【标题速读】【Advmat】【2022年】【10月】
声明:本专栏主要对生命科学领域的一些期刊文章标题进行翻译,所有内容均由本人手工整理翻译。由于本人专业为生物分析相关,其他领域如果出现翻译错误请谅解。
Skyrmion Motion
Understanding skyrmion motion is essential for the efficient operation of skyrmionic devices. In article number 2203275, Chanyong Hwang, Kyoung-Whan Kim, Albert Min Gyu Park, Kab-Jin Kim, and co-workers uncover a universal scaling behavior in the current-driven motion of skyrmions. The topology of the shape of the interface drags the skyrmions and causes them to show hopping properties distinct from the creep motion expected for magnetic domains. The universal scaling can provide insights for implementing skyrmion devices and understanding the dynamics of moving bodies with a closed interface.
斯格明子运动
了解斯格明子运动对于斯格明子装置的高效运行至关重要。 在第 2203275 号文章中,Chanyong Hwang、Kyoung-Whan Kim、Albert Min Gyu Park、Kab-Jin Kim 及其同事发现了电流驱动的斯格明子运动中的普遍缩放行为。 界面形状的拓扑会拖动斯格明子,并使它们表现出与磁域预期的蠕变运动不同的跳跃特性。 通用缩放可以为实现斯格明子设备和理解具有封闭接口的移动物体的动力学提供见解。
Phototransistors
In article number 2205679, Peiguang Yan, Zhenhua Sun, and co-workers report a near-infrared phototransistor with benign light-irradiance adaptability using a vertically stacking graphene/lead sulfide quantum dots/graphene heterojunction as the conductive channel. The dynamic trapping and detrapping processes in the quantum dot film enable the inhabitation or potentiation of the photoresponse, based on which the photopic or scotopic adaptation behavior of the human retina is successfully mimicked, respectively.
光电晶体管
在文章编号 2205679 中,Peiguang Yan、Zhenhua Sun 及其同事报告了一种使用垂直堆叠石墨烯/硫化铅量子点/石墨烯异质结作为导电通道的具有良性光辐照适应性的近红外光电晶体管。 量子点薄膜中的动态捕获和去捕获过程能够抑制或增强光响应,在此基础上分别成功地模拟了人类视网膜的明视或暗视适应行为。
Deposition/Dissolution Battery Chemistry
In article number 2204681, Guozhao Fang, Zhigao Luo, Shuquan Liang, and co-workers research the anion-modulated balance between thermodynamics and dynamics of interfacial dissolution/deposition reaction chemistry. The combination and the fusion between anions and cations in the upper and lower half correspond to a buffering effect and a complexation effect, respectively, which enables battery interface chemistry with high energy and high stability.
沉积/溶解电池化学
在文章编号 2204681 中,Guozhao Fang、Zhigao Luo、Shuquan Liang 及其同事研究了界面溶解/沉积反应化学的热力学和动力学之间的阴离子调节平衡。 上半部和下半部的阴离子和阳离子之间的结合和融合分别对应于缓冲效应和络合效应,这使得电池界面化学具有高能量和高稳定性。
Skin-Attachable Auditory Sensors
In article number 2205537, Kilwon Cho and co-workers report an electret-powered skin-attachable auditory sensor operating without a bulky battery. The hole-patterned electret diaphragm array with elastomer nanodroplets facilitates high sensing performance and clear voice detection in a harsh acoustic environment. The acoustic sensor shows strong potential as a communication tool for disaster response and quarantine activities.
贴在皮肤上的听觉传感器
在第 2205537 号文章中,Kilwon Cho 及其同事报告了一种驻极体供电的可贴在皮肤上的听觉传感器,无需笨重的电池即可运行。 具有弹性体纳米液滴的孔型驻极体隔膜阵列有助于在恶劣的声学环境中实现高传感性能和清晰的语音检测。 声学传感器作为灾难响应和检疫活动的通信工具显示出强大的潜力。
Bioreactors
In article number 2109973, Liping Zhong, Kun Zhang, Yongxiang Zhao, and co-workers describe how a tumor-microenvironment-enabled in situ silver-based electrochemical oncolytic bioreactor (SEOB) unlocks antitumor Ag+ prodrugs for highly efficient subcutaneous and orthotopic tumor recession via activating production of reactive oxygen species (ROS). Reduced graphene oxide (rGO), featuring 20-fold larger catalysis rate than GO, allows intratumoral H2O2 as reductants to reduce Ag+ into silver nanoparticles especially after uniting with vitamin-C-mediated H2O2 production.
