Professor | Zhao Zhengtuo | Asia Growth Partners

Name	Zhao Zhengtuo
Language ability	Chinese, English
Province	Shanghai

Name

Zhao Zhengtuo

Language ability

Chinese, English

Province

Shanghai

University/Lab Affiliation and Title	Chinese Academy of Sciences
Faculty	institute of neuroscience Chinese academy of sciences
Academic Background & Achievements	2013 - Bachelor of Engineering: Xi'an Jiaotong University 2013-2015 - Master of Mechanical Engineering: University of Michigan-Dearborn 2015-2019 - PhD in Biomedical Engineering: University of Texas at Austin Selected for National Excellent Young Scientists Fund (Overseas) Shanghai Brain Science and Brain-like Research Center 'Qiusuo Outstanding Youth' Shanghai Overseas High-level Talent Introduction
Work Experience	2019-2020 - Postdoctoral Research: University of Texas at Austin/Rice University 2020-present - Researcher, Research Group Leader: Center for Excellence in Brain Science and Intelligence Technology, Chinese Academy of Sciences
Awards	National Excellent Young Scientists Fund (Overseas) Shanghai Brain Science and Brain-like Research Center 'Qiusuo Outstanding Youth' Shanghai Overseas High-level Talent Introduction

University/Lab Affiliation and Title

Chinese Academy of Sciences

Faculty

institute of neuroscience Chinese academy of sciences

Academic Background & Achievements

2013 - Bachelor of Engineering: Xi'an Jiaotong University
2013-2015 - Master of Mechanical Engineering: University of Michigan-Dearborn
2015-2019 - PhD in Biomedical Engineering: University of Texas at Austin
Selected for National Excellent Young Scientists Fund (Overseas)
Shanghai Brain Science and Brain-like Research Center 'Qiusuo Outstanding Youth'
Shanghai Overseas High-level Talent Introduction

Work Experience

2019-2020 - Postdoctoral Research: University of Texas at Austin/Rice University
2020-present - Researcher, Research Group Leader: Center for Excellence in Brain Science and Intelligence Technology, Chinese Academy of Sciences

Awards

National Excellent Young Scientists Fund (Overseas)
Shanghai Brain Science and Brain-like Research Center 'Qiusuo Outstanding Youth'
Shanghai Overseas High-level Talent Introduction

Areas of Focus	Long-term stable, ultra-high bandwidth flexible implantable neural interfaces Integrated flexible neural interface system development Research on brain function and brain disease neural mechanisms based on mesoscopic functional brain network dynamics Efficient, bidirectional flexible implantable brain-machine interfaces for clinical applications
Publications	An Ultraflexible Electrode Array for Large-Scale Chronic Recording in the Nonhuman Primate Brain, Tian, Y., Yin, J., Wang, C., He, Z., Xie, J., Feng, X., Zhou, Y., Ma, T., Xie, Y., Li, X., Yang, T., Ren, C.,Li. C.,Z, Zhao., 2023 Ultraflexible electrode arrays enable long-term, volumetric mapping of neural networks at the thousands-of-neuron scale, Z, Zhao.#, H, Zhu.#, X, Li.#, L, Sun., F, He., JE, Chung., DF, Liu., L, Frank., L, Luan., and C, Xie., 2022 A 12-V Single-Input Multiple-Independently Configurable-Output Dynamic Voltage Scaling Supply in Standard 0.18-μm CMOS for Electrical Stimulation Applications, X, Zeng., X, Zhang., Z, Wang., Z, Zhao., X, Li., L, Yao., N, Xue., 2022 Multimodal mapping of neural activity and cerebral blood flow reveals long-lasting neurovascular dissociations after small-scale strokes, F He, C Sullender, H Zhu, M Williamson, X Li,Z Zhao, T Jones, C Xie, A Dunn and L Luan, 2020 Parallel, minimally-invasive implantation of ultra-flexible neural electrode arrays, Z Zhao, X Li, F He, X Wei, S Lin and C Xie, 2019 Nanoelectronics enabled chronic multimodal neural platform in a mouse ischemic model, CT Sullender, X Li,Z Zhao, H Zhu, X Wei, C Xie and AK Dunn, 2018 Nanofabricated ultra-flexible electrode arrays for high-density intracortical recording, X Wei#, L Luan#,Z Zhao#, X Li, H Zhu, O Potnis and C Xie, 2018 Nanoelectronic Coating Enabled Versatile Multifunctional Neural Probes, Z Zhao#, L Luan#, X Wei, H Zhu, X Li, S Lin, JJ Siegel, RA Chitwood, C Xie, 2017 A novel flexible microfluidic meshwork to reduce fibrosis in glaucoma surgery, B Amoozgar, X Wei, J Lee, M Bloomer,Z Zhao, P Coh, F He, L Luan, C Xie, Y Han, 2017 Ultraflexible nanoelectronic probes form reliable, glial scar–free neural integration, L Luan#, X Wei#,Z Zhao#, JJ Siegel, O Potnis, CA Tuppen, S Lin, S Kazmi, RA Fowler, S Holloway, AK Dunn, RA Chitwood, C Xie, 2017 On chip Porous Microgel Generation and Microfluidic Enhanced VEGF Detection, Z Zhao, MA Ameen, K Duan, G Ghosh and JF Lo, 2015 Compact Non-invasive Frequency Domain Lifetime Deifferentiation of Type I vs. III Collagen, R Liu#,Z Zhao#, A Argento, Q Fang, JF Lo, 2015 Numerical Analysis of the Rayleigh-Taylor Instability in an Electric Field, Q Yang,Z Zhao, Ben Q. Li and Y Ding, 2015 Balancing Diffusion and Convection in a Spiral Oxygen Gradient Modulates Fibroblast VEGF, Z Li, D Hu,Z Zhao, M Zhou, LP Lee, JF Lo, 2014 Quantitative and Temporal Control of Oxygen Microenvironment at the Single Islet Level, JF Lo, Y Wang, Z Li,Z Zhao, D Hu, DT Eddington, J Oberholzer, 2013

