T
Tingrui Pan
Researcher at University of California, Davis
Publications - 184
Citations - 5437
Tingrui Pan is an academic researcher from University of California, Davis. The author has contributed to research in topics: Pressure sensor & Microfluidics. The author has an hindex of 32, co-authored 175 publications receiving 4069 citations. Previous affiliations of Tingrui Pan include Chinese Academy of Sciences & University of Science and Technology of China.
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A vacuum-driven peristaltic micropump with valved actuation chambers
TL;DR: In this article, a peristaltic micropump with valved actuation chambers and propelled by a pulsed vacuum source is presented, which achieves high pumping rates, low backflow, appreciable tolerance to air bubbles, and minimal destruction to fluid contents.
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Fabrication of an inexpensive, implantable cooling device for reversible brain deactivation in animals ranging from rodents to primates
Dylan F. Cooke,Adam B. Goldring,Itsukyo Yamayoshi,Phillippos Tsourkas,Gregg H. Recanzone,Alexandre Tiriac,Tingrui Pan,Scott I. Simon,Leah Krubitzer +8 more
TL;DR: A compact and lightweight microfluidic cooling device to reversibly deactivate one or more areas of the neocortex to examine its functional macrocircuitry as well as behavioral and cortical plasticity is developed.
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Multi-dimensional studies of synthetic genetic promoters enabled by microfluidic impact printing
Jinzhen Fan,Fernando Villarreal,Brent W. Weyers,Yunfeng Ding,Kuo Hao Tseng,Jiannan Li,Baoqing Li,Baoqing Li,Cheemeng Tan,Tingrui Pan +9 more
TL;DR: This work creates a new frontier in the use of cell-free systems and droplet printing for multi-dimensional studies of synthetic genetic constructs and a mathematical model of gene regulatory modules is established using the multi-parametric and multi- dimensional data.
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Three-dimensional fit-to-flow microfluidic assembly.
Arnold Chen,Tingrui Pan +1 more
TL;DR: The modular F2F assembly consists of an interfacial chip, pluggable alignment modules, and multiple monolithic layers of microfluidic channels, through which convoluted three-dimensional microfluidity networks can be easily assembled and readily sealed with the capability of reconfigurable fluid flow.
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CNT-based photopatternable nanocomposites with high electrical conductivity and optical transparency
TL;DR: In this article, a nanocomposite approach is introduced to provide both electrically conductive and optically transparent micropatterns on any flexible substrate employing photolithography-based microfabrication.