生物反应器
在第 2109973 号文章中,Liping Zhu、Kun Zhang、Yongliang Zhao 及其同事描述了肿瘤微环境支持的原位银基电化学溶瘤生物反应器 (SEOB) 如何解锁抗肿瘤 Ag+ 前药,从而通过以下方式实现高效皮下和原位肿瘤消退: 激活活性氧(ROS)的产生。 还原氧化石墨烯 (rGO) 的催化速率是 GO 的 20 倍,可将肿瘤内的 H2O2 作为还原剂将 Ag+ 还原成银纳米粒子,特别是在与维生素 C 介导的 H2O2 产生结合后。
Biomimetic Membranes
In article number 2205083, Ali Doryab, Otmar Schmid, and co-workers describe how a biomimetic basement (BETA) membrane with a thickness of only 1 μm and excellent biocompatibility demonstrates the formation of the nanoscale fibrous network structure of extracellular matrix proteins (green) deposited by the cells (violet). These unique features of the BETA membrane including Young's modulus <10 kPa allow monitoring of cell mechanics in real-time.
仿生膜
在编号为2205083的文章中,Ali Doryab、Otmar Schmid及其同事描述了厚度仅为1μm且具有良好生物相容性的仿生基底(BETA)膜如何证明细胞沉积的细胞外基质蛋白(绿色)的纳米级纤维网络结构的形成(紫色)。BETA膜的这些独特特征,包括杨氏模量<10kPa,允许实时监测细胞力学。
Electrocatalysts
In article number 2206368, Yi Wang, Li Qiu, Yang-Gang Wang, Chong Cheng, and co-workers report on engineering crystalline-lattice-confined atomic Pt in metal carbides, which exhibits near-zero valence states, similar electronic structures, and matched hydrogen evolution behaviors as the Pt(111) surface. Remarkably, the Pt-doped@WCx catalyst delivers 40 times greater mass activity than Pt@C-20% in alkaline conditions.
电催化剂
在2206368号文章中,Yi Wang、Li Qiu、Yang Gang Wang、Chong Cheng及其同事报道了金属碳化物中的晶格约束原子Pt,其表现出接近零价态、类似的电子结构和与Pt(111)表面相匹配的析氢行为。值得注意的是Pt-doped@WCx催化剂的质量活性是Pt@C-20%在碱性条件下。
Mechanical Metamaterials
In article number 2206238, Bolei Deng, Katia Bertoldi, and co-workers present a neural accelerated evolution strategy to inverse design mechanical metamaterials with targeted nonlinear responses. The proposed platform could support the design of innovative footwear.
机械超材料
在第 2206238 号文章中,Bolei Deng、Katia Bertoldi 及其同事提出了一种神经加速进化策略,以逆向设计具有目标非线性响应的机械超材料。 拟议的平台可以支持创新鞋类的设计。
MXene Electrodes
Various applications of MXenes have been intensively explored, except in optoelectronics, in which poor environmental stability severely impedes its practical application. In article number 2206377, Yury Gogotsi, Tae-Woo Lee, and co-workers report a new approach to improve the environmental stability, and electrical characteristics of MXene electrodes and then demonstrate their applications in large-area optoelectronic devices.
MXene 电极
MXenes的各种应用已被深入探索,但光电子学除外,其较差的环境稳定性严重阻碍了其实际应用。 在第 2206377 号文章中,Yury Gogotsi、Tae-Woo Lee 及其同事报告了一种提高 MXene 电极的环境稳定性和电气特性的新方法,然后展示了它们在大面积光电器件中的应用。
Fluorescent Nanomaterials
By repurposing next-generation sequencing chips, millions of fluorescent NanoCluster Beacons (NCBs) can be screened in a single experiment. Combining this high-throughput screening platform with machine-learning algorithms, in article number 2204957, Hsin-Chih Yeh and co-workers establish a pipeline to design bright and multicolor NCBs in silico.
