生物性能。具体来说,通过计算、机械和生物分析证明,印刷的拉胀材料具有高柔韧性、渗透性和非线性变形行为。这些特性为创造用于重建大体积软组织的临床上可行的植入物提供了巨大的潜力。
7.3D Shape-Morphing Display. In article 2214766, Jae-Woong Jeong, Jiheong Kang, and co-workers, report a novel 3D shape-morphing display capable of transforming its shape to create intricate 3D structures from a 2D planar form, providing realistic visual information and enhanced user experience. By using a low melting point alloy-graphene nanoplatelet-elastomer composite, the SMD can electrothermally achieve diverse 3D morphologies while robustly maintaining its morphed states, offering new possibilities for display technology.
3D 形状变形显示。在文章 2214766 中,Jae-Woong Jeong、Jiheong Kang 及其同事报告了一种新颖的 3D 形状变形显示器,能够变换其形状,从 2D 平面形式创建复杂的 3D 结构,提供逼真的视觉信息并增强用户体验。通过使用低熔点合金-石墨烯纳米片-弹性体复合材料,SMD 可以电热实现多种 3D 形态,同时牢固地保持其变形状态,为显示技术提供了新的可能性。
8.Flexible IR Imaging Photodetectors. In article number 2300159, Jinzhong Wang, Shiyong Gao, and co-workers, successfully prepared, a large-area freestanding Bi2S3 nanofibrous membrane (NFM) with high flexibility, which is self-assembled from ultralong Bi2S3 nanowires. The flexible photodetector based on the as-prepared Bi2S3 NFM exhibits high responsivity, fast response, excellent stability and splendent imaging capability under both flat and bent state. The as-prepared Bi2S3 NFM has great potential in flexible and wearable optoelectronic devices.
灵活的红外成像光电探测器。在第2300159号文章中,王金中、高世勇及其同事成功制备了一种具有高柔韧性的大面积独立式Bi2S3纳米纤维膜(NFM),该膜由超长Bi2S3纳米线自组装而成。基于所制备的Bi2S3 NFM的柔性光电探测器在平面和弯曲状态下均表现出高响应率、快速响应、优异的稳定性和出色的成像能力。所制备的 Bi2S3 NFM 在柔性和可穿戴光电器件方面具有巨大的潜力。
9.Multiband Organic Gain Medium. In article number 2300253, Jiyang Ma and co-workers, realize a multiband coherent source by exploiting the optically-pumped singlet states together with spin-polarized triplet states of pentacene doped in p-terphenyl for simultaneously producing 645-nm laser output and 1.45-GHz maser (the microwave analogue of lasers) output. Most importantly, this can be achieved with a single gain medium, in the solid-state, at room temperature on a bench top.
多频段有机增益介质。在文章编号 2300253 中,Jiyang Ma 及其同事利用光泵浦单重态和掺杂对三联苯的并五苯的自旋偏振三重态,实现了多波段相干源,同时产生 645 nm 激光输出和 1.45-nm 激光输出。 GHz 微波激射器(激光的微波模拟)输出。最重要的是,这可以在室温下在台式固态下使用单一增益介质来实现。
10.Biomorphic Actuation. In article number 2300184, Riku Takahashi, Aya Tanaka, and Masumi Yamaguchi develop a light-driven hydrogel actuator via on-chip buckling that is capable of large deformation, rapid-cycle motion, and local manipulation. This actuator, with its biomorphic thin-film tube-like shape, enables the demonstration of complex biological motions such as intestinal peristalsis and segmentation through spatiotemporal control of light stimulation. The study provides guidance for designing biomimetic soft robots.
生物形态驱动。在文章编号 2300184 中,Riku Takahashi、Aya Tanaka 和 Masumi Yamaguchi 通过片上屈曲开发了一种光驱动水凝胶致动器,该致动器能够进行大变形、快速循环运动和局部操纵。该执行器具有生物形态薄膜管状形状,可以通过光刺激的时空控制来演示复杂的生物运动,例如肠道蠕动和分割。该研究为设计仿生软机器人提供了指导。
11.Voltage Decay. In article number 2213260, Zhaoping Liu, Quanbing Liu, Bao Qiu, and co-workers review the mechanism of voltage decay generation in Li-rich layered oxides, which is caused by a combination of phase transition, microscopic defects, and oxygen redox. The review also provides critical insight into the root of voltage decay, as well as predictions for potential solutions.
