Prof. Wu has finished visiting UIUC ILIRM Group

Dr. Wu gets award for Pujiang Talent Program 2018

近日,经专家评审、见面会考评等程序,2018年度上海市浦江人才计划A、B类项目,最终共有150人成功入选,获得资助。据上海市科学技术委员会官网公示名单显示,上科大信息学院此次共有五位教师入选浦江人才计划A类项目,分别是刘宇助理教授、邹新波助理教授、吴涛助理教授、叶朝锋助理教授以及吴幼龙助理教授。 上海市浦江人才计划简称“浦江计划”,是上海市人事局和市科委联合针对海外优秀留学人员设立的项目,目的是贯彻中共中央、国务院全面实施“科教兴市”主战略,落实《上海实施人才强市战略行动纲要》,加快集聚优秀海归人才,优化科技创新和自主创业的环境。主要资助近期回国来沪工作和创业的海外留学人员及团队。 Dr. Wu gets award for Pujiang Talent Program 2018  

Dr. Wu is visiting UIUC ILIRM Group

Dr. Wu is visiting UIUC Prof. Songbin Gong’s Illinois Laboratory of Integrated RF Microsystems (ILIRM) Group in Spring 2018.

2 Papers accepted for presentation at IEEE MEMS 2018 Conference

The 2 papers have been accepted for presentation at IEEE MEMS 2018 Conference to be held in Belfast, Northern Ireland, UK on 21-25 January 2018. 1. Tao Wu, Zhenyun Qian, and Matteo Rinaldi, “LOW COST THIN FILM ENCAPSULATION FOR ALN

Openings Available

Multiple openings of 1) Master/PhD Graduate Students; 2) Postdoctoral Fellow or Research Associate, 3) Visiting Student/Internship are currently available in SMALL. Candidates with electronic/electrical engineering, mechanical engineering, physics and materials science related background and strong interests in MEMS and Transducers

We present our work in 2017 IEEE SENSORS Conference!

Dr. Tao Wu attended and present work titled “Design and Fabrication of AlN RF MEMS Switch For Near-Zero Power RF Wake-Up Receivers” on 2017 IEEE SENSORS Conference held in Glasgow, Scotland, Oct. 30 – Nov. 1, 2017. We describe an AlN-based

Aluminum Nitride RF MEMS

Aluminum Nitride (AlN) piezoelectric nano-plate NEMS resonant devices that can address some of the most important challenges in the areas of physical, chemical and biological detection and can be simultaneously used to synthesize high-Q reconfigurable and adaptive radio frequency (RF)

Tessellated Silicon-Structures for Monocentric Imagers

Compared with conventional planar optical image sensors, a curved focal plane array can simplify the lens design and improve the field of view. In this paper, we introduce the design and implementation of a segmented, hemispherical, CMOS-compatible silicon image plane

Magnetic Nano-Ring and Single Domain

We have patterned magnetic nano-ring and single domain structures of Ni on (011) PMN-PT substrate, and used MFM and X-PEEM technique to characterize the magnetic domain movement in patterned Ni nanostructures. We have achieved a permanent 90° rotation in the

Giant Tunable Piezoelectric Remanent Strain and its Application on ME-RAM

We have demonstrated a Ni/PMN-PT ME heterostructure providing an electric-field-induced switching between two reversible and permanent magnetic easy axes perpendicular to each other. The tunable remanent strain defines the initial magnetoelastic anisotropy while the giant strain hysteresis reversibly and permanently