期刊名：Micromachines

期刊主页：https://www.mdpi.com/journal/micromachines

本期文献清单为您精选Micromachines期刊2025年的12篇封面文章。希望能为相关领域学者的研究提供新思路和参考，欢迎阅读，期待您的观点与交流。

Issue 1: Magnetic Field-Assisted Orientation and Positioning of Magnetite for Flexible and Electrically Conductive Sensors

基于磁场诱导磁铁矿定向与定位的柔性导电传感器研究

cite: Esteves, D.S.; Melo, A.; Alves, S.; Durães, N.; Paiva, M.C.; Sequeiros, E.W. Magnetic Field-Assisted Orientation and Positioning of Magnetite for Flexible and Electrically Conductive Sensors. Micromachines 2025, 16, 68. https://doi.org/10.3390/mi16010068

DOI: 10.3390/mi16010068

Issue 2: Enhanced Performance of Novel Amorphous Silicon Carbide Microelectrode Arrays in Rat Motor Cortex

新型非晶碳化硅微电极阵列在大鼠运动皮层中的性能增强研究

cite: Haghighi, P.; Jeakle, E.N.; Sturgill, B.S.; Abbott, J.R.; Solis, E.; Devata, V.S.; Vijayakumar, G.; Hernandez-Reynoso, A.G.; Cogan, S.F.; Pancrazio, J.J. Enhanced Performance of Novel Amorphous Silicon Carbide Microelectrode Arrays in Rat Motor Cortex. Micromachines 2025, 16, 113. https://doi.org/10.3390/mi16020113

DOI: 10.3390/mi16020113

Issue 3: Advances in Triboelectric Nanogenerators for Microbial Disinfection

摩擦纳米发电机在微生物消毒中的应用进展

cite: Jeon, J.; Kang, D.; Kim, S.-W. Advances in Triboelectric Nanogenerators for Microbial Disinfection. Micromachines 2025, 16, 281. https://doi.org/10.3390/mi16030281

DOI: 10.3390/mi16030281

Issue 4: Acoustic Bubbles as Small-Scale Energy Harvesters for Implantable Medical Devices

用于植入式医疗设备的声学气泡微型能量采集器

cite: Li, W.; Mercader, A.; Cho, S.K. Acoustic Bubbles as Small-Scale Energy Harvesters for Implantable Medical Devices. Micromachines 2025, 16, 362. https://doi.org/10.3390/mi16040362

DOI: 10.3390/mi16040362

Issue 5: Wireless Optogenetic Microsystems Accelerate Artificial Intelligence–Neuroscience Coevolution Through Embedded Closed-Loop System

无线光遗传微系统：通过嵌入式闭环加速人工智能与神经科学的协同演化

cite: Hong, S. Wireless Optogenetic Microsystems Accelerate Artificial Intelligence–Neuroscience Coevolution Through Embedded Closed-Loop System. Micromachines 2025, 16, 557. https://doi.org/10.3390/mi16050557

DOI: 10.3390/mi16050557

Issue 6: Reconfigurable Orbital Electrowetting for Controllable Droplet Transport on Slippery Surfaces

用于光滑表面可控液滴输运的可重构轨道式电润湿

cite: Wu, J.; Li, H.; Zhou, Y.; Gao, G.; Zhou, T.; Wang, Z.; Zheng, H. Reconfigurable Orbital Electrowetting for Controllable Droplet Transport on Slippery Surfaces. Micromachines 2025, 16, 618. https://doi.org/10.3390/mi16060618

DOI: 10.3390/mi16060618

Issue 7: An Organ-on-a-Chip Modular Platform with Integrated Immunobiosensors for Monitoring the Extracellular Environment

用于细胞外微环境监测的集成式免疫生物传感器器官芯片模块化平台

cite: Kanioura, A.; Filippidou, M.K.; Tsounidi, D.; Petrou, P.S.; Chatzandroulis, S.; Tserepi, A. An Organ-on-a-Chip Modular Platform with Integrated Immunobiosensors for Monitoring the Extracellular Environment. Micromachines 2025, 16, 740. https://doi.org/10.3390/mi16070740

DOI: 10.3390/mi16070740

Issue 8: Composite Behavior of Nanopore Array Large Memristors

纳米孔阵列大型忆阻器的复合行为研究

cite: Reistroffer, I.; Tolbert, J.; Osterberg, J.; Wang, P. Composite Behavior of Nanopore Array Large Memristors. Micromachines 2025, 16, 882. https://doi.org/10.3390/mi16080882

DOI: 10.3390/mi16080882

Issue 9: Design of Hydrogel Microneedle Arrays for Physiology Monitoring of Farm Animals

用于农场动物生理监测的水凝胶微针阵列设计

cite: Gautier, L.; Wiart-Letort, S.; Massé, A.; Xavier, C.; Novais-Gameiro, L.; Hoang, A.; Escudé, M.; Sorrentino, I.; Bonnet, M.; Gondret, F.; et al. Design of Hydrogel Microneedle Arrays for Physiology Monitoring of Farm Animals. Micromachines 2025, 16, 1015. https://doi.org/10.3390/mi16091015

DOI: 10.3390/mi16091015

Issue 10: Harnessing Microfluidics for the Effective and Precise Synthesis of Advanced Materials

利用微流控技术实现先进材料的高效精准合成

cite: Qi, X.; Hu, G. Harnessing Microfluidics for the Effective and Precise Synthesis of Advanced Materials. Micromachines 2025, 16, 1106. https://doi.org/10.3390/mi16101106

DOI: 10.3390/mi16101106

Issue 11: Microhand Platform Equipped with Plate-Shaped End-Effectors Enables Precise Probing of Intracellular Structure Contribution to Whole-Cell Mechanical Properties

片状探针微手平台实现细胞内结构对全细胞力学性能贡献的精准测量

cite: Kawakami, M.; Kojima, M.; Ogura, T.; Kubo, A.; Arai, T.; Sakai, S. Microhand Platform Equipped with Plate-Shaped End-Effectors Enables Precise Probing of Intracellular Structure Contribution to Whole-Cell Mechanical Properties. Micromachines 2025, 16, 1272. https://doi.org/10.3390/mi16111272

DOI: 10.3390/mi16111272

Issue 12: Power-Law Time Exponent n and Time-to-Failure in 4H-SiC MOSFETs: Beyond Fixed Reaction–Diffusion Theory

4H-SiC MOSFET器件幂律时间指数n及失效时间研究：对固定反应-扩散理论的拓展

cite: Dhyani, M.; Singh, S.; Tzhayek, N.; Bernstein, J.B. Power-Law Time Exponent n and Time-to-Failure in 4H-SiC MOSFETs: Beyond Fixed Reaction–Diffusion Theory. Micromachines 2025, 16, 1351. https://doi.org/10.3390/mi16121351

DOI: 10.3390/mi16121351

Micromachines 期刊介绍

Micromachines (ISSN 2072-666X) 是一个聚焦微/纳米尺度结构、材料、器件与系统的国际性同行评审开放获取期刊。期刊旨在为微纳科学与技术领域的前沿研究提供高水平交流平台，发表综述、原创研究论文及快讯等文章类型，尤其鼓励学者详尽发表理论与实验成果 (无篇幅限制)。其研究范围涵盖从基础到应用的微纳技术全领域，包括但不限于：微纳物理、光学MEMS、生物医学、生物传感器、纳米生物材料、微流控芯片、化学与工程应用等。