高感度奈米分子及生醫快篩晶片系統
『高感度奈米分子及生醫快篩晶片系統』: 本所周家復研究員,致力於結合半導體製程的奈米科技及微奈米流通道平台,並將其開發的兩項獨步全球的奈米分子壩技術及奈米分子捕捉器技術,應用於分子診斷快篩晶片的開發,可分別用於生物標誌分子的快速富集與濃縮及分子捕捉,進而作超低濃度分子的分析檢測。周博士的跨國研究團隊(含美國維吉尼亞大學,德國馬克斯普朗克研究所Max Planck Institute,及法國國家研究院CNRS),於近年來,已將該兩項技術應用於癌症及神經性相關因子的高感度檢測分析。由於其發展的高感度奈米分子及生醫快篩晶片系統為一普適性平台,將有極大的應用潛力,可因應未來個人化醫療進行高靈敏度體外檢測的重要工具。
相關文獻:
1. K.T. Liao and C.F. Chou, “Nanoscale molecular traps and dams for ultrafast protein enrichment in high-conductivity buffers”, J. Am. Chem. Soc. 2012, 134, 8742−8745. DOI:10.1021/ja3016523 (Featured in JACS Spotlights: J. Am. Chem. Soc. 2012, 134, 10307. 2. L. Lesser-Rojas, P. Ebbinghaus, G. Vasan, M.L. Chu, A. Erbe, C.F. Chou, “Low-Copy Number Protein Detection by Electrode Nanogap-Enabled Dielectrophoretic Trapping for Surface-enhanced Raman Spectroscopy and Electronic Measurements”, Nano Lett. 2014, 14, 2242–2250. 3. B. Sanghavi, W. Varhue, J. Chávez, C.F. Chou, N. S. Swami, “Electrokinetic preconcentration and detection of neuropeptides at patterned graphene-modified electrodes in a nanochannel”, Anal. Chem. 2014, 86, 4120–4125. 4. B.J. Sanghavi, W. Varhue, A. Rohani, K.T. Liao, L. Bazydlo, C.F. Chou, N. S. Swami, “Ultrafast immunoassays by coupling dielectrophoretic biomarker enrichment on nanoslit molecular dam with electrochemical detection on graphene”, Lab Chip 2015, 15, 4563-4570. 5. B.J. Sanghavi, J.A. Moore, J.L. Chávez, J.A. Hagen, N. Kelley-Loughnane, C.F. Chou, N.S. Swami, “Aptamer-functionalized nanoparticles for surface immobilization-free electrochemical detection of cortisol in a microfluidic device”, Biosensors and Bioelectronics 2016, 78, 244–252.
相關新聞報導
期刊連結: http://news.ltn.com.tw/news/focus/paper/991476