Microfluidic surface‐enhanced Raman scattering sensors based on nanopillar forests realized by an oxygen‐plasma‐stripping‐of‐photoresist technique H Mao, W Wu, D She, G Sun, P Lv, J Xu Small 10 (1), 127-134, 2014 | 113 | 2014 |
High-flux ionic diodes, ionic transistors and ionic amplifiers based on external ion concentration polarization by an ion exchange membrane: A new scalable ionic circuit platform G Sun, S Senapati, HC Chang Lab on a Chip 16 (7), 1171-1177, 2016 | 62 | 2016 |
Future microfluidic and nanofluidic modular platforms for nucleic acid liquid biopsy in precision medicine A Egatz-Gomez, C Wang, F Klacsmann, Z Pan, S Marczak, Y Wang, ... Biomicrofluidics 10 (3), 2016 | 58 | 2016 |
A shear-enhanced CNT-assembly nanosensor platform for ultra-sensitive and selective protein detection D Li, C Wang, G Sun, S Senapati, HC Chang Biosensors and Bioelectronics 97, 143-149, 2017 | 33 | 2017 |
Fluidic-based ion memristors and ionic latches G Sun, Z Slouka, HC Chang Small 11 (39), 5206-5213, 2015 | 21 | 2015 |
A bifurcated continuous field-flow fractionation (BCFFF) chip for high-yield and high-throughput nucleic acid extraction and purification C Zhang, G Sun, S Senapati, HC Chang Lab on a Chip 19 (22), 3853-3861, 2019 | 18 | 2019 |
Concentration-gradient stabilization with segregated counter-and co-ion paths: A quasistationary depletion front for robust molecular isolation or concentration G Sun, Z Pan, S Senapati, HC Chang Physical review applied 7 (6), 064024, 2017 | 15 | 2017 |
smFISH in chips: a microfluidic-based pipeline to quantify in situ gene expression in whole organisms J Wan, G Sun, J Dicent, DS Patel, H Lu Lab on a Chip 20 (2), 266-273, 2020 | 9 | 2020 |
Rapid and multi-cycle smFISH enabled by microfluidic ion concentration polarization for in-situ profiling of tissue-specific gene expression in whole C. elegans G Sun, J Wan, H Lu Biomicrofluidics 13 (6), 2019 | 8 | 2019 |
Recent advances in microfluidic techniques for systems biology G Sun, H Lu Analytical Chemistry 91 (1), 315-329, 2018 | 8 | 2018 |
Realization of cylindrical submicron shell arrays by diffraction-introduced photolithography H Mao, Y Zhang, W Wu, G Sun, J Xu Journal of Micromechanics and Microengineering 21 (8), 085004, 2011 | 5 | 2011 |
Diode characteristic of electrolyte-oxide-semiconductor structure for potential chemical and biological applications Y Zhang, G Sun, W Wu The 16th International Solid-State Sensors, Actuators and Microsystems …, 2011 | 5 | 2011 |
Microswimmer Combing: Controlling Interfacial Dynamics for Open‐Surface Multifunctional Screening of Small Animals G Sun, CA Manning, GH Lee, M Majeed, H Lu Advanced healthcare materials 10 (15), 2001887, 2021 | 4 | 2021 |
Resistive switching characteristic of electrolyte-oxide-semiconductor structures X Chen, H Wang, G Sun, X Ma, J Gao, W Wu Journal of Semiconductors 38 (8), 084003, 2017 | 2 | 2017 |
Resistive switching model for Electrolyte-Oxide-Semiconductor (EOS) structure X Ma, G Sun, Y Chen, W Wu Nano/Micro Engineered and Molecular Systems (NEMS), 2013 8th IEEE …, 2013 | 1 | 2013 |
Switching characteristic model and biochemical application analysis for electrolyte-oxide-semiconductor structure diodes G Sun, X Ma, A Tang, Y Chen, W Wu The 7th IEEE International Conference on Nano/Micro Engineered and Molecular …, 2012 | 1 | 2012 |
Microfluidic devices for particle capture and methods thereof EL Jackson-Holmes, G Sun, GA Aubry, H Lu US Patent App. 18/246,243, 2023 | | 2023 |
An on-chip bifurcated continuous field-flow fractionation technology for nucleic acid isolation C Zhang, G Sun, S Senapati, HC Chang US Patent App. 17/639,198, 2022 | | 2022 |
Open fluidic array systems and methods of making and using same G Sun, H Lu US Patent App. 17/499,515, 2022 | | 2022 |
Viscoelastic burrowing locomotion in nematodes reveal transition to complex postural dynamics C Pierce, G Sun, H Lu, D Goldman APS March Meeting Abstracts 2021, P24. 010, 2021 | | 2021 |