电压衰减。在第 2213260 号文章中,Zhaoping Liu、Quanbing Liu、Bao Qiu 及其同事回顾了富锂层状氧化物中电压衰减产生的机制,该机制是由相变、微观缺陷和氧氧化还原共同引起的。该评论还提供了对电压衰减根源的重要见解,以及对潜在解决方案的预测。
12.Single-Atom Catalysts. In article number 2213841, Zhenyu Sun, Yousung Jung, Xinyi Tan, and co-workers report, that single-atom cadmium with a Cd-N4 coordination structure enables rapid kinetics of both the discharge and recharge process when employed as a cathode catalyst, and thus facilitates exceptional rate performance in a Li-CO2 battery, even up to 10 A g−1, and remains stable at a high current density (100 A g−1).
单原子催化剂。在文章编号 2213841 中,Zhenyu Sun、Yousung Jung、Xinyi Tan 及其同事报告称,具有 Cd-N4 配位结构的单原子镉在用作阴极催化剂时能够实现放电和充电过程的快速动力学,并且因此,Li-CO2电池具有卓越的倍率性能,甚至高达10 A g−1,并且在高电流密度(100 A g−1)下保持稳定。
13.Inclined Fluorine Sputtering Processes. In article 2301033, Sang-Jin Lee, Jin Young Kim, and co-workers, report a method for improving short-circuit current density (JSC) and power conversion efficiency (PCE) of perovskite solar cells (PSCs) by applying an antireflection coating of fluorine and harnessing the F doping effect on the electron transport layer using an inclined fluorine sputtering process. Consequently, the JSC of the F coating and doping perovskite solar cells (F-PSC) increased from 25.05 to 26.01 mA cm−2, and the PCE increased from 24.17 to 25.30% with good stability for F-PSC. The research finding provides a novel technology for the development of high-performance PSCs.
倾斜氟溅射工艺。在文章 2301033 中,Sang-Jin Lee、Jin Young Kim 及其同事报告了一种通过应用抗反射涂层来提高钙钛矿太阳能电池 (PSC) 的短路电流密度 (JSC) 和功率转换效率 (PCE) 的方法氟并利用倾斜氟溅射工艺利用电子传输层上的氟掺杂效应。因此,F涂层和掺杂钙钛矿太阳能电池(F-PSC)的JSC从25.05增加到26.01 mA cm−2,PCE从24.17增加到25.30%,F-PSC具有良好的稳定性。该研究结果为高性能PSC的开发提供了一种新技术。
14.Phase Transitions. The synergistic effects of phase transition and electron-spin regulation boosts oxygen electrocatalysis. In article number 2300623, Junhua Hu and co-workers, report that a core shell structure of (CoxFe1−x)3N with high dispersibility is induced by an intermediate phase transition process. The moderate eg electron filling (t2g5eg1) in (Co0.17Fe0.83)3N@NPC balances the adsorption of *O2 and the hydrogenation of *OH, improving bifunctional catalytic performances.
相变。相变和电子自旋调节的协同效应促进了氧电催化。在第 2300623 号文章中,Junhua Hu 及其同事报告说,中间相变过程诱导了具有高分散性的 (CoxFe1−x)3N 核壳结构。 (Co0.17Fe0.83)3N@NPC中适度的eg电子填充(t2g5eg1)平衡了*O2的吸附和*OH的氢化,提高了双功能催化性能。
15.Hole Transports. In article number 2209504, Pichaya Pattanasattayavong and co-workers, report that X-ray absorption spectroscopy reveals the incomplete coordination environment around Cu(I) centers in CuSCN which can be associated with SCN− vacancies acting as hole-trapping states. Doping with an optimal amount of I2 leads to defect-healing and a drastic improvement in hole transport.
孔传输。在文章编号 2209504 中,Pichaya Pattanasattayavong 及其同事报告称,X 射线吸收光谱揭示了 CuSCN 中 Cu(I) 中心周围不完全的配位环境,这可能与充当空穴捕获态的 SCN− 空位有关。掺杂最佳量的 I2 可实现缺陷修复并显着改善空穴传输。
16.Thermoelectric Fabrics. In article number 2300092, Taeyoon Lee and co-workers depict, a bismuth telluride (Bi2Te3) thermoelectric fabric that detects a finger touch by generating an output voltage from temperature differences. Bi2Te3 nanoparticles, are formed inside the fabric, if there is a temperature difference, the fabric generates an output voltage. Therefore, the temperature difference can be detected by measuring output voltages of the Bi2Te3 thermoelectric fabric.
