Note: View google scholar page for a complete list of publications
Publications
Highly Conductive Collagen by Low-Temperature Atomic Layer Deposition of Platinum
Bishal, A., Anderson, N. D., Hung, S., Jokisaari, J. R., Klie, R. F., Koh, A., Abdussalam, W., Sukotjo, C.*, and Takoudis, C.*, ACS Appl. Mater. Interfaces, 2020
Stress Monitoring and Recent Advancements in Wearable Biosensors
Samson, C., Koh, A., Stress Monitoring and Recent Advancements in Wearable Biosensors, Front. Bioeng. Biotechnol., 2020, 8, 1037
A Low-cost, Composite Collagen-PDMS Material for Extended Fluid Retention in the Skin-interfaced Microfluidic Devices
Heo, B., Fiola, M., Yang, J. H., Koh, A., A low-cost, composite collagen-PDMS material for extended fluid retention in the skin-interfaced microfluidic devices, Colloid and Interface Science Communications, 2020, 38, 100301
Electronic‐ECM: A Permeable Microporous Elastomer for an Advanced Bio‐Integrated Continuous Sensing Platform
Brown, M. S., Mendoza, M., Chavoshnejad, P., Razavi, M. J., Mahler, G. J., Koh, A., Electronic‐ECM: A Permeable Microporous Elastomer for an Advanced Bio‐Integrated Continuous Sensing Platform. Adv. Mater. Technol. 2020, 2000242.
Comparison of Colorimetric Analyses to Determine Cortisol in Human Sweat
Tu, E.; Pearlmutter, P.; Tiangco, M.; Derose, G.; Begdache, L.; Koh, A. "Comparison of Colorimetric Analyses to Determine Cortisol in Human Sweat" ACS Omega, 2020, 5 (14), 8211-8218
Skin-inspired, Open Mesh Electrochemical Sensors for Lactate and Oxygen Monitoring
Ashley, B. A.; Brown, M. S.; Park, Y.; Kuan, S.; Koh, A. "Skin-inspired, Open Mesh Electrochemical Sensors for Lactate and Oxygen Monitoring" Biosensors and Bioelectronics, 2019, 132, 343-351
Wearable Technology for Chronic Wound Monitoring: Current Dressings, Advancements, and Future Prospects
Brown, M. S.; Ashley, B.; Koh, A."Wearable Technology for Chronic Wound Monitoring: Current Dressings, Advancements, and Future Prospects" Front. Bioeng. Biotechnol. 2018, 6, 47
Needle-shaped ultrathin piezoelectric microsystem for guided tissue targeting via mechanical sensing
Yu, X.; Wang, H.; Ning, X.; Sun, R.; Salomao, M.; Albadawi, H.; Silva, A. C.; Yu, Y.; Tian, L.; Koh, A.; Lee, C. M.; Chempakasseril, A.; Tian, P.; Pharr, M. Yuan, J.; Huang, Y.; Oklu, R.; Rogers, J. A. “Needle-shaped Ultrathin Piezoelectric Microsystems for Guided Tissue Targeting via Mechanical Sensing” Nature Biomedical Engineering, 2018, 2, 165-172 (cover article)
Super-Absorbent Polymer Valves and Colorimetric Chemistries for Time-Sequenced Discrete Sampling and Chloride Analysis of Sweat via Skin-Mounted Soft Microfluidics
Kim, S. B.; Zhang, Y.; Won, S. M.; Bandodkar, A. J.; Sekine, Y.; Xue, Y.; Harshman, S. W.; Martin, J. A.; Park, J. M.; Ostojic, D.; Ray, T. R.; Crawford, K. E.; Koo, J.; Yoon, J.; Kim, J-H; Kim, J.; Lee, K-T; Choi, J.; Pitsch, R. L.; Grigsby, C. C.; Strang, A. J.; Chen, Y-Y; Koh, A.; Ha, J. S.; Huang, Y.; Xu, S.; Kim, S. W., Rogers, J. A. “Super-Absorbent Polymer Valves and Colorimetric Chemistries for Time-Sequenced Discrete Sampling and Chloride Analysis of Sweat via Skin-Mounted Soft Microfluidics” Small, 2018, 1703334
Chemical Sensing Systems that Utilize Soft Electronics on Thin Elastomeric Substrates with Open Cellular Designs
Lee, Y. K.†; Jang, K.-I.†; Ma, Y.†; Koh, A.†; Chen, H.; Jung, H. N.; Kim, Y.; Kwak, J. W.; Wang, L.; Xue, Y.; Yang, Y.; Tian, W.; Jiang, Y.; Zhang, Y.; Feng, X.; Huang, Y.; Rogers, J. A. "Chemical Sensing Systems that Utilize Soft Electronics on Thin Elastomeric Substrates with Open Cellular Designs", Advanced Functional Materials, 2017, 27, 1605476, † Equally contributed the first author
Simple and Ultrasensitive Chemically Amplified Electrochemical Detection of Ferrocenemethanol on 4-Nitrophenyl Grafted Glassy Carbon Electrode
Koh, A.; Lee, J.; Song, J.; Shin, W. “Simple and Ultrasensitive Chemically Amplified Electrochemical Detection of Ferrocenemethanol on 4-Nitrophenyl Grafted Glassy Carbon Electrode”, Journal of Electrochemical Science and Technology, 2016, 7(4), 286-292
