Insect-scale flapping-wing MAVs with variable transmission ratio and wingspan: achieving payload adaptability, and self-stabilizing hovering [0.03%]
可变传动比和翼展的昆虫级扑翼微型飞行器:实现载荷适应性和自主悬停稳定性
Xiang Lu,Yulie Wu,Jie Chen et al.
Xiang Lu et al.
Insect-scale flapping-wing micro aerial vehicles (FWMAVs) possess compact dimensions, exceptional terrain adaptability, and operational stealth, presenting transformative potential for reconnaissance and environmental monitoring application...
Reversible tunable topological phononic crystals based upon thermo-acoustic hydrogels [0.03%]
基于热声学水凝胶的可调拓扑声子晶体
Meng Lian,Zeru Liu,Jingmi Zhang et al.
Meng Lian et al.
Topological insulator originally found in electronic systems has inspired an analogue in phononic crystals, which has revolutionized fundamental concepts of elastic and acoustic transmission, offering one-way propagation edge modes immune t...
Quasi-anisotropic wet etching of glass creates inclined microstructures for advanced optical and MEMS devices [0.03%]
准各向异性湿法蚀刻玻璃制备用于光学和MEMS器件的倾斜微结构
Jiajia Yu,Feier Li,Hao Sun et al.
Jiajia Yu et al.
Glass is one of the most widely used functional materials in various fields, thus developing high-precision, on-demand and low-cost glass microstructuring technologies is essential for both academic and industry. Although numerous technolog...
Fast net-forming of biomimetic hierarchical structures with robust oil/water separation performance [0.03%]
一种快速成型的仿生分层结构及其油水分离性能研究
Jianan Fu,Liangchi Zhang,Zhen Li et al.
Jianan Fu et al.
Biomimetic hierarchical structures (BHS) are a powerful strategy for engineering functional surfaces with exceptional properties. However, their practical application is limited by inefficient, costly and complex fabrication methods. This s...
Diffraction-limit-breaking digital projection lithography via multi-exposure strategies for high-density nanopatterning [0.03%]
基于多曝光策略的超越衍射极限的数字投影光刻纳米图形化技术
Zi-Xin Liang,Jing-Tao Chen,Yuan-Yuan Zhao et al.
Zi-Xin Liang et al.
Digital micromirror device-based maskless projection lithography (DMPL) has emerged as a transformative nanopatterning platform, yet faces fundamental challenges in resolving high-density nanostructures due to optical diffraction constraint...
Electrostatically actuated MEMS resonators for magnetic and electric field sensing: a review [0.03%]
用于磁场和电场传感的静电驱动MEMS谐振器:综述
Daeyeon Koh,Yohan Jung,Jongbaeg Kim
Daeyeon Koh
Recent advances in microelectromechanical systems (MEMS) resonators have enabled the development of compact devices capable of precise magnetic and electric field sensing. This review focuses on resonant MEMS sensors that employ electrostat...
Proximal sound printing: direct 3D printing of microstructures on polymers [0.03%]
邻近声打印:在聚合物上直接3D打印微结构
Shervin Foroughi,Mohsen Habibi,Muthukumaran Packirisamy
Shervin Foroughi
Proximal Sound Printing (PSP) is a new class of additive manufacturing (AM) processes where on-demand polymerization occurs through ultrasound waves interacting with printing material right at the proximity of the acoustic aperture by induc...
ASM-chip: an antibody-modified size-screening microfluidic chip for high-efficiency circulating glioma cell isolation and clinical application [0.03%]
一种高效的循环胶质瘤细胞分离芯片及其临床应用
Hengxing Su,Aynur Abdulla,Haoni Yan et al.
Hengxing Su et al.
Peripheral blood circulating glioma cells (CGCs) are crucial for glioma screening, prognostic evaluation, and diagnostic applications. However, reliable methods for efficient CGCs capture and comprehensive clinical evaluation on whether CGC...
Hamidreza Neshasteh,Amideddin Mataji-Kojouri,Clément Le Fur et al.
Hamidreza Neshasteh et al.
We present an optomechanical device platform for characterization of rheological, optical and thermal properties of fluids on the micron scale. A suspended silicon microdisk resonator with a vibrating mass of 100 pg and an effective probing...
3D-printed barbed microneedle electrodes for biosensing and drug delivery in wound management [0.03%]
用于伤口管理的3D打印倒钩微针电极的生物传感和药物递送
Xinyu Fu,Zhengnan Sun,Jun Gu et al.
Xinyu Fu et al.
Chronic wounds represent a major global healthcare burden, demanding integrated solutions for both continuous wound monitoring and on-demand therapeutic intervention. In this work, we present monolithic barbed microneedles (3D-BMN) for woun...