HIGH POWER SI SIDEWALL HEATERS FOR FLUIDIC APPLICATIONS FABRICATED BY TRENCH-ASSISTED SURFACE CHANNEL TECHNOLOGY

被引:0
|
作者
Veltkamp, Henk-Willem [1 ]
Zhao, Yiyuan [1 ]
de Boer, Meint J. [1 ]
Sanders, Remco G. P. [1 ]
Wiegerink, Remco J. [1 ]
Lotters, Joost C. [1 ,2 ]
机构
[1] Univ Twente, MESA Inst Nanotechnol, Enschede, Netherlands
[2] Bronkhorst High Tech BV, Ruurlo, Netherlands
来源
2019 IEEE 32ND INTERNATIONAL CONFERENCE ON MICRO ELECTRO MECHANICAL SYSTEMS (MEMS) | 2019年
关键词
D O I
10.1109/memsys.2019.8870667
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
We have fabricated mechanically stable, thermally isolated microfluidic channels with silicon heaters embedded in the sidewalls, using the trench-assisted surface channel technology (TASCT) [1]. Sidewall heating results in an enhanced heating uniformity while allowing high heating powers because of the relatively large cross-sectional area (20 mu m by 50 mu m) of the silicon heaters. In the proof-of-principle device a maximum temperature of 406 degrees C was reached at a heating power of 1.4 W, limited by thermal expansion of the channel. The fabrication process enables both the channels and the silicon heaters to have a rectangular cross-section with a depth defined by the device layer thickness and a variable width and length.
引用
收藏
页码:648 / 651
页数:4
相关论文
共 19 条
  • [1] Design and Analysis of Trench-assisted Leaky Channel Waveguide for High Power Applications
    Pandey, Himanshu
    Saini, Than Singh
    Kumar, Ajeet
    INTERNATIONAL CONFERENCE ON CONDENSED MATTER AND APPLIED PHYSICS (ICC 2015), 2016, 1728
  • [2] High-Power Single-Mode Trench-assisted EDFA
    Gaur, Ankita
    Rastogi, Vipul
    INTERNATIONAL CONFERENCE ON OPTICS AND PHOTONICS 2015, 2015, 9654
  • [3] Nano-scale Observation of Si Trench Sidewall Surface Morphology by AFM Technology
    Hiruta, Reiko
    Kuribayashi, Hitoshi
    Shimizu, Ryosuke
    NANOSCALE PHENOMENA IN FUNCTIONAL MATERIALS BY SCANNING PROBE MICROSCOPY, 2008, 1025
  • [4] Large-core single-mode trench assisted leaky channel waveguide for high-power applications
    Dahiya, Vinita
    Saini, Than S.
    Kumar, Ajeet
    Rastogi, Vipul
    Sinha, Ravindra K.
    PHOTONIC FIBER AND CRYSTAL DEVICES: ADVANCES IN MATERIALS AND INNOVATIONS IN DEVICE APPLICATIONS VII, 2013, 8847
  • [5] Design and analysis of high-power segmented-core trench-assisted Yb-free erbium doped fiber amplifier
    Gaur, Ankita
    Rastogi, Vipul
    OPTICS AND LASER TECHNOLOGY, 2017, 95 : 46 - 50
  • [6] ULTRALOW RESISTANCE, SELECTIVELY SILICIDED VDMOS FETS FOR HIGH-FREQUENCY POWER SWITCHING APPLICATIONS FABRICATED USING SIDEWALL OXIDE SPACER TECHNOLOGY
    SHENAI, K
    PIACENTE, PA
    SAIA, R
    KORMAN, CS
    TANTRAPORN, W
    BALIGA, BJ
    IEEE TRANSACTIONS ON ELECTRON DEVICES, 1988, 35 (12) : 2459 - 2459
  • [7] A new strained-Si channel power MOSFET for high performance applications
    Cho, YK
    Roh, TM
    Kim, J
    ETRI JOURNAL, 2006, 28 (02) : 253 - 256
  • [8] A Manufacturable Dual Channel (Si and SiGe) High-K Metal Gate CMOS Technology with Multiple Oxides for High Performance and Low Power Applications
    Krishnan, S.
    Kwon, U.
    Moumen, N.
    Stoker, M. W.
    Harley, E. C. T.
    Bedell, S.
    Nair, D.
    Greene, B.
    Henson, W.
    Chowdhury, M.
    Prakash, D. P.
    Wu, E.
    Ioannou, D.
    Cartier, E.
    Na, M. -H.
    Inumiya, S.
    Mcstay, K.
    Edge, L.
    Iijima, R.
    Cai, J.
    Frank, M.
    Hargrove, M.
    Guo, D.
    Kerber, A.
    Jagannathan, H.
    Ando, T.
    Shepard, J.
    Siddiqui, S.
    Dai, M.
    Bu, H.
    Schaeffer, J.
    Jaeger, D.
    Barla, K.
    Wallner, T.
    Uchimura, S.
    Lee, Y.
    Karve, G.
    Zafar, S.
    Schepis, D.
    Wang, Y.
    Donaton, R.
    Saroop, S.
    Montanini, P.
    Liang, Y.
    Stathis, J.
    Carter, R.
    Pal, R.
    Paruchuri, V.
    Yamasaki, H.
    Lee, J-H.
    2011 IEEE INTERNATIONAL ELECTRON DEVICES MEETING (IEDM), 2011,
  • [9] Surface oxide evolution on Al-Si bond wires for high-power RF applications
    Qin, W
    Doyle, R
    Scharr, T
    Shah, M
    Kottke, M
    Chen, G
    Theodore, D
    MICROELECTRONIC ENGINEERING, 2004, 75 (01) : 111 - 116
  • [10] 1700V-IGBT3: Field stop technology with optimized trench structure trend setting for the high power applications in industry and traction
    Pfaffenlehner, M
    Laska, T
    Mallwitz, R
    Mauder, A
    Pfirsch, F
    Schaeffer, C
    PROCEEDINGS OF THE 14TH INTERNATIONAL SYMPOSIUM ON POWER SEMICONDUCTOR DEVICES & ICS, 2002, : 105 - 108
12