A Soft, Wearable Microfluidic Device for the Capture, Storage, and Colorimetric Sensing of Sweat
Koh, A.†; Kang, D.†; Xue, Y.; Lee, S.; Pielak, R. M.; Kim. J.; Hwang, T.; Min, S.; Banks, A.; Bastien, P.; Manco, M. C.; Wang, L.; Ammann, K. R.; Jang, K.-I.; Won, P.; Han, S.; Slepian, M. J.; Balooch, G.; Huang, Y.; Rogers, J. A. “A Soft, Wearable Microfluidic Device for the Capture, Storage, and Colorimetric Sensing of Sweat”, Science Translational Medicine, 2016, 8(366), 366ra165 (cover article) † Equally contributed the first author
Ultrathin Injectable Sensors of Temperature and Thermal Conductivity for Cardiac Ablation Monitoring
Koh, A.†; Gutbrod, S. R.†; Meyers, J. D.†; Lu, C.; Webb, R. C.; Shin, G.; Li, Y.; Kang, S.-K.; Huang, Y.; Efimov, I. R.; Rogers, J. A. “Ultrathin Injectable Sensors of Temperature and Thermal Conductivity for Cardiac Ablation Monitoring” Advanced Healthcare Materials, 2016, 5(3), 373-381 (back cover article) † Equally contributed the first author
Covalent immobilization of diaphorase in viologen polymer network for highly sensitive detection of NAD+ and NADH
Song, J.; Hong, Z.; Koh, A.; Shin, W. “Covalent immobilization of diaphorase in viologen polymer network for highly sensitive detection of NAD+ and NADH” Journal of Electrochemical Science and Technology, 2014, 5(1), 19-22
Fabrication of nitric oxide-releasing porous polyurethane membranes-coated needle-type implantable glucose biosensors
Koh, A.; Lu, Y.; Schoenfisch, M. H. “Fabrication of nitric oxide-releasing porous polyurethane membranes-coated needle-type implantable glucose biosensors” Analytical Chemistry, 2013, 85(21), 10488-10494
Nitric oxide-releasing silica nanoparticle-doped polyurethane electrospun nanofibers
Koh, A.; Carpenter, A. W.; Slomberg, D. L.; Schoenfisch, M. H. “Nitric oxide-releasing silica nanoparticle-doped polyurethane electrospun nanofibers” ACS Applied Materials and Interfaces, 2013, 5(16), 7956-7964
Biocompatible materials for continuous glucose monitoring devices
Nichols, S. P.; Koh, A.; Storm, W. L.; Shin, J. H.; Schoenfisch, M. H. “Biocompatible materials for continuous glucose monitoring devices” Chemical Reviews, 2013, 113 (4), 2528-2549
The effect of nitric oxide surface flux on the foreign body response to subcutaneous implants
Nichols, S. P.; Koh, A.; Brown, N. L.; Rose, M. B.; Sun, B.; Slomberg, D. L.; Riccio, D. A.; Klitzman, B.; Schoenfisch, M. H. “The effect of nitric oxide surface flux on the foreign body response to subcutaneous implants” Biomaterials, 2012, 33 (27), 6305-6312
Local delivery of nitric oxide: targeted delivery of therapeutics to bone and connective tissues
Nichols, S. P.; Storm, W. L.; Koh, A.; Schoenfisch, M. H. “Local delivery of nitric oxide: targeted delivery of therapeutics to bone and connective tissues” Advanced Drug Delivery Reviews, 2012, 64 (12), 1177-1188
Glucose sensor membranes for mitigating the foreign body response
Koh, A.; Nichols, S. P.; Schoenfisch, M. H. “Glucose sensor membranes for mitigating the foreign body response” Journal of Diabetes Science and Technology 2011, 5 (5), 1052-1059
Fabrication of nitric oxide-releasing polyurethane glucose sensor membranes
Koh, A.; Riccio, D. A.; Sun, B.; Carpenter, A. W.; Nichols, S. P.; Schoenfisch, M. H., “Fabrication of nitric oxide-releasing polyurethane glucose sensor membranes” Biosensors and Bioelectronics 2011, 28 (1), 17-24
Media Highlights
News Highlights
BIOMEDICAL ENGINEERING RESEARCH DEVELOPS ULTRATHIN, INJECTABLE SENSORS
By Rachael Flores, February 27, 2018
Professors, alumnae discuss women in STEM at panel
Annual event kicks off 2019 National Engineers Week, By Gitl-Yevgeniya Driker, Feburuary 20, 2019
RESEARCHERS RECEIVE NSF GRANT TO STUDY POWER GENERATION FROM HUMAN SWEAT
By Calendra Scahill, May 03, 2019
BINGHAMTON RESEARCHERS, STUDENTS ARE INSPIRED TO PERSPIRE: Faculty members develop sweat-sensing system to measure stress
By Chris Kocher, May 06, 2020
