Your search keyword '"Choi, Jungrak"' showing total 175 results

1. Auxetic kirigami structure-based self-powered strain sensor with customizable performance using machine learning

Author

Gu, Jimin, Jung, Yongsu, Ahn, Junseong, Ahn, Jihyeon, Choi, Jungrak, Kang, Byeongmin, Jeong, Yongrok, Ha, Ji-Hwan, Kim, Taehwan, Jung, Young, Park, Jaeho, Jung, Jiyoung, Ryu, Seunghwa, Lee, Ikjin, and Park, Inkyu

Published

2024

2. Nanoscale three-dimensional fabrication based on mechanically guided assembly

Author

Ahn, Junseong, Ha, Ji-Hwan, Jeong, Yongrok, Jung, Young, Choi, Jungrak, Gu, Jimin, Hwang, Soon Hyoung, Kang, Mingu, Ko, Jiwoo, Cho, Seokjoo, Han, Hyeonseok, Kang, Kyungnam, Park, Jaeho, Jeon, Sohee, Jeong, Jun-Ho, and Park, Inkyu

Published

2023

3. Wireless, multimodal sensors for continuous measurement of pressure, temperature, and hydration of patients in wheelchair

Author

Cho, Seokjoo, Han, Hyeonseok, Park, Hyunwoo, Lee, Sung-Uk, Kim, Jae-Hwan, Jeon, Sung Woo, Wang, Mengqiu, Avila, Raudel, Xi, Zhaoqian, Ko, Kabseok, Park, Minsu, Lee, Jungyup, Choi, Myungwoo, Lee, Je-Sang, Min, Weon Gi, Lee, Byeong-Ju, Lee, Soyeong, Choi, Jungrak, Gu, Jimin, Park, Jaeho, Kim, Min Seong, Ahn, Junseong, Gul, Osman, Han, Chankyu, Lee, Gihun, Kim, Seunghwan, Kim, Kyuyoung, Kim, Jeonghyun, Kang, Chang-Mo, Koo, Jahyun, Kwak, Sung Soo, Kim, Sungbong, Choi, Dong Yun, Jeon, Seokwoo, Sung, Hyung Jin, Park, Yong Bae, Je, Minkyu, Cho, Young Tae, Oh, Yong Suk, and Park, Inkyu

Published

2023

4. Battery-free, wireless soft sensors for continuous multi-site measurements of pressure and temperature from patients at risk for pressure injuries.

Author

Oh, Yong, Kim, Jae-Hwan, Xie, Zhaoqian, Cho, Seokjoo, Han, Hyeonseok, Jeon, Sung, Park, Minsu, Namkoong, Myeong, Avila, Raudel, Song, Zhen, Lee, Sung-Uk, Ko, Kabseok, Lee, Jungyup, Lee, Je-Sang, Min, Weon, Lee, Byeong-Ju, Choi, Myungwoo, Chung, Ha, Kim, Jongwon, Han, Mengdi, Koo, Jahyun, Choi, Yeon, Kwak, Sung, Kim, Sung, Kim, Jeonghyun, Choi, Jungil, Kang, Chang-Mo, Kim, Jong, Kwon, Kyeongha, Won, Sang, Baek, Janice, Lee, Yujin, Kim, So, Lu, Wei, Vazquez-Guardado, Abraham, Jeong, Hyoyoung, Ryu, Hanjun, Lee, Geumbee, Kim, Kyuyoung, Kim, Seunghwan, Kim, Min, Choi, Jungrak, Choi, Dong, Yang, Quansan, Zhao, Hangbo, Bai, Wubin, Jang, Hokyung, Yu, Yongjoon, Lim, Jaeman, Guo, Xu, Kim, Bong, Jeon, Seokwoo, Davies, Charles, Banks, Anthony, Sung, Hyung, Huang, Yonggang, Park, Inkyu, and Rogers, John

Subjects

Adult, Aged, Aged, 80 and over, Female, Humans, Male, Middle Aged, Biosensing Techniques, Electric Power Supplies, Equipment Design, Monitoring, Physiologic, Pressure, Skin, Temperature, Thermography, Wireless Technology, Pressure Ulcer

Abstract

Capabilities for continuous monitoring of pressures and temperatures at critical skin interfaces can help to guide care strategies that minimize the potential for pressure injuries in hospitalized patients or in individuals confined to the bed. This paper introduces a soft, skin-mountable class of sensor system for this purpose. The design includes a pressure-responsive element based on membrane deflection and a battery-free, wireless mode of operation capable of multi-site measurements at strategic locations across the body. Such devices yield continuous, simultaneous readings of pressure and temperature in a sequential readout scheme from a pair of primary antennas mounted under the bedding and connected to a wireless reader and a multiplexer located at the bedside. Experimental evaluation of the sensor and the complete system includes benchtop measurements and numerical simulations of the key features. Clinical trials involving two hemiplegic patients and a tetraplegic patient demonstrate the feasibility, functionality and long-term stability of this technology in operating hospital settings.

