The additive manufacturing sector continues to show near-limitless potential. Innovations have taken 3D printers from creating customized figurines all the way to printing entire neighborhoods, ...

Department of Chemistry, Oregon State University, Corvallis, Oregon 97331, United States ...

Researchers at the University of California Los Angeles recently shared their breakthrough work using a specific type of ...

Advances in electronic textiles are bringing fiction closer to reality, transforming the traditional form and function of ...

Here, we report the results of our experimental work on the fabrication and assessment of the interface of PEDOT:PSS/ZnO structure. Fabricated devices show strongly asymmetric conductivity, while the ...

The presence of EM group opens up endless possibility for derivatization via either hydro-alkoxy addition or thiol-ene click chemistry. EDOT-EM could be polymerized into stable and low impedance PEDOT ...

This paper presents a temperature sensor based on a PEDOT:PSS/PVA composite fabricated using a straightforward drop-casting method encapsulated with polydimethylsiloxane (PDMS) for enhanced durability ...

Department of Chemical Engineering, Waterloo Institute for Nanotechnology, University of Waterloo, Waterloo, Ontario N2L 3G1, Canada ...

The bioelectronic scaffolds that Rutz and Okafor print appear as dark-colored dots about 6 millimeters in diameter -- about the size of a pencil eraser -- and are floating in water. Okafor has ...

事件：2月13日凌晨，中科院半导体所联合华为海思宣布，在氧化镓晶体生长领域取得突破性进展——成功制备6英寸高质量单晶衬底，良品率达国际领先水平。该技术攻克了第四代半导体量产核心瓶颈，可使新能源汽车芯片耐压值提升3倍，功耗降低60%。 据悉，研发团队创新性采用“气态微熔控制法”，突破日本技术专利壁垒。产业分析师指出，此举标志着我国在超宽禁带半导体赛道实现“换道超车”，预计2025年末将建成首条8英寸 ...