Lab for Single-Cell Nanoengineering (LSCN)

Conference Papers and Talks
  • 会报告、主题报告、邀请报告

  1. 主题报告)Nanoelectroporation: Single Cell Gene Therapy and Analysis第二届细胞生物信息学研讨会Beijing, China (12/2019)

  2. 邀请报告)Nanoelectroporation: Single Cell Gene Therapy and Analysis第三届微流控技术应用创新论坛Xiamen, China (12/2019)

  3. 主题报告)Wearable Nanodevice for Single-cell Sensing and Transfection, IEEE NSENSShenzhen, China (11/2019)

  4. 邀请报告)Nanoelectroporation: Single Cell Gene Therapy and Analysis, 2019中国生物医学工程大会暨创新医疗峰会Jinan, China (11/2019)

  5. 邀请报告)Wearable Nanodevice for Single-cell Sensing and Transfection2019中国电子学术年会电路与系统分会Beijing, China (11/2019)

  6. 邀请报告)Wearable Nanodevice for Single-cell Sensing and Transfection, 2019中国微纳米技术学会年会Wuhan, China (10/2019)

  7. 邀请报告)Nanoelectroporation: Single Cell Gene Therapy and Analysis2019海峡两岸暨港澳台青年科学家论坛Xian, China (09/2019)

  8. 邀请报告)Wearable Nanodevice for Single-cell Sensing and Transfection, IEEE Nano 2019, Macao, China (07/2019)

  9. 大会报告)Single Cell GeneTherapy and Analysis on Nano-electroporation Chip北航第五届唯实国际学者论坛, Beijing, China (12/2018)

  10. 邀请报告)Single Cell Genetherapy by Nano-electroporation technique, 中国微纳米技术学会年会 2018, Zhenzhou, China (10/2018)

  11. 邀请报告)Controllable Manipulation and Transfection of Single Cell on Nano-electroporation Platform, Microsystem and Nanoengineering Summit 2018, Beijing, China (07/2018)

  • 校邀请报告 (Selected)

  1. Single-Cell Analysis and Therapy on Nano-electroporation Chip, TshinghuaUniversity, Beijing, China (06/2019)

  2. Controllable Manipulation and Transfection of Single Cell on Nano-electroporation Platform, Peking University, Beijing, China (11/2017)

  3. Controllable Manipulation and Transfection of Single Cell on Nano-electroporation Platform, Beihang University, Beijing, China (11/2017)

  4. Controllable Manipulation and Transfection of Single Cell on Nano-electroporation Platform, Florida State University, Tallahassee, FL, USA(10/2017)

  5. Controllable Manipulation and Transfection of Single Cell on Nano-electroporation Platform, University of Texas, San Antonio, TX, USA(10/2017)

  6. BioNEMS: Nano-electroporation Systems, University of Electronic Science and Technology of China, Chengdu, China (12/2016)

  7. BioNEMS: Nano-electroporation Systems, Nothwestern Polytechnical University, Xian, China (12/2016)

  8. Nano-Electroporation MEMS Chips, Department of Mechanical Engineering, Zhejiang University, Hangzhou, China (05/2016)

  9. Nano-Electroporation Chips for Controllable Cell Reprogramming and Intracellular Sensing, State Key Laboratory of Transducer Technology, Chinese Academy of Science, Beijing, China (04/2016)

  10. Nano-Electroporation Chips for Controllable Cell Reprogramming and Intracellular Sensing, Department of Biomedical Engineering, Nothwestern Polytechnical University, Xian, China (04/2016)

  11. Engineered Cell Reprogramming, Department of Engineering Science and Mechanics, The Pennsylvania State University, State College, USA (12/2012)

  • 术会议论文、口头报告Selected

  1. Z. Dong, X. Hang, C. Chitrakar, L. Chang*, Single Living Cell Nano-electrotransfection for Rapid Gene Analysis and Drug Screening. IEEE NEMS, San Diego, USA, 2020

  2. X. Hang, Z. Dong, Y. Hao, C. Chitrakar, L. Chang*, Wearable flexible nano-transfection devicefor on-skin gene editing with CRISPR-Cas9. IEEE NEMS, San Diego, USA, 2020

  3. Z. Dong, L. Chang*, Flexible Nano-transfection Devices for On-skin Gene Editingwith CRISPR-Cas9, Microsystem and Nanoengineering Summit, Shanghai, China, 2019. (Best Poster Award)

  4. C. Chitrakar, Y. Hao, H. Chang, S. Li, L. Chang*, Patchable electro-transfection nano-devicefor direct on-skin gene therapy. BMES, Atlanta, USA, 2018

  5. C. Chitrakar, S. Black, J. Shi, L.J. Lee, L. Chang*, A multiplexed intracellular probing (IP) nano-chip for interrogation of genetic transforming in cardiac fibrosis. BMES, Atlanta, USA, 2018.

  6. L. Chang, C. Chiang, Z. Yang, P. Bertani, L. J. Lee, W. Lu, A high-throughput nano-electroporation platform for large-scale manipulation and transfection of adult mouse cardiomyocytes. EIPBN, Pittsburgh, USA, 2016.

  7. L. Chang, X. Wang, D. Gallego-Perez, J. Shi, V. Malkoc, W. Lu, L. J. Lee, 3D Nanochannel Array Electroporation for High-throughput Cell Transfection with Dosage Control. BMES, Tampa, USA, 2015.

  8. D. Gallego-Perez, L. Chang, J. Shi, J. Ma, S. Kim, Z. Zhao, V. Malkoc, X. Wang, K. Kwak, D.Hansford, I. Nakano, L. J. Lee, Probing inter-clonal heterogeneities inpatient-derived glioma stem cell populations via micro/nanoscale technologies. BMES, Tampa, 2015.

  9. L. J. Lee, D. Gallego-Perez, X. Zhao, L. Chang, K. Gao, V. Malkoc, N. Chiang, J. C. Byrd, R.Muthusamy, W. Lu, C. Sen, Non-viral Gene and Biomolecule Delivery byNanochannel Electroporation. AIChE, 2015.

  10. L. Chang, P. Bertani, D. Gallego-Perez, V. Malkoc, W. Lu, L. J. Lee, Dielectrophoresis-assited 3D Nano-Electroporation for High-throughput Cell Transfection with High Uniformity and Dosage Control. EIPBN, San Diego, 2015

  11. P. Bertani#, L. Chang#, D. Gallego-Perez, V. Malkoc, L. J. Lee, W. Lu, 3D Si-Based Nanochannel Platform for Robust Cell Electroporation, IEEE Device Research Conference (DRC), 2015

  12. K. Gao, X. Huang, L. Li, L. Chang, X. Wang, G. Marcucci, L. J. Lee, Single-cell Level Study of Precise siRNA Delivery and Dynamics in Acute Myeloid leukemia Cells by Nanochannel Electroporation System. AIChE, 2014

  13. L. Chang, P. Bertani, D. Gallego-Perez, V. Malkoc, W. Lu, L.J. Lee, 3D Nano-channel Electroporation for High-throughput Cell Transfection. EIPBN, 2014

  14. L. Chang, H. Xiao, C. Liu, X. Cai, Integrated Electrochemical Sensor Structured of Bridge-type Injection for Simultaneous Detection of Glucose, Lactate, 3–hydroxybutyric Acid, 9th Asian Conference on Chemical Sensors, Taiwan, 2011

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