荧光纳米材料
通过重新利用下一代测序芯片,可以在一次实验中筛选数百万个荧光纳米簇信标 (NCB)。 Hsin-Chih Yeh 和同事将这种高通量筛选平台与机器学习算法相结合,在文章编号 2204957 中建立了一条在计算机上设计明亮、多色 NCB 的流程。
Honeycombs
In article number 2202361, Nikhilesh Chawla and co-workers show the initiation and growth of honeycomb cells fabricated by bees. This natural additive manufacturing process is studied by X-ray microscopy showing the time-resolved growth process of these beautiful natural structures and answering millennial-old questions about how bees construct their combs.
蜂窝状
在第 2202361 号文章中,Nikhilesh Chawla 及其同事展示了蜜蜂制造的蜂窝细胞的起始和生长。 通过 X 射线显微镜研究了这种天然增材制造过程,显示了这些美丽的自然结构的时间分辨生长过程,并回答了有关蜜蜂如何构造蜂巢的千禧年老问题。
Tumor Therapy
A pH-responsive cluster metal–organic framework nanoparticle is developed by Wenguo Cui, Baiyong Shen, Hélder A. Santos, and co-workers in article number 2203915, based on acid-induced conversion from hydrophilicity to hydrophobicity, leading to aggregated nanoparticles. These nanoparticles inhibit tumor growth and reactivate the tumor microenvironment in both pancreatic and breast cancer models.
肿瘤治疗
Wenguo Cui、Baiyong Shen、Hélder A. Santos 及其同事在文章编号 2203915 中开发了一种 pH 响应性簇状金属有机骨架纳米颗粒,该纳米颗粒基于酸诱导从亲水性到疏水性的转化,从而形成聚集的纳米颗粒。 这些纳米颗粒可抑制胰腺癌和乳腺癌模型中的肿瘤生长并重新激活肿瘤微环境。
Terahertz Emitters
In article number 2204373, Xiaojun Wu, Caihua Wan, Jimin Zhao, Sai Chen, and co-workers demonstrate efficient terahertz generation from a unique antiferromagnetic–ferromagnetic (IrMn3|CoFeB) heterostructure without an external magnetic field, using femtosecond laser pulse excitation. This can be attributed to the exchange bias or interfacial exchange coupling effect. Such field-free THz spintronics emitters can be more easily integrated with optical devices, shining light on the development of spintronic THz optoelectronic devices.
太赫兹发射器
在第 2204373 号文章中,Xiaojun Wu、Caihua Wan、Jimin Zhao、Sai Chen 及其同事展示了使用飞秒激光脉冲激励,在没有外部磁场的情况下,从独特的反铁磁-铁磁 (IrMn3|CoFeB) 异质结构中高效产生太赫兹。 这可归因于交换偏差或界面交换耦合效应。 这种无场太赫兹自旋电子发射器可以更容易地与光学器件集成,为自旋电子太赫兹光电器件的发展带来光明。
Embolic Agents
In article number 2205002, Xuyang Sun, Jing Liu, and co-workers propose a novel liquid embolic agent with rapid liquid–solid phase-transition capability, for administrating simultaneous embolotherapy, hyperthermia, and biomedical imaging. Through simple syringe injection, the liquid embolic agent can flow and fill the nutrient supply vessels of the hepatoma to realize fast embolization. This high-image-contrast material with good biocompatibility is also demonstrated to produce a large amount of heat under an external electromagnetic field to enhance the therapeutic efficacy of tumor embolization, which holds great promise in future embolism and theranostic platforms.
栓塞剂
在第 2205002 号文章中,Xuyang Sun、Jing Liu 及其同事提出了一种具有快速液固相变能力的新型液体栓塞剂,用于同时进行栓塞治疗、热疗和生物医学成像。 通过简单的注射器注射,液体栓塞剂即可流动并充满肝癌的营养供应血管,实现快速栓塞。 这种具有良好生物相容性的高图像对比度材料还被证明可以在外部电磁场下产生大量热量,以增强肿瘤栓塞的治疗效果,这在未来的栓塞和治疗诊断平台中具有广阔的前景。
Organic Semiconductors
Self-doping is an essential method of increasing carrier concentrations in organic electronics that eliminates the need to tailor host–dopant miscibility, a necessary step when employing extrinsic molecular dopants. In article number 2204656, Daniel Powell, Luisa Whittaker-Brooks, and co-workers investigate a series of self-doped organic semiconductors to generate fundamental guidelines for determining the impact that steric encumbrance, counterion selection, and tether distances has on doping efficiency, stability, morphology, and charge-carrier mobility.
