David B. Go
David B. Go
Viola D. Hank Professor of Aerospace and Mechanical Engineering, University of Notre Dame
Verified email at - Homepage
Cited by
Cited by
Overcoming ammonia synthesis scaling relations with plasma-enabled catalysis
P Mehta, P Barboun, FA Herrera, J Kim, P Rumbach, DB Go, JC Hicks, ...
Nature Catalysis 1 (4), 269-275, 2018
The solvation of electrons by an atmospheric-pressure plasma
P Rumbach, DM Bartels, RM Sankaran, DB Go
Nature communications 6 (1), 7248, 2015
Thermal transport in graphene oxide–from ballistic extreme to amorphous limit
X Mu, X Wu, T Zhang, DB Go, T Luo
Scientific reports 4 (1), 3909, 2014
A mathematical model of the modified Paschen’s curve for breakdown in microscale gaps
DB Go, DA Pohlman
Journal of Applied physics 107 (10), 2010
Ionic winds for locally enhanced cooling
DB Go, SV Garimella, TS Fisher, RK Mongia
Journal of Applied Physics 102 (5), 2007
Catalysis enabled by plasma activation of strong chemical bonds: a review
P Mehta, P Barboun, DB Go, JC Hicks, WF Schneider
ACS Energy Letters 4 (5), 1115-1133, 2019
Microscale gas breakdown: ion-enhanced field emission and the modified Paschen’s curve
DB Go, A Venkattraman
Journal of Physics D: Applied Physics 47 (50), 503001, 2014
Enhancement of external forced convection by ionic wind
DB Go, RA Maturana, TS Fisher, SV Garimella
International Journal of Heat and Mass Transfer 51 (25-26), 6047-6053, 2008
Surface acoustic wave devices for chemical sensing and microfluidics: a review and perspective
DB Go, MZ Atashbar, Z Ramshani, HC Chang
Analytical methods 9 (28), 4112-4134, 2017
On-chip surface acoustic wave lysis and ion-exchange nanomembrane detection of exosomal RNA for pancreatic cancer study and diagnosis
D Taller, K Richards, Z Slouka, S Senapati, R Hill, DB Go, HC Chang
Lab on a Chip 15 (7), 1656-1666, 2015
based microfluidic surface acoustic wave sample delivery and ionization source for rapid and sensitive ambient mass spectrometry
J Ho, MK Tan, DB Go, LY Yeo, JR Friend, HC Chang
Analytical chemistry 83 (9), 3260-3266, 2011
Decoupling interfacial reactions between plasmas and liquids: Charge transfer vs plasma neutral reactions
P Rumbach, M Witzke, RM Sankaran, DB Go
Journal of the American Chemical Society 135 (44), 16264-16267, 2013
Synergistic effects of plasma–catalyst interactions for CH 4 activation
J Kim, DB Go, JC Hicks
Physical Chemistry Chemical Physics 19 (20), 13010-13021, 2017
Evidence for the electrolysis of water by atmospheric-pressure plasmas formed at the surface of aqueous solutions
M Witzke, P Rumbach, DB Go, RM Sankaran
Journal of Physics D: Applied Physics 45 (44), 442001, 2012
Recent advances in electrohydrodynamic pumps operated by ionic winds: A review
MJ Johnson, DB Go
Plasma Sources Science and Technology 26 (10), 103002, 2017
An analytical formulation for the modified Paschen’s curve
R Tirumala, DB Go
Applied Physics Letters 97 (15), 2010
Distinguishing plasma contributions to catalyst performance in plasma-assisted ammonia synthesis
P Barboun, P Mehta, FA Herrera, DB Go, WF Schneider, JC Hicks
ACS Sustainable Chemistry & Engineering 7 (9), 8621-8630, 2019
Extracellular vesicle microRNA quantification from plasma using an integrated microfluidic device
Z Ramshani, C Zhang, K Richards, L Chen, G Xu, BL Stiles, R Hill, ...
Communications biology 2 (1), 189, 2019
Enhancing C–H bond activation of methane via temperature-controlled, catalyst–plasma interactions
J Kim, MS Abbott, DB Go, JC Hicks
ACS Energy Letters 1 (1), 94-99, 2016
Simultaneous isolation and preconcentration of exosomes by ion concentration polarization
S Marczak, K Richards, Z Ramshani, E Smith, S Senapati, R Hill, DB Go, ...
Electrophoresis 39 (15), 2029-2038, 2018
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