热电织物。在第 2300092 号文章中,Taeyoon Lee 及其同事描述了一种碲化铋 (Bi2Te3) 热电织物,它通过温差产生输出电压来检测手指触摸。 Bi2Te3纳米粒子,在织物内部形成,如果存在温差,织物就会产生输出电压。因此,可以通过测量Bi2Te3热电织物的输出电压来检测温差。
17.Polyphotocages. In article number 2300780, Wen Sun, Peiyuan Wang, and co-workers report a drug delivery platform based on Ru complex containing polyphotocage which is prepared through photocage-polymer hybrid macromolecular engineering. Red light irradiation of the polyphotocage triggers the breakage of the coordination bond between the complexes and anticancer drugs, which releases the drugs for photochemotherapy precisely.
多重摄影笼。在第2300780号文章中,Wen Sun、Peiyuan Wang及其同事报道了一种基于包含多光笼的Ru复合物的药物递送平台,该平台是通过光笼-聚合物杂化高分子工程制备的。多光笼的红光照射触发复合物与抗癌药物之间的配位键断裂,从而精确释放用于光化疗的药物。
18.SWCNT Conductive Network. In article 2300094, Fei Wei, Chenxi Zhang, and co-workers report a binder-free dry Si-based electrode with single-walled carbon nanotubes (SWCNTs) conductive network. Maintaining electrical contact under huge stress is the reason why SWCNT is distinguished from other conductive agents. The study proposes a new approach to characterizing electrical contacts and a new strategy to design high-performance lithium-ion batteries.
单壁碳纳米管导电网络。在文章 2300094 中,Fei Wei、Chenxi Zhang 及其同事报告了一种具有单壁碳纳米管 (SWCNT) 导电网络的无粘合剂干燥硅基电极。在巨大应力下保持电接触是SWCNT区别于其他导电剂的原因。该研究提出了一种表征电接触的新方法和设计高性能锂离子电池的新策略。
19.Mechano-Bactericidal. In article number 2213650, Joonseok Lee and co-workers develop a puncturable nanostructured air filter via a catalyst droplet-based synthesis to effectively collect and deactivate airborne bacteria. The unique puncturable nanostructures featuring a nano-edge can cause mechanical damage to the bioaerosol without external stimulations, resulting in the inhibition of bacterial proliferation.
机械杀菌。在第 2213650 号文章中,Joonseok Lee 及其同事通过基于催化剂液滴的合成技术开发了一种可刺穿的纳米结构空气过滤器,可有效收集和灭活空气中的细菌。具有纳米边缘的独特可刺穿纳米结构可以在没有外部刺激的情况下对生物气溶胶造成机械损伤,从而抑制细菌增殖。
20.Soft Robotics. In article number 2212541, Robert J. Wood, Vanessa Sanchez, and co-workers demonstrate additively manufactured soft robots formed through 3D knitting. The variety of structures generated via machine knitting enables complex actuation motions from as little as one yarn and supports multi-actuator devices with integrated sensing.
软机器人。在第 2212541 号文章中,Robert J. Wood、Vanessa Sanchez 及其同事演示了通过 3D 编织形成的增材制造软机器人。通过机器编织生成的各种结构使得只需一根纱线即可实现复杂的致动运动,并支持具有集成传感功能的多致动器设备。
21.Nanopaper Electronics.
纳米纸电子学。
22.Structural and Functional Adaptive Artificial Bone: Materials, Fabrications, and Properties.
结构和功能自适应人工骨:材料、制造和性能。
23.Targeted Delivery of Apoptotic Cell-Derived Nanovesicles prevents Cardiac Remodeling and Attenuates Cardiac Function Exacerbation.
凋亡细胞衍生的纳米囊泡的靶向递送可防止心脏重塑并减轻心脏功能恶化。
24.Skin-Mountable Vibrotactile Stimulator Based on Laterally Multilayered Dielectric Elastomer Actuators.
基于横向多层介电弹性体致动器的皮肤安装式振动触觉刺激器。
25.Novel Movable Typing for Personalized Vein-Chips in Large Scale: Recapitulate Patient-Specific Virchow's Triad and its Contribution to Cerebral Venous Sinus Thrombosis.