有机半导体
自掺杂是提高有机电子中载流子浓度的一种重要方法,它消除了调整主体-掺杂剂混溶性的需要,这是使用外源分子掺杂剂的必要步骤。在第2204656号文章中,Daniel Powell、Luisa Whittaker Brooks及其同事研究了一系列自掺杂有机半导体,以制定基本指南,确定空间阻碍、反离子选择和系链距离对掺杂效率、稳定性、形态和载流子迁移率的影响。
Photopatterning
In article number 2205504, BongSoo Kim, Wan Ki Bae, Moon Sung Kang, and co-workers show how light-emissive quantum dots can be directly photopatterned using additives containing multiple azide units that undergo a UV-induced crosslinking reaction with the surface ligands of quantum dots. Patterns of red, green, and blue quantum dot patterns can be successfully formed at micrometer-scale resolution using photolithography facilities widely available in industry.
光图案化
在2205504号文章中,BongSoo Kim、Wan Ki Bae、Moon Sung Kang及其同事展示了如何使用含有多个叠氮化物单元的添加剂直接对发光量子点进行光图案化,所述叠氮化物单元与量子点的表面配体发生UV诱导的交联反应。使用工业上广泛可用的光刻设备,可以成功地以微米级分辨率形成红色、绿色和蓝色量子点图案的图案。
Hollow Nanostructures
In article number 2205153, Bao-Lian Su, Jian Liu, and co-workers report a nanoscale chemical surgery strategy on phenolic resins to construct multilevel hollow nanostructures. These special architectures contribute to the fabrication of a smart nanoreactor with precise metal nanoparticles spatial location (Au nanoparticles internally encapsulated and Pd nanoparticles externally supported), which exhibits exceptional catalytic hydrogenation performance.
空心纳米结构
在第 2205153 号文章中,Bao-Lian Su、Jian Liu 及其同事报告了一种利用酚醛树脂构建多层中空纳米结构的纳米级化学手术策略。 这些特殊的结构有助于制造具有精确金属纳米颗粒空间位置(内部封装金纳米颗粒和外部支撑钯纳米颗粒)的智能纳米反应器,该反应器表现出优异的催化氢化性能。
Perovskite Light-Emitting Diodes
Although the efficiency of perovskite light-emitting diodes (LEDs) has reached commercial requirements, their operational lifetime is still challenging. In article number 2205217, Xiaoyu Zhang, Andrey L. Rogach, Xuyong Yang, and co-workers review recent advances in the lifetime of perovskite LEDs, the origins of instability in perovskite LEDs, and strategies to improve the stability on both material and device aspects.
钙钛矿发光二极管
尽管钙钛矿发光二极管(LED)的效率已达到商业要求,但其使用寿命仍然具有挑战性。 在文章编号 2205217 中,Xiaoyu Zhu、Andrey L. Rogach、Xuyong Yang 及其同事回顾了钙钛矿 LED 寿命的最新进展、钙钛矿 LED 不稳定的根源以及提高材料和器件方面稳定性的策略 。
X-ray Scintillators
An ultraflexible and stable large-area X-ray scintillator screen is reported by Jiawen Xiao, Zhifeng Shi, and co-workers in article number 2204801, prepared by loading the vacancy-ordered double perovskite Cs2ZrCl6 into poly(dimethylsiloxane). This large-area flexible scintillator screen not only has high light yield and low detection limit, but also enables high-quality imaging of nonplanar and dynamic objects.
X射线闪烁体
Jiawen Shaw、Zhifeng Shi 及其同事在文章编号 2204801 中报道了一种超柔性且稳定的大面积 X 射线闪烁体屏幕,该屏幕是通过将空位有序的双钙钛矿 Cs2ZrCl6 负载到聚(二甲基硅氧烷)中制备的。 这种大面积柔性闪烁体屏幕不仅具有高光产额和低检测限,而且能够实现非平面和动态物体的高质量成像。
Origami Metamaterials
In article number 2107998, Glaucio H. Paulino and co-workers create a class of metamaterials derived from a reconfigurable origami pattern with triclinic symmetry, leading to reversible auxeticity. When the tristable unit cells are tessellated, phenomena that resemble linear and point defects emerge as a result of geometric frustration, which can be reprogrammed at desired locations. The resulting tessellations and metamaterials display tunable anisotropy and have potential applications to wave propagation control and in microrobots.
