Zhaoqing Wang
University of California, Los Angeles
9 Papers
Zhaoqing Wang is an academic researcher from University of California, Los Angeles. The author has contributed to research in topics: Wearable computer & Computer science. The author has an hindex of 7, co-authored 7 publications.
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Papers
Wearable aptamer-field-effect transistor sensing system for noninvasive cortisol monitoring
Bo Wang,Chuanzhen Zhao,Zhaoqing Wang,Kyung Ae Yang,Xuanbing Cheng,Wenfei Liu,Wenzhuo Yu,Shuyu Lin,Yichao Zhao,Kevin M Cheung,Haisong Lin,Hannaneh Hojaiji,Paul S. Weiss,Milan N. Stojanovic,A. Janet Tomiyama,Anne M. Andrews,Sam Emaminejad +16 more
TL;DR: In this article , a smartwatch was developed for noninvasive stress biomarker data acquisition that provides real-time feedback to the wearer, which can be used for stress monitoring.
A programmable epidermal microfluidic valving system for wearable biofluid management and contextual biomarker analysis.
Haisong Lin,Jiawei Tan,Jialun Zhu,Shuyu Lin,Yichao Zhao,Wenzhuo Yu,Hannaneh Hojaiji,Bo Wang,Siyang Yang,Xuanbing Cheng,Zhaoqing Wang,Eric C Tang,Christopher Yeung,Sam Emaminejad +13 more
TL;DR: A programmable epidermal microfluidic valving system is devised, capable of biofluid sampling, routing, and compartmentalization for biomarker analysis, which is harnessed to create unprecedented wearable bioanalytical capabilities at both the sensor level and the system level.
A wearable freestanding electrochemical sensing system.
Yichao Zhao,Bo Wang,Hannaneh Hojaiji,Zhaoqing Wang,Shuyu Lin,Christopher Yeung,Haisong Lin,Peterson Nguyen,Kaili Chiu,Kamyar Salahi,Xuanbing Cheng,Jiawei Tan,Betto Alcitlali Cerrillos,Sam Emaminejad +13 more
TL;DR: A FESS-enabled smartwatch was developed, featuring sweat sampling, electrochemical sensing, and data display/transmission, all within a self-contained wearable platform, and was used to monitor the sweat metabolite profiles of individuals in sedentary and high-intensity exercise settings.
Noninvasive wearable electroactive pharmaceutical monitoring for personalized therapeutics.
Shuyu Lin,Wenzhuo Yu,Bo Wang,Yichao Zhao,Yichao Zhao,Ke En,Ke En,Jialun Zhu,Jialun Zhu,Xuanbing Cheng,Xuanbing Cheng,Crystal Zhou,Crystal Zhou,Haisong Lin,Zhaoqing Wang,Hannaneh Hojaiji,Christopher Yeung,Christopher Yeung,Carlos Milla,Ronald W. Davis,Sam Emaminejad,Sam Emaminejad +21 more
TL;DR: A wearable voltammetric sensor development strategy is devised to simultaneously mitigate biofouling and create an “undistorted potential window” within which the target electroactive drug’s voltametric response is dominant and interference is eliminated, rendering reliable target quantification in noninvasively retrievable biofluids (sweat and saliva).
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A Mediator‐Free Electroenzymatic Sensing Methodology to Mitigate Ionic and Electroactive Interferents' Effects for Reliable Wearable Metabolite and Nutrient Monitoring
Xuanbing Cheng,Bo Wang,Yichao Zhao,Hannaneh Hojaiji,Shuyu Lin,Ryan Shih,Haisong Lin,Stephanie Tamayosa,Brittany Ham,Phoenix Stout,Kamyar Salahi,Zhaoqing Wang,Chuanzhen Zhao,Jiawei Tan,Sam Emaminejad +14 more
TL;DR: A mediator‐free sensing interface is devised, comprising of a coupled platinum nanoparticle/multiwall carbon nanotube layer and a permselective membrane, which is adapted to develop sensors targeting glucose, lactate, and choline, showing high degrees of sensitivity, selectivity, stability, and reliability of sensing operation in sweat samples.
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