2020 - Fellow of the American Society of Mechanical Engineers
Xinyu Liu mostly deals with Nanotechnology, Biosensor, Pipette, Biomedical engineering and Clinical diagnosis. In his research, he undertakes multidisciplinary study on Nanotechnology and Charge amplifier. His studies in Biosensor integrate themes in fields like Label free, Detection limit and Microfluidics.
His Pipette study combines topics from a wide range of disciplines, such as Synchronization, Motion estimation, Computer vision, Artificial intelligence and Visual servoing. His Biomedical engineering research integrates issues from Young's modulus, Modulus and Indentation. His Clinical diagnosis research spans across into fields like Nanomaterials and Nitride.
His main research concerns Nanotechnology, Microfluidics, Optoelectronics, Microelectromechanical systems and Paper based. His Nanotechnology study deals with Electronics intersecting with Transistor. In his study, Flow control is strongly linked to Fluidics, which falls under the umbrella field of Microfluidics.
His work on Diode as part of his general Optoelectronics study is frequently connected to Wearable technology and Ionic bonding, thereby bridging the divide between different branches of science. The various areas that Xinyu Liu examines in his Microelectromechanical systems study include Characterization, Capacitive sensing and Actuator, Microactuator. His Actuator research is multidisciplinary, incorporating elements of Mechanical engineering and Voltage.
Optoelectronics, Microfluidics, Nanotechnology, Biosensor and Vortex are his primary areas of study. His Optoelectronics research includes elements of Open-circuit voltage and Capacitance. His Microfluidics research incorporates elements of Bioanalysis, Detection limit, Nanoscopic scale and Surface modification.
His Nanotechnology research focuses on Carbon nanotube, Nanofluidics, Nitride, Microchannel and Indium nitride. His Biosensor study frequently links to adjacent areas such as Dielectric spectroscopy. His Vortex study frequently draws connections to other fields, such as Rotation.
Xinyu Liu focuses on Dielectric spectroscopy, Diagnostic tools, Biosensor, Severe acute respiratory syndrome coronavirus 2 and Paper based. His Dielectric spectroscopy study combines topics in areas such as Microfluidics and Nanotechnology.
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Integration of paper-based microfluidic devices with commercial electrochemical readers
Zhihong Nie;Frédérique Deiss;Xinyu Liu;Ozge Akbulut.
Lab on a Chip (2010)
Nanonewton force-controlled manipulation of biological cells using a monolithic MEMS microgripper with two-axis force feedback
Keekyoung Kim;Xinyu Liu;Yong Zhang;Yu Sun.
Journal of Micromechanics and Microengineering (2008)
A Fully Automated Robotic System for Microinjection of Zebrafish Embryos
Wenhui Wang;Xinyu Liu;Danielle Gelinas;Brian Ciruna.
PLOS ONE (2007)
Paper-based piezoresistive MEMS sensors
Xinyu Liu;Martin Mwangi;XiuJun Li;Michael David O'Brien.
Lab on a Chip (2011)
Proprioceptive coupling within motor neurons drives C. elegans forward locomotion.
Quan Wen;Michelle D. Po;Elizabeth Hulme;Sway Chen.
Autonomous Robotic Pick-and-Place of Microobjects
Yong Zhang;B.K. Chen;Xinyu Liu;Yu Sun.
IEEE Transactions on Robotics (2010)
A microfluidic paper-based electrochemical biosensor array for multiplexed detection of metabolic biomarkers
Chen Zhao;Martin M Thuo;Xinyu Liu.
Science and Technology of Advanced Materials (2013)
Nanonewton Force Sensing and Control in Microrobotic Cell Manipulation
Xinyu Liu;Keekyoung Kim;Yong Zhang;Yu Sun.
The International Journal of Robotics Research (2009)
Fabrication of Low-Cost Paper-Based Microfluidic Devices by Embossing or Cut-and-Stack Methods
Martin M. Thuo;Martin M. Thuo;Ramses Martinez;Ramses Martinez;Wen-Jie Lan;Xinyu Liu.
Chemistry of Materials (2014)
Magnetic timing valves for fluid control in paper-based microfluidics
Xiao Li;Philip Zwanenburg;Xinyu Liu.
Lab on a Chip (2013)
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