Ashwin Ramachandran
Ashwin Ramachandran
Princeton University, Stanford University, Indian Institute of Technology Bombay
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Cited by
Cited by
Electric field-driven microfluidics for rapid CRISPR-based diagnostics and its application to detection of SARS-CoV-2
A Ramachandran, DA Huyke, E Sharma, MK Sahoo, CH Huang, ...
Proceedings of the National Academy of Sciences 117 (47), 29518-29525, 2020
Performance metrics for the objective assessment of capacitive deionization systems
SA Hawks, A Ramachandran, S Porada, PG Campbell, ME Suss, ...
Water research 152, 126-137, 2019
CRISPR enzyme kinetics for molecular diagnostics
A Ramachandran, JG Santiago
Analytical chemistry 93 (20), 7456-7464, 2021
Thermodynamics of ion separation by electrosorption
A Hemmatifar*, A Ramachandran*, K Liu, DI Oyarzun, MZ Bazant, ...
Environmental science & technology 52 (17), 10196-10204, 2018
High water recovery and improved thermodynamic efficiency for capacitive deionization using variable flowrate operation
A Ramachandran, DI Oyarzun, SA Hawks, M Stadermann, JG Santiago
Water research 155, 76-85, 2019
Enzyme kinetics and detector sensitivity determine limits of detection of amplification-free CRISPR-Cas12 and CRISPR-Cas13 diagnostics
DA Huyke*, A Ramachandran*, VI Bashkirov, EK Kotseroglou, ...
Analytical Chemistry 94 (27), 9826-9834, 2022
Comments on “Comparison of energy consumption in desalination by capacitive deionization and reverse osmosis”
A Ramachandran, DI Oyarzun, SA Hawks, PG Campbell, M Stadermann, ...
Desalination 461, 30-36, 2019
High-frequency water vapor sorption cycling using fluidization of metal-organic frameworks
A Terzis, A Ramachandran, K Wang, M Asheghi, KE Goodson, ...
Cell Reports Physical Science 1 (5), 2020
Self similarities in desalination dynamics and performance using capacitive deionization
A Ramachandran, A Hemmatifar, SA Hawks, M Stadermann, JG Santiago
Water research 140, 323-334, 2018
Process design tools and techno-economic analysis for capacitive deionization
TD Hasseler, A Ramachandran, WA Tarpeh, M Stadermann, JG Santiago
Water Research 183, 116034, 2020
Isotachophoresis: theory and microfluidic applications
A Ramachandran, JG Santiago
Chemical Reviews 122 (15), 12904-12976, 2022
Frequency analysis and resonant operation for efficient capacitive deionization
A Ramachandran, SA Hawks, M Stadermann, JG Santiago
Water Research 144, 581-591, 2018
Tsai-wu analysis of a thin-walled 3D-printed polylactic acid (PLA) structural bracket
R Chen, A Ramachandran, C Liu, FK Chang, D Senesky
58th AIAA/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials …, 2017
Detection and discrimination of single nucleotide polymorphisms by quantification of CRISPR-Cas catalytic efficiency
C Blanluet, DA Huyke, A Ramachandran, AS Avaro, JG Santiago
Analytical Chemistry 94 (43), 15117-15123, 2022
Effect of Prandtl number on the linear stability of compressible Couette flow
A Ramachandran, B Saikia, K Sinha, R Govindarajan
International Journal of Heat and Fluid Flow 61, 553-561, 2016
Understanding resistances in capacitive deionization devices
HA Kuo, A Ramachandran, DI Oyarzun, EC Clevenger, JG Santiago, ...
Environmental Science: Water Research & Technology 6 (7), 1842-1854, 2020
Simultaneous optical and infrared thermal imaging of isotachophoresis
A Terzis*, A Ramachandran*, J Kang, JG Santiago
Analytica Chimica Acta, 2020
Effects of viscosity and conductivity stratification on the linear stability and transient growth within compressible Couette flow
B Saikia, A Ramachandran, K Sinha, R Govindarajan
Physics of Fluids 29 (2), 2017
On the competition between mixing rate and uniformity in a coaxial hydrodynamic focusing mixer
DA Huyke, A Ramachandran, DI Oyarzun, T Kroll, DP DePonte, ...
Analytica Chimica Acta 1103, 1-10, 2020
Linear stability of high-speed boundary layer flows at varying Prandtl numbers
A Ramachandran, B Saikia, K Sinha, R Govindarajan
45th AIAA Thermophysics Conference, 2320, 2015
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