折纸超材料
在第 2107998 号文章中,Glaucio H. Paulino 及其同事创建了一类超材料,源自具有三斜对称的可重构折纸图案,从而产生可逆的拉胀性。 当三稳态晶胞被镶嵌时,由于几何挫败而出现类似于线性和点缺陷的现象,可以在所需位置重新编程。 由此产生的镶嵌图案和超材料显示出可调的各向异性,并且在波传播控制和微型机器人中具有潜在的应用。
Renal Cell Carcinoma
In article number 2203518, Ziqi Wang, Lei Wang, Hao Wang, Wanhai Xu, and co-workers report a transformable extracellular matrix (ECM) deprivation system (EDS) that targets fibronectin for depriving the ECM of renal cell carcinoma (RCC). The cage-like nanofibers formed by the EDS deprive the ECM of RCC cells, which efficaciously reverses anoikis resistance and ameliorates the RCC's cell-adhesion-mediated drug resistance (CAM-DR).
肾细胞癌
在第 2203518 号文章中,Ziqi Wang、Lei Wang、Hao Wang、Wanhai Xu 及其同事报告了一种可转化的细胞外基质 (ECM) 剥夺系统 (EDS),该系统以纤连蛋白为目标,用于剥夺肾细胞癌 (RCC) 的 ECM。 EDS形成的笼状纳米纤维剥夺了RCC细胞的ECM,从而有效逆转失巢凋亡抵抗并改善RCC的细胞粘附介导的耐药性(CAM-DR)。
1.Amplifying Molecular Scale Rotary Motion: The Marriage of Overcrowded Alkene Molecular Motor with Liquid Crystals.
放大分子尺度旋转运动:过度拥挤的烯烃分子马达与液晶的结合。
2.Necklace-Like Nanostructures: From Fabrication, Properties to Applications.
项链状纳米结构:从制造、性能到应用。
3.Universal Hopping Motion Protected by Structural Topology.
受结构拓扑保护的通用跳跃运动。
4.An Irradiance-Adaptable Near-Infrared Vertical Heterojunction Phototransistor.
一种辐照度自适应近红外垂直异质结光电晶体管。
5.Balanced Interfacial Ion Concentration and Migration Steric Hindrance Promoting High-Efficiency Deposition/Dissolution Battery Chemistry.
平衡的界面离子浓度和迁移空间位阻促进高效沉积/溶解电池化学。
6.An Electret-Powered Skin-Attachable Auditory Sensor that Functions in Harsh Acoustic Environments.
驻极体供电的皮肤附着式听觉传感器,可在恶劣的声学环境中工作。
7.In Situ Silver-Based Electrochemical Oncolytic Bioreactor.
原位银基电化学溶瘤生物反应器。
8.Engineered Bacterial Outer Membrane Vesicles as Controllable Two-Way Adaptors to Activate Macrophage Phagocytosis for Improved Tumor Immunotherapy.
工程化细菌外膜囊泡作为可控双向接头,激活巨噬细胞吞噬作用,从而改善肿瘤免疫治疗。
9.Large Room Temperature Anomalous Transverse Thermoelectric Effect in Kagome Antiferromagnet YMn6Sn6.
Kagome 反铁磁体 YMn6Sn6 中的大室温反常横向热电效应。
10.Self-Formation CoO Nanodots Catalyst in Co(TFSI)2-Modified Electrolyte for High Efficient Li-O2 Batteries.
用于高效 Li-O2 电池的 Co(TFSI)2 改性电解质中的自形成 CoO 纳米点催化剂。
11.Magnetic Alignment for Plasmonic Control of Gold Nanorods Coated with Iron Oxide Nanoparticles.
用于氧化铁纳米粒子涂覆的金纳米棒的等离子体控制的磁对准。
12.Room-Temperature Anode-Less All-Solid-State Batteries via the Conversion Reaction of Metal Fluorides.