Areas of Focus

Long-term stable, ultra-high bandwidth flexible implantable neural interfaces
Integrated flexible neural interface system development
Research on brain function and brain disease neural mechanisms based on mesoscopic functional brain network dynamics
Efficient, bidirectional flexible implantable brain-machine interfaces for clinical applications

Publications

An Ultraflexible Electrode Array for Large-Scale Chronic Recording in the Nonhuman Primate Brain, Tian, Y., Yin, J., Wang, C., He, Z., Xie, J., Feng, X., Zhou, Y., Ma, T., Xie, Y., Li, X., Yang, T., Ren, C.*,Li. C.*,Z, Zhao., 2023
Ultraflexible electrode arrays enable long-term, volumetric mapping of neural networks at the thousands-of-neuron scale, Z, Zhao.#, H, Zhu.#, X, Li.#, L, Sun., F, He., JE, Chung., DF, Liu., L, Frank., L, Luan., and C, Xie., 2022
A 12-V Single-Input Multiple-Independently Configurable-Output Dynamic Voltage Scaling Supply in Standard 0.18-μm CMOS for Electrical Stimulation Applications, X, Zeng., X, Zhang., Z, Wang., Z, Zhao., X, Li., L, Yao., N, Xue., 2022
Multimodal mapping of neural activity and cerebral blood flow reveals long-lasting neurovascular dissociations after small-scale strokes, F He, C Sullender, H Zhu, M Williamson, X Li,Z Zhao, T Jones, C Xie, A Dunn and L Luan, 2020
Parallel, minimally-invasive implantation of ultra-flexible neural electrode arrays, Z Zhao, X Li, F He, X Wei, S Lin and C Xie, 2019
Nanoelectronics enabled chronic multimodal neural platform in a mouse ischemic model, CT Sullender, X Li,Z Zhao, H Zhu, X Wei, C Xie and AK Dunn, 2018
Nanofabricated ultra-flexible electrode arrays for high-density intracortical recording, X Wei#, L Luan#,Z Zhao#, X Li, H Zhu, O Potnis and C Xie, 2018
Nanoelectronic Coating Enabled Versatile Multifunctional Neural Probes, Z Zhao#, L Luan#, X Wei, H Zhu, X Li, S Lin, JJ Siegel, RA Chitwood, C Xie, 2017
A novel flexible microfluidic meshwork to reduce fibrosis in glaucoma surgery, B Amoozgar, X Wei, J Lee, M Bloomer,Z Zhao, P Coh, F He, L Luan, C Xie, Y Han, 2017
Ultraflexible nanoelectronic probes form reliable, glial scar–free neural integration, L Luan#, X Wei#,Z Zhao#, JJ Siegel, O Potnis, CA Tuppen, S Lin, S Kazmi, RA Fowler, S Holloway, AK Dunn, RA Chitwood, C Xie, 2017
On chip Porous Microgel Generation and Microfluidic Enhanced VEGF Detection, Z Zhao, MA Ameen, K Duan, G Ghosh and JF Lo, 2015
Compact Non-invasive Frequency Domain Lifetime Deifferentiation of Type I vs. III Collagen, R Liu#,Z Zhao#, A Argento, Q Fang, JF Lo, 2015
Numerical Analysis of the Rayleigh-Taylor Instability in an Electric Field, Q Yang,Z Zhao, Ben Q. Li and Y Ding, 2015
Balancing Diffusion and Convection in a Spiral Oxygen Gradient Modulates Fibroblast VEGF, Z Li, D Hu,Z Zhao, M Zhou, LP Lee, JF Lo, 2014
Quantitative and Temporal Control of Oxygen Microenvironment at the Single Islet Level, JF Lo, Y Wang, Z Li,Z Zhao, D Hu, DT Eddington, J Oberholzer, 2013

Neural Interfaces Flexible Electronics Biocompatibility High Bandwidth Brain-Machine Interface Neuroscience Neuroengineering Biomedical Engineering Microelectronics Mechanical Engineering

Li Xue - Chinese Academy of Sciences

Yi Li - Chinese Academy of Sciences

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