大规模个性化静脉芯片的新型可移动打字:概括患者特异性魏尔啸三联征及其对脑静脉窦血栓形成的贡献。
26.Designing a Length-Modulated Azide Photocrosslinker to Improve the Stretchability of Semiconducting Polymers.
设计长度调制叠氮化物光交联剂以提高半导体聚合物的拉伸性。
27.Woven Fibrous Photodetectors for Scalable UV Optical Communication Device.
用于可扩展紫外光通信设备的编织纤维光电探测器。
28.Multiphase Polarization in Ion-Intercalation Nanofilms: General Theory Including Various Surface Effects and Memory Applications.
离子插层纳米膜中的多相极化:包括各种表面效应和记忆应用的一般理论。
29.Dynamic Ion Sieve as the Buffer Layer for Regulating Li+ Flow in Lithium Metal Batteries.
动态离子筛作为调节锂金属电池中 Li+ 流量的缓冲层。
30.Strong and Sustainable Supramolecular Nanofiber Assembling in Acoustic Flow Field.
声学流场中坚固且可持续的超分子纳米纤维组装。
31.Antimicrobial Hybrid Amphiphile via Dynamic Covalent Bonds Enables Bacterial Biofilm Dispersal and Bacteria Eradication.
抗菌混合两亲物通过动态共价键实现细菌生物膜分散和细菌根除。
32.In Situ Enzyme-Induced Self-Assembly of Antimicrobial-Antioxidative Peptides to Promote Wound Healing.
原位酶诱导抗菌抗氧化肽自组装促进伤口愈合。
33.YAP-Suppressive Nanodrug Crosslinked Self-Immunoregulatory Polysaccharide Injectable Hydrogel for Attenuating Cardiac Fibrosis to Treat Myocardial Infarction.
YAP 抑制纳米药物交联自体免疫调节多糖可注射水凝胶,用于减轻心脏纤维化以治疗心肌梗塞。
34.Interfacial Chemical Bond and Oxygen Vacancy-Enhanced In2O3/CdSe-DETA S-scheme Heterojunction for Photocatalytic CO2 Conversion.
用于光催化 CO2 转化的界面化学键和氧空位增强的 In2O3/CdSe-DETA S 型异质结。
35.Grafted MXenes Based Electrolytes for 5V-Class Solid-State Batteries.
用于 5V 级固态电池的接枝 MXenes 电解质。
36.Symmetric and Excellent Scaling Behavior in Ultrathin n- and p-Type Gate-All-Around InAs Nanowire Transistors.
超薄 n 型和 p 型全栅 InAs 纳米线晶体管具有对称且出色的缩放性能。
37.Smart Trap-Capture-Kill Antibacterial System for Infected Microenvironment Improvement and Vascularized Bone Regeneration via Magnetic Thermotherapy.
智能诱捕-捕获-杀灭抗菌系统,通过磁热疗法改善感染微环境和血管化骨再生。
38.Multifunctional Hydroxyapatite Nanobelt Haystacks Integrated Neural Stem Cell Spheroid for Rapid Spinal Cord Injury Repair.
多功能羟基磷灰石纳米带 Haystacks 集成神经干细胞球体,用于快速修复脊髓损伤。
39.Stable Graphene Membranes for Selective Ion Transport and Emerging Contaminants Removal in Water.
用于选择性离子传输和去除水中新兴污染物的稳定石墨烯膜。
40.Low Hysteresis Hydrogel Induced by Spatial Confinement.
空间限制引起的低滞后水凝胶。
41.Synergistic Toughening and Self-Healing Strategy for Highly Efficient and Stable Flexible Perovskite Solar Cells.
高效稳定的柔性钙钛矿太阳能电池的协同增韧和自修复策略。
42.Achieving Thermodynamic Stability of Single-Crystal Co-Free Ni-Rich Cathode Material for High Voltage Lithium-Ion Batteries.
实现高压锂离子电池用单晶无钴富镍正极材料的热力学稳定性。
43.Cholesteric Liquid Crystal Polymeric Coatings for Colorful Artificial Muscles and Motile Humidity Sensor Skin Integrated with Magnetic Composites.
用于与磁性复合材料集成的彩色人造肌肉和活动湿度传感器皮肤的胆甾型液晶聚合物涂层。
44.Ultralow-Salt-Concentration Electrolyte for High-Voltage Aqueous Zn Metal Batteries.
用于高压水系锌金属电池的超低盐浓度电解质。
45.Dimensional Regulation of Titanosilicate by Kinetically Controlled Intergrowth Crystals.