通过金属氟化物的转化反应制备室温无阳极全固态电池。
13.Super-Linear-Threshold-Switching Selector with Multiple Jar-Shaped Cu-Filaments in the Amorphous Ge3Se7 Resistive Switching Layer in a Cross-Point Synaptic Memristor Array.
交叉点突触忆阻器阵列中非晶 Ge3Se7 电阻切换层中具有多个罐形铜丝的超线性阈值切换选择器。
14.Modular Nanostructures Facilitate Low Thermal Conductivity and Ultra-High Thermoelectric Performance in n-Type SnSe.
模块化纳米结构有利于 n 型 SnSe 的低导热率和超高热电性能。
15.Direct Exciton Harvesting from a Bound Triplet Pair.
从束缚三重态对直接获取激子。
16.Ultralow-Power and Radiation-Tolerant Complementary Metal-Oxide-Semiconductor Electronics Utilizing Enhancement-Mode Carbon Nanotube Transistors on Paper Substrates.
利用纸基板上的增强模式碳纳米管晶体管的超低功耗和耐辐射互补金属氧化物半导体电子器件。
17.Wireless Miniature Magnetic Phase-Change Soft Actuators.
无线微型磁性相变软执行器。
18.Multidimensional Perovskites for High Detectivity Photodiodes.
用于高检测率光电二极管的多维钙钛矿。
19.Atomic-Scale Homogeneous RuCu Alloy Nanoparticles for Highly Efficient Electrocatalytic Nitrogen Reduction.
用于高效电催化氮还原的原子级均质钌铜合金纳米颗粒。
20.A Zinc-Ion Battery-Type Self-Powered Pressure Sensor with Long Service Life.
锌离子电池式自供电压力传感器,使用寿命长。
21.A Simple Preheating-Pyrolysis Strategy Leading to Superior Oxygen Reduction Reaction Activity in Fe-N/Carbon Black.
一种简单的预热热解策略可在 Fe-N/炭黑中产生优异的氧还原反应活性。
22.Atomic-Scale Observation of Grain Boundary Dominated Unsynchronized Phase Transition in Polycrystalline Cu2Se.
多晶 Cu2Se 中晶界主导的不同步相变的原子尺度观察。
23.Integrated Ideal-Bandgap Perovskite/Bulk-Heterojunction Solar Cells with Efficiencies > 24%.
集成理想带隙钙钛矿/体异质结太阳能电池,效率 > 24%。
24.Tropocollagen-Inspired Hierarchical Spiral Structure of Organic Fibers in Epoxy Bulk for 3D High Thermal Conductivity.
受原胶原启发的环氧树脂散装有机纤维的分层螺旋结构,具有 3D 高导热性。
25.Visible Light Induced Ag–Polyoxometalate Coassembly into Single-Cluster Nanowires.
可见光诱导银-多金属氧酸盐共组装成单簇纳米线。
26.Fully Textured, Production-Line Compatible Monolithic Perovskite/Silicon Tandem Solar Cells Approaching 29% Efficiency.
完全纹理化、生产线兼容的单片钙钛矿/硅串联太阳能电池效率接近 29%。
27.Role of Moisture and Oxygen in Defect Management and Orderly Oxidation Boosting Carbon-Based CsPbI2Br Solar Cells to a New Record Efficiency.
水分和氧气在缺陷管理和有序氧化中的作用,促进碳基 CsPbI2Br 太阳能电池达到新的效率纪录。
28.“Red Carbon”: A Rediscovered Covalent Crystalline Semiconductor.
“红碳”:重新发现的共价晶体半导体。
29.Unbreakable Hydrogels with Self-Recoverable 10 200% Stretchability.
坚不可摧的水凝胶,具有可自我恢复的 10 200% 拉伸性。
30.Recent Progress in Smart Polymeric Gel-Based Information Storage for Anti-Counterfeiting.
基于智能聚合物凝胶的防伪信息存储的最新进展。
31.Emerging Solid-to-Solid Phase-Change Materials for Thermal-Energy Harvesting, Storage, and Utilization.
用于热能收集、储存和利用的新兴固-固相变材料。
32.Real-Time Measurement of Cell Mechanics as a Clinically Relevant Readout of an In Vitro Lung Fibrosis Model Established on a Bioinspired Basement Membrane.
