Making Compact, Functional, Electronic Braille Displays a Reality Dr. Robert Shepherd AZoM speaks with Dr. Robert Shepherd from Cornell University. In their research, Dr. Shepherd and his team made a crucial component for a technology that could make inflatable braille that changes shape under a user’s touch a reality. Triggered by combustion, Dr. Shepherd and his team created a hapt
Accelerating the Discovery of 3D Printing Materials Michael Foshey Michael is part of a team of researchers at MIT that has developed a data-driven system that accelerates the process of discovering new 3D printing materials.
Incorporating SELPA into Processes Kim Tae-Heon Coxem has developed a new automated large area particle analyzer based on SEM(Scanning Electron Microscope) that can be employed in the analysis and classification of particles by size and element.
Knife Mill GRINDOMIX GM 200 The knife mill GRINDOMIX GM 200 has two sharp, robust blades and a powerful 1000 W motor, making it the ideal instrument for grinding and homogenizing foods and feeds. 从RETSCH GMBH
大气压力电离质谱仪(APIMS) Extrel VeraSpec大气压电离质谱仪(APIMS)设计用于可靠且可重复的低零件检测极限,用于在半导体和其他高科技工业应用中使用超高纯度(UHP)气体中的污染控制。 从Extrel CMS, LLC
A New Standard of Rotary Evaporator with Ecodyst Hydrogen For many years, rotary evaporators (rotovaps) have been a standard in laboratories and industries that perform chemistry, such as laboratories in the pharmaceutical, chemical, life science, materials, environmental, and cannabis sectors. 从Ecodyst
Using the FT-NIR Wet Process Analyzer for Flat Panel Displays 从ABB Measurement & Analytics 17 Nov 2021
Superconductivity and Charge-Density Waves in Niobium Diselenide Films New research in Chinese Physics Letters investigates the phenomena of superconductivity and charge density waves in a monolayer material grown on a graphene substrate.
New Method to Design Nanomaterials with Less than 10-Nanometer Precision 本文将探讨一种新方法,该方法具有设计纳米材料的潜力,其精度少于10 nm。亚博网站下载
Electrode Applications: 3D Bundle-Like Multiwalled Carbon Nanotube Supercapacitors This article reports on work where as-synthesized BCNTs are prepared by catalytic thermal Chemical Vapor Deposition (CVD) resulting in fast charge transfer between electrode and electrolyte.