Nanoarchitectonic Materials and Sensor Device Lab
We are a forward-thinking research group devoted to pioneering hybrid nanoarchitectonic materials that enable transformative innovations in bio/chemical/environmental sensors, skin-interfaced electronics, and future smart systems. Our research is grounded in the design of intelligent materials capable of dynamic responses to external stimuli by precisely modulating their physicochemical properties, unlocking new possibilities for adaptive and autonomous technologies.
By leveraging a multidisciplinary foundation that spans materials synthesis, nanoscale fabrication, computational modeling, and system-level device engineering, we strive to develop highly functional material platforms through advanced 3D micro/nanostructuring, strategic hybridization, and surface functionalization. Our work emphasizes the seamless translation of fundamental materials science into practical, real-world applications.
With a commitment to scientific rigor and real-world impact, we aim to redefine how materials interact with their environment, pushing the boundaries of what is possible in wearable electronics, personalized health monitoring, and responsive sensing systems.
Selected Papers
Advanced Functional Materials 2025, e06774 [IF = 19.0]
Advanced Science 2025, 2501293 [IF = 14.3]
InfoMat 2024, 6, e12626 [IF = 22.7]
Journal of Materials Chemistry A 2023, 11, 18195 [IF = 14.511]
Advanced Functional Materials 2023, 33, 2302256 [IF = 19.924]
Applied Physics Review 2022, 9, 1, 011322 [IF = 19.162]
ACS Nano 2022, 16, 1, 68 [IF = 18.027]
Small Methods 2021, 5, 12, 2100941 [IF = 15.367]
Advanced Materials 2021, 33, 39, 2103857 [IF = 32.086]
Advanced Science 2021, 8, 3, 2001883 [IF = 17.521]
ACS Nano 2020, 14, 9, 12173 [IF = 18.027]
Advanced Science 2020, 7, 11, 1903708 [IF = 17.521]
** We are recruiting highly motivated students and postdocs.
Please send an email to roy.cho@krict.re.kr, if you are interested in one of the areas below:
Electrochemical biosensors
Chemiresistive type gas sensors
Synthesis of 2D materials
MEMS technology for device fabrication