动力学控制共生晶体对钛硅酸盐的尺寸调节。
46.Plasmonic Photoresistor Based on Interconnected Metal-Semiconductor Grating.
基于互连金属-半导体光栅的等离子体光敏电阻。
47.Modulating In-Plane Defective Density of Carbon Nanotubes by Graphitic Carbon Nitride Quantum Dots for Enhanced Triiodide Reduction.
通过石墨碳氮化物量子点调节碳纳米管的面内缺陷密度以增强三碘化物还原。
48.Deterministic Fabrication of Twisted Van Der Waals Structures.
扭曲范德华结构的确定性制造。
49.Role of Trichocytic Keratins in Anti-Neuroinflammatory Effects After Spinal Cord Injury.
三氯细胞角蛋白在脊髓损伤后抗神经炎症作用中的作用。
50.Tuned Intra- and Intermolecular Photoreactions of Tridentate Cyanostilbenes with Distinct Aggregated-State Photomechanical and Dispersed-State Photochromic Behaviors.
具有独特聚集态光机械和分散态光致变色行为的三齿氰芪的分子内和分子间光反应的调节。
51.An Effective Approach toward Yellow-to-Orange Multi-Resonance TADF Emitters by Integrating Strong Electron Donor into B/N-Based Polycyclic Architecture: High Performance OLEDs with Nearly 40% EQE.
通过将强电子供体集成到基于 B/N 的多环结构中,实现黄橙多共振 TADF 发射器的有效方法:具有近 40% EQE 的高性能 OLED。
52.Nonvolatile Magnetoelectric Switching of Magnetic Tunnel Junctions with Dipole Interaction.
具有偶极相互作用的磁隧道结的非易失性磁电开关。
53.A Metal–Phenolic Nanocoordinator Launches Radiotherapeutic Cancer Pyroptosis Through an Epigenetic Mechanism.
金属-酚类纳米协调剂通过表观遗传机制启动放射治疗癌症焦亡。
54.Injectable, Self-Contained, Subaqueously Cross-Linking Laminous Adhesives for Biophysical-Chemical Modulation of Osteochondral Microenvironment.
用于骨软骨微环境生物物理化学调节的可注射、独立、水下交联层状粘合剂。
55.Fabrication of Hybrid Supercapacitor by MoCl5 Precursor-Assisted Carbonization with Ultrafast Laser for Improved Capacitance Performance.
通过超快激光 MoCl5 前驱体辅助碳化制造混合超级电容器,以提高电容性能。
56.A “Nano-Courier” for Precise Delivery of Acetylcholine and Melatonin by C5a-Targeted Aptamers Effectively Attenuates Reperfusion Injury of Ischemic Stroke.
通过 C5a 靶向适体精确递送乙酰胆碱和褪黑激素的“纳米快递”可有效减轻缺血性中风的再灌注损伤。
57.Reallocating Cell Respiration Substrates for Cancer Therapy Using a Metabolism Regulator with an Intermembrane-Translocatable Accessory.
使用具有膜间可移位附件的代谢调节器重新分配用于癌症治疗的细胞呼吸基质。
58.Water-Surface-Mediated Precise Patterning of Organic Single-Crystalline Films via Double-Blade Coating for High-Performance Organic Transistors.
通过双刀片涂层的水表面介导的有机单晶薄膜的精确图案化,用于高性能有机晶体管。
59.Switchable and Reversible p+/n+ Doping in 2D Semiconductors by Ionic 2D Minerals.
通过离子 2D 矿物在 2D 半导体中进行可切换和可逆的 p+/n+ 掺杂。
60.Boron-Doped Electrolytes as Interfacial Modifiers for High-Rate Stable Lithium Metal Batteries.
掺硼电解质作为高倍率稳定锂金属电池的界面改性剂。
61.High-Throughput Screening Thickness-Dependent Resistive Switching in SrTiO3 Thin Films for Robust Electronic Synapse.
用于鲁棒电子突触的 SrTiO3 薄膜中的高通量筛选厚度依赖性电阻开关。
62.Self-Powered Smart Touchpad using Novel Intrinsic Piezo–Tribo Hybrid Nanogenerator.
使用新型本征压电摩擦混合纳米发电机的自供电智能触摸板。
63.Selenium Substitution in Bithiophene Imide Polymer Semiconductors Enables High-Performance n-Type Organic Thermoelectric.