细胞力学的实时测量作为在仿生基底膜上建立的体外肺纤维化模型的临床相关读数。
33.Crystalline Lattice-Confined Atomic Pt in Metal Carbides to Match Electronic Structures and Hydrogen Evolution Behaviors of Platinum.
金属碳化物中的晶格限制原子铂,以匹配铂的电子结构和析氢行为。
34.Inverse Design of Mechanical Metamaterials with Target Nonlinear Response via a Neural Accelerated Evolution Strategy.
通过神经加速进化策略进行具有目标非线性响应的机械超材料逆向设计。
35.Overcoming the Limitations of MXene Electrodes for Solution-Processed Optoelectronic Devices.
光电器件中 MXene 电极的局限性。
36.Massively Parallel Selection of NanoCluster Beacons.
NanoCluster 信标的大规模并行选择。
37.Polar Species for Effective Dielectric Regulation to Achieve High-Performance CsPbI3 Solar Cells.
用于有效介电调节的极性物质以实现高性能 CsPbI3 太阳能电池。
38.Perovskite or Not Perovskite? A Deep-Learning Approach to Automatically Identify New Hybrid Perovskites from X-ray Diffraction Patterns.
钙钛矿还是非钙钛矿?一种从 X 射线衍射图案中自动识别新型混合钙钛矿的深度学习方法。
39.Room-Temperature Negative Differential Resistance and High Tunneling Current Density in GeSn Esaki Diodes.
GeSn Esaki 二极管的室温负微分电阻和高隧道电流密度。
40.Cationic Polysaccharide Conjugates as Antibiotic Adjuvants Resensitize Multidrug-Resistant Bacteria and Prevent Resistance.
阳离子多糖缀合物作为抗生素佐剂使多重耐药细菌重新敏感并预防耐药性。
41.Ionic-Liquid-Assisted Synthesis of FeSe–MnSe Heterointerfaces with Abundant Se Vacancies Embedded in N,B Co-Doped Hollow Carbon Microspheres for Accelerating the Sulfur Reduction Reaction.
离子液体辅助合成具有丰富 Se 空位的 FeSe-MnSe 异质界面,嵌入 N、B 共掺杂空心碳微球中以加速硫还原反应。
42.Realizing a 10 °C Cooling Effect in a Flexible Thermoelectric Cooler Using a Vortex Generator.
使用涡流发生器在柔性热电冷却器中实现 10 °C 的冷却效果。
43.Molecularly Engineered Protein Glues with Superior Adhesion Performance.
具有卓越粘合性能的分子工程蛋白质胶。
44.Probing the Spin Dimensionality in Single-Layer CrSBr Van Der Waals Heterostructures by Magneto-Transport Measurements.
通过磁输运测量探测单层 CrSBr 范德华异质结构中的自旋维数。
45.Large Memory Window of van der Waals Heterostructure Devices Based on MOCVD-Grown 2D Layered Ge4Se9.
基于 MOCVD 生长的二维层状 Ge4Se9 的范德华异质结构器件的大存储窗口。
46.Crossover Effects in Lithium-Metal Batteries with a Localized High Concentration Electrolyte and High-Nickel Cathodes.
具有局部高浓度电解质和高镍阴极的锂金属电池的交叉效应。
47.A Machine-Learning-Enhanced Simultaneous and Multimodal Sensor Based on Moist-Electric Powered Graphene Oxide.
基于湿电动氧化石墨烯的机器学习增强型同步多模态传感器。
48.Efficient and Stable Perovskite Solar Cells with a High Open-Circuit Voltage Over 1.2 V Achieved by a Dual-Side Passivation Layer.
通过双面钝化层实现高效稳定的钙钛矿太阳能电池,开路电压超过 1.2 V。
49.Construction of Ultrathin S-Scheme Heterojunctions of Single Ni Atom Immobilized Ti-MOF and BiVO4 for CO2 Photoconversion of nearly 100% to CO by Pure Water.
单 Ni 原子固定 Ti-MOF 和 BiVO4 的超薄 S 型异质结的构建,用于纯水将 CO2 光转化为近 100% 的 CO。
50.MoSe2–VSe2–NbSe2 Ternary Alloy Nanosheets to Boost Electrocatalytic Hydrogen Evolution Reaction.
