Dynamic control of high-voltage actuator arrays by light-pattern projection on photoconductive switches  

作　　者：Vesna Bacheva Amir Firouzeh Edouard Leroy Aiste Balciunaite Diana Davila Israel Gabay Federico Paratore Moran Bercovici Herbert Shea Govind Kaigala 

机构地区：[1]Faculty of Mechanical Engineering,Technion-Israel Institute of Technology,3200003 Haifa,Israel [2]IBM Research Europe-Zurich,Säumerstrasse 4,8803 Rüschlikon,Switzerland [3]Soft Transducers Laboratory(LMTS),Ecole Polytechnique Fédérale de Lausanne(EPFL),2000 Neuchâtel,Switzerland [4]Present address:Laboratory of Soft Materials and Interfaces,ETH Zürich,8093 Zürich,Switzerland [5]Present address:School of Biomedical Engineering,Vancouver Prostate Centre,Life Sciences Institute,University of British Columbia,Vancouver,Canada

出　　处：《Microsystems & Nanoengineering》2023年第3期387-396,共10页微系统与纳米工程（英文）

基　　金：We thank S.Shmulevich for useful discussion and continuous support,U.Drechsler for continuous help and support on the microfabrication,the Micro and Nano Fabrication and Printing Unit at Technion where zinc oxide deposition was performed,and particularly G.Ankonina for his help in developing the deposition process,H.Wolf for recording the actuator deformations in Supplementary Movie S4 with his photography equipment,V.B.,and G.V.K.acknowledge R.Allenspach,H.Riel,and W.Riess for their continuous support.We gratefully acknowledge funding from the Israel Science Foundation grant no.2263/20 and the Swiss National Science Foundation grant no.200021_200641.

摘　　要：The ability to control high-voltage actuator arrays relies, to date, on expensive microelectronic processes or on individual wiring of each actuator to a single off-chip high-voltage switch. Here we present an alternative approach that uses on-chip photoconductive switches together with a light projection system to individually address high-voltage actuators. Each actuator is connected to one or more switches that are nominally OFF unless turned ON using direct light illumination. We selected hydrogenated amorphous silicon (a-Si:H) as our photoconductive material, and we provide a complete characterization of its light to dark conductance, breakdown field, and spectral response. The resulting switches are very robust, and we provide full details of their fabrication processes. We demonstrate that the switches can be integrated into different architectures to support both AC and DC-driven actuators and provide engineering guidelines for their functional design. To demonstrate the versatility of our approach, we demonstrate the use of the photoconductive switches in two distinctly different applications—control of µm-sized gate electrodes for patterning flow fields in a microfluidic chamber and control of cm-sized electrostatic actuators for creating mechanical deformations for haptic displays.

关 键 词：PROJECTION light sized 

分 类 号：TB383[一般工业技术—材料科学与工程]