联噻吩酰亚胺聚合物半导体中的硒替代可实现高性能 n 型有机热电。
64.Surface Defects Management by In Situ Etching with Methanol for Efficient Inverted Inorganic Perovskite Solar Cells.
通过甲醇原位蚀刻管理高效倒置无机钙钛矿太阳能电池的表面缺陷。
65.A Novel Multifunctional Photocatalytic Separation Membrane Based on Single-Component Seaweed-Like g-C3N4.
一种基于单组分类海藻g-C3N4的新型多功能光催化分离膜。
66.Giant and Nonvolatile Control of Exchange Bias in Fe3GeTe2/Irradiated Fe3GeTe2/MgO Heterostructure Through Ultralow Voltage.
通过超低电压对 Fe3GeTe2/辐照 Fe3GeTe2/MgO 异质结构中的交换偏压进行巨大且非易失性控制。
67.Proton Conductor Confinement Strategy for Polymer Electrolyte Membrane Assists Fuel Cell Operation in Wide-Range Temperature.
聚合物电解质膜的质子导体限制策略有助于燃料电池在宽温度范围内运行。
68.BPA-Containing Polydopamine Nanoparticles for Boron Neutron Capture Therapy in a U87 Glioma Orthotopic Model.
含 BPA 的聚多巴胺纳米颗粒用于 U87 胶质瘤原位模型中的硼中子捕获疗法。
69.Bioinspired Nanofibrous Aerogel with Vertically Aligned Channels for Efficient Water Purification and Salt-Rejecting Solar Desalination.
具有垂直排列通道的仿生纳米纤维气凝胶,可实现高效水净化和脱盐太阳能海水淡化。
70.A Neuron-Readable Artificial Photoreceptor Composed of Photodeformable Liquid Crystal Polymers and Piezoelectric Materials.
由光致形变液晶聚合物和压电材料组成的神经元可读人工光感受器。
71.Recent Progress on Synthesis, Intrinsic Properties and Optoelectronic Applications of Perovskite Single Crystals.
钙钛矿单晶的合成、本征性能及光电应用的最新进展。
72.Highly Oxidation-Resistant and Self-Healable MXene-Based Hydrogels for Wearable Strain Sensor.
用于可穿戴应变传感器的高度抗氧化和可自修复的 MXene 基水凝胶。
73.3D Printing of Poly-ε-Caprolactone (PCL) Auxetic Implants with Advanced Performance for Large Volume Soft Tissue Engineering.
3D 打印聚ε-己内酯 (PCL) 拉胀植入物,具有先进的性能,适用于大体积软组织工程。
74.3D Shape-Morphing Display Enabled by Electrothermally Responsive, Stiffness-Tunable Liquid Metal Platform with Stretchable Electroluminescent Device.
由电热响应、刚度可调的液态金属平台和可拉伸电致发光器件实现的 3D 形状变形显示器。
75.Large-Area Freestanding Bi2S3 Nanofibrous Membranes for Fast Photoresponse Flexible IR Imaging Photodetector.
用于快速光响应灵活红外成像光电探测器的大面积独立式 Bi2S3 纳米纤维膜。
76.Toward the Practical and Scalable Fabrication of Sulfide-Based All-Solid-State Batteries: Exploration of Slurry Process and Performance Enhancement Via the Addition of LiClO4.
实现硫化物基全固态电池的实用且可扩展的制造:浆料工艺的探索和通过添加 LiClO4 来增强性能。
77.Plasmon Mediated Near-Field Energy Transfer From Solid-State, Electrically Injected Excitons to Solution Phase Chromophores.
等离激元介导从固态电注入激子到溶液相发色团的近场能量转移。
78.3D Printing Thermally Stable High-Performance Polymers Based on a Dual Curing Mechanism.
基于双固化机制的 3D 打印热稳定高性能聚合物。
79.Doped Mn Enhanced NiS Electrooxidation Performance of HMF into FDCA at Industrial-Level Current Density.
在工业级电流密度下,掺杂 Mn 增强了 HMF 到 FDCA 中的 NiS 电氧化性能。
80.An Anti-Freezing Hydrogel Electrolyte for Flexible Zinc-Ion Batteries Operating at −70 °C.
用于-70°C 下工作的柔性锌离子电池的防冻水凝胶电解质。
81.Scalable, Versatile Synthesis of Ultrathin Polyetherimide Films and Coatings via Interfacial Polymerization.
