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Nature Materials 19, 590-603 (2020) 

C.-H. Chiang et al., Development of a neural interface for high definition, long-term recording in rodents and nonhuman primates 

Science Translational Medicine 12, eaay4682 (2020)

S. M. Won et al., Emerging modalities and implantable technologies for neuromodulation 

Cell 181, 11-135 (2020)

J. Li et al., Ultrathin, High Capacitance Capping Layers for Silicon Electronics with Conductive Interconnects in Flexible, Long‐Lived Bioimplants

Advanced Materials Technologies 5, 1900800 (2020)

S.B. Kim et al.,Soft, skin-interfaced microfluidic systems with integrated enzymatic assays for measuring the concentration of ammonia and ethanol in sweat

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E. Song et al.,Flexible electronic/optoelectronic microsystems with scalable designs for chronic biointegration

Proceedings of the National Academy of Sciences 116 (31), 15398-15406 (2019)

S. M. Won  et al., Multimodal Sensing with a Three-Dimensional Piezoresistive Structure

ACS nano 13 (10), 10972-10979 (2019)

J. Li  et al., Ultrathin, transferred layers of metal silicide as faradaic electrical interfaces and biofluid barriers for flexible bioelectronic implants

ACS nano 13 (1), 660-670 (2019)

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Nature 565 (7739), 361 (2019)

J. Shin  et al., Bioresorbable pressure sensors protected with thermally grown silicon dioxide for the monitoring of chronic diseases and healing processes

Nature biomedical engineering 3 (1), 37-46 (2019)

J. Koo  et al., Wireless bioresorbable electronic system enables sustained nonpharmacological neuroregenerative therapy

Nature medicine 24 (12), 1830-1836 (2018)

BH Kim  et al., Electronic Stuctures: Mechanically Guided Post‐Assembly of 3D Electronic Systems (Adv. Funct. Mater. 48/2018)

Advanced Functional Materials 28 (48), 1870344 (2018)

SB Kim  et al.,  Soft, Skin‐Interfaced Microfluidic Systems with Wireless, Battery‐Free Electronics for Digital, Real‐Time Tracking of Sweat Loss and Electrolyte Composition

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BH Kim et al.,, Mechanically guided post‐assembly of 3D electronic systems

Advanced Functional Materials 28 (48), 1803149. (2018)

S. M.  Won  et al., Natural wax for transient electronics

Advanced Functional Materials 28 (32), 1801819 (2018)

K. E. Crawford  et al., Advanced approaches for quantitative characterization of thermal transport properties in soft materials using thin, conformable resistive sensors

Extreme Mechanics Letters 22, 27-35 (2018)

BH Kim et al.,Three-dimensional silicon electronic systems fabricated by compressive buckling process

ACS nano 12 (5), 4164-4171 (2018) 

S. Han  et al., Battery-free, wireless sensors for full-body pressure and temperature mapping

Science translational medicine 10 (435), eaan4950 (2018)

SB Kim  et al., Super‐absorbent polymer valves and colorimetric chemistries for time‐sequenced discrete sampling and chloride analysis of sweat via skin‐mounted soft microfluidics

Small 14 (12), 1703334 (2018)

YR Jeong  et al., A skin-attachable, stretchable integrated system based on liquid GaInSn for wireless human motion monitoring with multi-site sensing capabilities

NPG Asia Materials 9 (10), e443-e443 (2017)

G Lee  et al., Fully biodegradable microsupercapacitor for power storage in transient electronics

Advanced Energy Materials 7 (18), 1700157 (2017)

BH Kim  et al., Dry transient electronic systems by use of materials that sublime

Advanced Functional Materials 27 (12), 1606008 (2017)

H Fang  et al.,  Capacitively coupled arrays of multiplexed flexible silicon transistors for long-term cardiac electrophysiology

Nature biomedical engineering 1 (3), 1-12 (2017)

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Proceedings of the National Academy of Sciences 113 (42), 11682-11687 (2016)

S. M. Won, Semiconductor device and method for forming the same

US Patent 9,397,044 (2016)

KJ Yu et al., Bioresorbable silicon electronics for transient spatiotemporal mapping of electrical activity from the cerebral cortex

Nature materials 15 (7), 782-791 (2016)

BH Kim  et al., Multilayer transfer printing for pixelated, multicolor quantum dot light-emitting diodes

ACS nano 10 (5), 4920-4925 (2016)

S. M. Won, Semiconductor device and method for forming the same

US Patent 9,230,931 (2016)

S. M. Won, Semiconductor device and method for manufacturing

US Patent 8,809,960 (2014)

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Nano letters 13 (11), 5600-5607 (2013)

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Science 337 (6102), 1640-1644 (2012)

S. M. Won  et al., Corrections to “Piezoresistive Strain Sensors and Multiplexed Arrays Using Assemblies of Single-Crystalline Silicon Nanoribbons on Plastic Substrates”[Nov 11 4074-4078]

IEEE Transactions on Electron Devices 59 (2), 520-520 (2011)

S. M.  Won  et al., Piezoresistive strain sensors and multiplexed arrays using assemblies of single-crystalline silicon nanoribbons on plastic substrates

IEEE Transactions on Electron Devices 58 (11), 4074-4078 (2011)

H. J. Chung et al., Electronic Devices on Various Substrates: Fabrication of Releasable Single‐Crystal Silicon–Metal Oxide Field‐Effect Devices and Their Deterministic Assembly 

Advanced Functional Materials 21 (16), 3001-3001 (2011)

H. J. Chung  et al., Fabrication of Releasable Single‐Crystal Silicon–Metal Oxide Field‐Effect Devices and Their Deterministic Assembly on Foreign Substrates

Advanced Functional Materials 21 (16), 3029-3036 (2011)

D. H. Kim et al., Epidermal electronics

Science 333 (6044), 838-843 (2011)

D. H. Kim et al., Materials for multifunctional balloon catheters with capabilities in cardiac electrophysiological mapping and ablation therapy

Nature materials 10 (4), 316-323 (2011)

HS Kim  et al., Self-assembled nanodielectrics and silicon nanomembranes for low voltage, flexible transistors, and logic gates on plastic substrates

Applied Physics Letters 95 (18), 183504 (2009)

TH Kim  et al., Kinetically controlled, adhesiveless transfer printing using microstructured stamps

Applied Physics Letters 94 (11), 113502 (2009)

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