MoSe2–VSe2–NbSe2 三元合金纳米片促进电催化析氢反应。
51.A Silica-Reinforced Composite Electrolyte with Greatly Enhanced Interfacial Lithium-Ion Transfer Kinetics for High-Performance Lithium Metal Batteries.
一种二氧化硅增强复合电解质,具有大大增强的界面锂离子传输动力学,适用于高性能锂金属电池。
52.Balancing the Selective Absorption and Photon-to-Electron Conversion for Semitransparent Organic Photovoltaics with 5.0% Light-Utilization Efficiency.
平衡半透明有机光伏的选择性吸收和光子到电子转换,光利用率为 5.0%。
53.Observation of Superconducting Collective Modes from Competing Pairing Instabilities in Single-Layer NbSe2.
从单层 NbSe2 竞争配对不稳定性中观察超导集体模式。
54.Tumor Selective Metabolic Reprogramming as a Prospective PD-L1 Depression Strategy to Reactivate Immunotherapy.
肿瘤选择性代谢重编程作为重新激活免疫治疗的前瞻性 PD-L1 抑制策略。
55.A Novel Multi-Sulfur Source Collaborative Chemical Bath Deposition Technology Enables 8%-Efficiency Sb2S3 Planar Solar Cells.
新型多硫源协同化学浴沉积技术可实现 8% 效率的 Sb2S3 平面太阳能电池。
56.Zn-Metal–Organic Framework Derived Ordered Mesoporous Carbon-Based Nanostructure for High-Performance and Universal Multivalent Metal Ion Storage.
锌金属有机框架衍生的有序介孔碳基纳米结构,用于高性能和通用多价金属离子存储。
57.A Peritumorally Injected Immunomodulating Adjuvant Elicits Robust and Safe Metalloimmunotherapy against Solid Tumors.
瘤周注射的免疫调节佐剂可引发针对实体瘤的稳健且安全的金属免疫疗法。
58.Perovskite Wide-Angle Field-Of-View Camera.
钙钛矿广角视场相机。
59.Carbon Surface Chemistry: New Insight into the Old Story.
碳表面化学:对旧故事的新见解。
60.Greenificated Molecularly Imprinted Materials for Advanced Applications.
用于高级应用的绿色化分子印迹材料。
61.Emerging Biomaterials Imaging Antitumor Immune Response.
新兴生物材料成像抗肿瘤免疫反应。
62.Unraveling the Mechanisms of the Apis mellifera Honeycomb Construction by 4D X-ray Microscopy.
通过 4D X 射线显微镜揭示蜜蜂蜂巢结构的机制。
63.A pH-Responsive Cluster Metal–Organic Framework Nanoparticle for Enhanced Tumor Accumulation and Antitumor Effect.
用于增强肿瘤蓄积和抗肿瘤作用的 pH 响应簇金属有机框架纳米颗粒。
64.Antiferromagnetic–Ferromagnetic Heterostructure-Based Field-Free Terahertz Emitters.
基于反铁磁-铁磁异质结构的无场太赫兹发射器。
65.Phase-Transitional Bismuth-Based Metals enable Rapid Embolotherapy, Hyperthermia, and Biomedical Imaging.
相变铋基金属可实现快速栓塞治疗、热疗和生物医学成像。
66.Establishing Self-Dopant Design Principles from Structure–Function Relationships in Self-n-Doped Perylene Diimide Organic Semiconductors.
从自掺杂苝二酰亚胺有机半导体的结构-功能关系建立自掺杂设计原则。
67.Atomically Thin, Ionic–Covalent Organic Nanosheets for Stable, High-Performance Carbon Dioxide Electroreduction.
原子薄的离子-共价有机纳米片,用于稳定、高性能的二氧化碳电还原。
68.A Polymeric Strategy Empowering Vascular Cell Selectivity and Potential Application Superior to Extracellular Matrix Peptides.
赋予血管细胞选择性和优于细胞外基质肽的潜在应用的聚合策略。
69.Step-Climbing Epitaxy of Layered Materials with Giant Out-of-Plane Lattice Mismatch.
具有巨大面外晶格失配的层状材料的阶梯攀登外延。
70.Thermoformable Boron Nitride Based All-Ceramics.
可热成型氮化硼基全陶瓷。
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