Tiger H. Tao
University of Texas at Austin
76 Papers
61 Citations
Tiger H. Tao is an academic researcher from University of Texas at Austin. The author has contributed to research in topics: Computer science & Medicine. The author has an hindex of 14, co-authored 40 publications. Previous affiliations of Tiger H. Tao include Chinese Academy of Sciences & ShanghaiTech University.
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Papers
Real-Time Functional Brain Mapping Based on High-Channel-Count, Ultra-Conformal Neural Interface
Xiner Wang,Zhaohan Chen,Jizhi Liang,Xiaoling Wei,Liuyang Sun,Meng Li,Zhitao Zhou,Tiger H. Tao +7 more
- 15 Jan 2023
TL;DR: In this article , a real-time functional brain mapping technique based on high-channel count, ultra-conformal electrocorticographic (ECoG) electrodes was reported.
Tip-enhanced nearfield grayscale thermal nanolithography
Woonsoo Lee,Shaoqing Zhang,Zhitao Zhou,Tiger H. Tao +3 more
- 01 Jan 2018
TL;DR: In this paper, a tip-enhanced nearfield grayscale thermal nanolithography (TNTN) was used to pattern the surface of a silk protein resist with the FWHM spatial resolution down to 30 nm.
Robotic Manipulation under Harsh Conditions Using Self‐Healing Silk‐Based Iontronics (Adv. Sci. 2/2022)
TL;DR: Tao et al. as mentioned in this paper reported a unique silk-based iontronic composite to simultaneously achieve high conductivity, self-healing, strong stretchability, high strain sensitivity and transparency, and universal adhesiveness across a broad working temperature range.
A Low Noise Microelectrode Array for Specific Cell Activity Modulation from Cell to Tissue
Bohan Zhang,Huiran Yang,Xiner Wang,Ziyi Zhu,Zongxing He,Wanqi Jiang,Chen Tao,Dujuan Zou,Meng Li,Zhitao Zhou,Liuyang Sun,Tiger H. Tao,Xiaoling Wei +12 more
- 15 Jan 2023
TL;DR: In this article , a microelectrode array (MEA) was used to enable simultaneous electrical stimulation and electrophysiological recordings with signal to noise ratios up to 30 in cellular models.
Assembly and Parallel Implantation of a Penetrating Flexible Probe with Thousands of Microelectrodes
Xueying Wang,Huiran Yang,Ziyi Zhu,Haoyuan Li,Chi Gu,Bohan Zhang,Shuai Wei,Hong Wei Yu,Zhitao Zhou,Liuyang Sun,Tiger H. Tao,Xiaoling Wei +11 more
- 09 Jan 2022
TL;DR: In this paper , a flexible probe was developed with multi-layer wiring technology with up to 133 sites/mm2 high-density recording sites, and polyimide quasi bouquet shape flexible connection cables were designed as the switching unit between the device and the acquisition system.