Actively Controllable Solid Phase Microextraction in a Hierarchically Organized Block Copolymer-Nanopore Electrode Array Sensor for Charge-Selective Detection of Metabolites in Biofilms
J. Jia†, S.-R. Kwon†, S. Baek, V. Sundaresan, T. Cao, A. Cutri, K. Fu, B. Roberts, J. D. Shrout*, P. W. Bohn*
Analytical Chemistry, 2021
12
Depth Distributions of Signaling Molecules in Pseudomonas aeruginosa Biofilms Mapped by Confocal Raman Microscopy
T. Cao, A. Weaver, S. Baek, J. Jia, J. D. Shrout*, P. W. Bohn*
The Journal of Chemical Physics, 2021
13
Redox Cycling-Based Detection of Phenazine Metabolites Secreted from Pseudomonas aeruginosa in Nanopore Electrode Arrays
H. Do†, S.-R. Kwon†, S. Baek, C. S. Madukoma, M. K. Smiley, L. E. Dietrich, J. D. Shrout*, P. W. Bohn*
Analyst, 2021
14
Ion Gating in Nanopore Electrode Arrays with Hierarchically Organized pH-Responsive Block Copolymer Membranes
S. Baek†, S.-R. Kwon†, K. Fu, P. W. Bohn*
ACS Applied Materials & Interfaces, 2020
15
Electrowetting-Mediated Transport to Produce Electrochemical Transistor Action in Nanopore Electrode Arrays
S.-R. Kwon, S. Baek, K. Fu, P. W. Bohn*
Small, 2020
16
Electrodeless Reverse Electrodialysis Patches as an Ionic Power Source for Active Transdermal Drug Delivery
S.-R. Kwon†, S. H. Nam†, C. Y. Park, S. Baek, J. Jang, X. Che, S. H. Kwak, Y.-R. Choi, N.-R. Park, J.-Y. Choi, Y. Lee*, T. D. Chung*
Advanced Functional Materials, 2018
17
Miniaturized Reverse Electrodialysis-Powered Biosensor Using Electrochemiluminescence on Bipolar Electrode
S. Baek†, S.-R. Kwon†, S.Y. Yeon, D. Lee, S.-H. Han, C. M. Kang, T. D. Chung*
Analytical Chemistry, 2018
18
Ionic Circuits Powered by Reverse Electrodialysis for an Ultimate Iontronic System
S.-H. Han†, S.-R. Kwon†, S. Baek, T. D. Chung*
Scientific Reports, 2017
19
Densely Charged Polyelectrolyte-Stuffed Nanochannel Arrays for Power Generation from Salinity Gradient
S. H. Kwak†, S.-R. Kwon†, S. Baek, S. M. Lim, Y.-C. Joo, T. D. Chung*
Scientific Reports, 2016
20
Ion-selective electrode-based sensors from the macro- to the nanoscale