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プロフィール詳細
プロジェクトを作成
★★★★★
☆☆☆☆☆
Shomir B.に依頼
United States

MD & MEMS Expert | High-Precision Medical Device Prototyping & Microfluidics

プロフィール概要
専門分野
サービス
Writing Medical Writing
Research Scientific and Technical Research, Systematic Literature Review
Consulting Healthcare Consulting, Scientific and Technical Consulting
Product Development Concept Development, Prototyping, Reverse Engineering, Device Fabrication
職務経験

Founder

Alpha Centauri Technologies Inc

7月 2023 - 現在

Physician

Shomir Banerjee MD

6月 2006 - 現在

学歴

MD (Boonshoft School of Medicine)

Wright State University

8月 2001 - 5月 2006

MS (Electrical Materials and Devices)

University of Cincinnati

9月 1999 - 9月 2002

BS (Engineering and Computer Science)

Baylor University

9月 1991 - 12月 1995

認定資格
  • Family Medicine

    American Board of Family Medicine

    7月 2009 - 12月 2026

出版物
DISSERTATION THESIS
TY - THES ID - ucin1038001719 A1 - BANERJEE, SHOMIR AD - University of Cincinnati PB - University of Cincinnati T1 - A PROTOTYPE ON-CHIP MICRO-HEATER FOR DISPOSABLE MICRO-PCR MODULE Y1 - 2002 N2 - In this work a prototype on-chip micro-heater for thermocycling is demonstrated, which is the main component for a disposable lab-on-a-chip device than integrates a module for performing polymerase chain reaction (PCR). Several resistive micro-heaters were fabricated from gold/chrome metal films on borosilicate glass wafers and gold metal films on cyclic olefin copolymer (COC) and polycarbonate (PC) plastic wafers. Multiple resistive heaters of different geometries were designed, fabricated, and characterized to explore the feasibility of the micro-heater for a fully integrated disposable lab-on-a-chip with PCR module. Each device was characterized using custom-designed PC-based Labview virtual instruments with a data acquisition and control card. A feedback control program was implemented in Labview to characterize the dynamic response of the prototype thermocycler. The integrated on-chip micro-heater shows that the temperature transitions are short by comparison with the conventional PCR temperature routines, which would allow the fully integrated PCR module to have fast thermocycling. Optimization of the heating capacities of the on-chip micro-heater should be further investigated to make the prototype on-chip micro-heater useful, although a prototype on-chip micro-heater has been designed, fabricated, and successfully characterized to demonstrate feasibility for a fully integrated disposable PCR module. KW - PCR; microfabrication UR - http://rave.ohiolink.edu/etdc/view?acc_num=ucin1038001719 ER - .