通过界面聚合可扩展、多功能合成超薄聚醚酰亚胺薄膜和涂层。
82.A Bioinspired Capillary Force-Induced Driving Strategy for Constructing Ultra-Low-Pressure Separation Membranes.
用于构建超低压分离膜的仿生毛细管力诱导驱动策略。
83.Passivating Perovskites in Air Via an Alternating Cation Interlayer Phase Formed by Benzylamine Vapor Fumigation.
通过苯甲胺蒸气熏蒸形成的交替阳离子夹层相钝化空气中的钙钛矿。
84.Reaction Mechanisms in Platinum-Mediated Electrodynamic Therapy.
铂介导的电动力疗法的反应机制。
85.Light-Fueled Nonequilibrium and Adaptable Hydrogels for Highly Tunable Autonomous Self-Oscillating Functions.
光燃料非平衡和适应性水凝胶,用于高度可调的自主自振荡功能。
86.Blade Coating of Alloy as Top Electrodes for Efficient All-Printed Organic Photovoltaics.
合金刮刀涂层作为高效全印刷有机光伏的顶部电极。
87.2D MoN1.2-rGO Stacked Heterostructures Enabled Water State Modification for Highly Efficient Interfacial Solar Evaporation.
2D MoN1.2-rGO 堆叠异质结构可实现水态改性,实现高效界面太阳能蒸发。
88.Highly Conductive MXene/PEDOT:PSS-Integrated Poly(N-Isopropylacrylamide) Hydrogels for Bioinspired Somatosensory Soft Actuators.
用于仿生体感软执行器的高导电性 MXene/PEDOT:PSS 集成聚(N-异丙基丙烯酰胺)水凝胶。
89.Surface Reduced Manganese States as a Source of Oxygen Reduction Activity in BaMnO3.
表面还原锰态作为 BaMnO3 中氧还原活性的来源。
90.Benchmarking and Critical Design Considerations of Zero-Excess Li-Metal Batteries.
零过量锂金属电池的基准测试和关键设计考虑因素。
91.Robotic Locomotion and Piezo1 Activity Controlled with Novel Liquid Marble-based Soft Actuators.
使用新型液体大理石软执行器控制机器人运动和 Piezo1 活动。
92.Self-Reinforced Hydrogel-Based Skin-Contactable Flexible Electronics for Multimodal Electrophysiological Signal Monitoring and Emergency Alarming System.
用于多模式电生理信号监测和紧急报警系统的自增强水凝胶皮肤接触柔性电子器件。
93.Enhanced Photocurrent Performance of Flexible Micro-Photodetector Based on PN Nanowires Heterojunction using All-Laser Direct Patterning.
使用全激光直接图案化增强基于 PN 纳米线异质结的柔性微型光电探测器的光电流性能。
94.Bio-Inspired Differential Capillary Migration of Aqueous Liquid Metal Ink for Rapid Fabrication of High-Precision Monolayer and Multilayer Circuits.
水性液态金属墨水的仿生差异毛细管迁移,用于快速制造高精度单层和多层电路。
95.An Intrinsically Nonflammable Electrolyte for Prominent-Safety Lithium Metal Batteries with High Energy Density and Cycling Stability.
一种本质上不可燃的电解质,适用于具有高能量密度和循环稳定性的卓越安全性锂金属电池。
96.Toward Simultaneous Coherent Radiation in the Visible and Microwave Bands with Doped Molecular Crystals.
利用掺杂分子晶体实现可见光和微波波段的同步相干辐射。
97.Coupling BCP Ceramics with Micro-Vibration Stimulation Field for Cascade Amplification from Immune Activation to Bone Regeneration.
将 BCP 陶瓷与微振动刺激场耦合,实现从免疫激活到骨再生的级联放大。
98.Synergistic Crystallization Modulation and Defects passivation via Additive Engineering Stabilize Perovskite Films for Efficient Solar Cells.
通过增材工程进行协同结晶调制和缺陷钝化,稳定高效太阳能电池的钙钛矿薄膜。
99.Superhydrophilic All-pH-Adaptable Redox Conjugated Porous Polymers as Universal and Ultrarobust Ion Hosts for Diverse Energy Storage with Chemical Self-Chargeability.
超亲水、pH值适应性强的氧化还原共轭多孔聚合物作为通用和超鲁棒的离子主体,用于具有化学自充电能力的多种能量存储。
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