J
John X. J. Zhang
Researcher at Dartmouth College
Publications - 115
Citations - 2300
John X. J. Zhang is an academic researcher from Dartmouth College. The author has contributed to research in topics: Energy harvesting & Piezoelectricity. The author has an hindex of 23, co-authored 109 publications receiving 1440 citations. Previous affiliations of John X. J. Zhang include Dartmouth–Hitchcock Medical Center.
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Journal ArticleDOI
Multifunctional Magnetic Particles for Combined Circulating Tumor Cells Isolation and Cellular Metabolism Detection.
Jiao Wu,Xiang Wei,Jinrui Gan,Lin Huang,Ting Shen,Jiatao Lou,Baohong Liu,John X. J. Zhang,Kun Qian +8 more
TL;DR: This unique approach couples the immunomagnetic separation of C TCs and LDI‐MS based metabolic analysis, which represents a key step forward for downstream metabolites analysis of rare cells to investigate the biological features of CTCs and their cellular responses in both pathological and physiological phenomena.
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Scalable COVID-19 Detection Enabled by Lab-on-Chip Biosensors.
TL;DR: This review focuses on the development of lab-on-chip biosensing platforms for diagnosis of COVID-19 infection, a novel coronavirus that has highlighted the need for rapid, accurate, and point-of-care diagnostic testing.
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PVDF-Nafion nanomembranes coated microneedles for in vivo transcutaneous implantable glucose sensing.
TL;DR: It is demonstrated that microporous PVDF membranes sandwiched between multiple layers of nanomaterials can be used for continuous monitoring of glucose level in vivo by coating needle electrodes with Polyaniline nanofiber, Platinum nanoparticles, glucose oxidase enzyme and porous layers, successfully fabricated with layer-by-layer deposition.
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Flexible Piezoelectric Nanogenerators Using Metal-doped ZnO-PVDF Films.
Congran Jin,Nanjing Hao,Zhe Xu,Ian Trase,Yuan Nie,Lin Dong,Andrew B. Closson,Zi Chen,John X. J. Zhang +8 more
TL;DR: The ZnO nanoparticle-PVDF composite thin film was demonstrated as a flexible wearable motion sensor, where different hand gestures were detected by the device with distinctive output voltage amplitudes and patterns and it was demonstrated that the energy harvested from finger tapping at ~2 Hz can charge a capacitor with a large output power density.
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Microscale Magnetic Field Modulation for Enhanced Capture and Distribution of Rare Circulating Tumor Cells
TL;DR: A theoretical framework and technical approach to implement a microscale magnetic immunoassay through modulating local magnetic field towards enhanced capture and distribution of rare cancer cells is presented.