Published

2021

5. Customizable self-powered pressure sensor based on piezo-transmittance of tilted structures

Author

Wu, Lei, Ahn, Junseong, Choi, Jungrak, Gu, Jimin, Li, Xuan, Gul, Osman, Zhao, Zhi-Jun, Qian, Linmao, Yu, Bingjun, and Park, Inkyu

Published

2023

6. Prediction of ground reaction forces using the artificial neural network from capacitive self-sensing values of composite ankle springs for exo-robots

Author

Hong, Hyunsoo, Salman Sarfraz, Muhammad, Jeong, Mingoo, Kim, Taeyeon, Choi, Jungrak, Kong, Kyoungchul, Park, Inkyu, and Su Kim, Seong

Published

2022

7. Nanoribbon Yarn with Versatile Inorganic Materials.

Author

Ahn, Junseong, Jeong, Yongrok, Kang, Mingu, Ahn, Jihyeon, Padmajan Sasikala, Suchithra, Yang, Inyeong, Ha, Ji‐Hwan, Hwang, Soon Hyoung, Jeon, Sohee, Gu, Jimin, Choi, Jungrak, Kang, Byung‐Ho, Kim, Sang Ouk, Kim, Sanha, Choi, Junhyuk, Jeong, Jun‐Ho, and Park, Inkyu

Published

2024

8. Laser‐induced graphene formation on recycled woods for green smart furniture

Author

Nam, Han Ku, primary, Choi, Jungrak, additional, Jing, Tongmei, additional, Yang, Dongwook, additional, Lee, Younggeun, additional, Kim, Young‐Ryeul, additional, Le, Truong‐Son Dinh, additional, Kim, Byunggi, additional, Yu, Liandong, additional, Kim, Seung‐Woo, additional, Park, Inkyu, additional, and Kim, Young‐Jin, additional

Published

2024

9. Self-powered strain sensor based on the piezo-transmittance of a mechanical metamaterial

Author

Gu, Jimin, Ahn, Junseong, Jung, Jiyoung, Cho, Seokjoo, Choi, Jungrak, Jeong, Yongrok, Park, Jaeho, Hwang, Soonhyoung, Cho, Incheol, Ko, Jiwoo, Ha, Ji-Hwan, Zhao, Zhi-Jun, Jeon, Sohee, Ryu, Seunghwa, Jeong, Jun-Ho, and Park, Inkyu

Published

2021

10. Morphology-controllable wrinkled hierarchical structure and its application to superhydrophobic triboelectric nanogenerator

Author

Ahn, Junseong, Zhao, Zhi-Jun, Choi, Jungrak, Jeong, Yongrok, Hwang, Soonhyoung, Ko, Jiwoo, Gu, Jimin, Jeon, Sohee, Park, Jaeho, Kang, Mingu, Del Orbe, Dionisio V., Cho, Incheol, Kang, Hyeokjung, Bok, Moonjeong, Jeong, Jun-Ho, and Park, Inkyu

Published

2021

11. Low-power thermocatalytic hydrogen sensor based on electrodeposited cauliflower-like nanostructured Pt black

Author

Del Orbe, Dionisio V., Yang, Hyunwoo, Cho, Incheol, Park, Jaeho, Choi, Jungrak, Han, Sang Woo, and Park, Inkyu

Published

2021

12. Nanotransfer Printing of Functional Nanomaterials on Electrospun Fibers for Wearable Healthcare Applications.

Author

Ha, Ji‐Hwan, Ko, Jiwoo, Ahn, Junseong, Jeong, Yongrok, Ahn, Jihyeon, Hwang, Soonhyoung, Jeon, Sohee, Kim, Dahong, Park, Su A, Gu, Jimin, Choi, Jungrak, Han, Hyeonseok, Han, Chankyu, Kang, Byeongmin, Kang, Byung‐Ho, Cho, Seokjoo, Kwon, Yeong Jae, Kim, Cheolmin, Choi, Sunkun, and Sim, Gi‐Dong

Subjects

TECHNOLOGY transfer, VISIBLE spectra, TEXTILE printing, TEXTILE technology, CURVED surfaces

Abstract

With the advancement of functional textile technology, there is a growing demand for functional enhancements in textiles from both industrial and societal perspectives. Recently, nanopattern transfer technology has emerged as a potential approach for fabricating functional textiles. However, conventional transfer methods have some limitations such as transfer difficulties on curved fiber surfaces, polymer residues, and delamination of transferred nanopatterns. In this study, an advanced nanopattern transfer method based on surface modification and thermoforming principles is applied to microscale electrospun fibers. This transfer method utilizes covalent bonding and mechanical interlocking between nanopatterns and the fibers without requiring extra adhesives. Various nanopatterns transferred electrospun fibers possess significant potential for diverse wearable healthcare applications. This work introduces two specific application scenarios in the field of wearable healthcare, both of which leverage the light: diagnostics and antimicrobials. Versatile textile with silver nanogap‐pattern detects glucose in sweat, diagnosing hypoglycemia and diabetes by shifting Raman peaks from 1071.0 to 1075.4 cm−1 for 0 to 150 µm glucose. Additionally, a bactericidal mask using visible light to induce the photocatalytic degradation effect of titanium dioxide and silver nanopatterns is developed. Bactericidal efficacy against Escherichia coli and Staphylococcus aureus is 99.9% due to photolysis from visible light irradiation. [ABSTRACT FROM AUTHOR]

Published

2024

13. Wireless, Battery‐Free, Optoelectronic Diagnostic Sensor Integrated Colorimetric Dressing for Advanced Wound Care.

Author

Cho, Seokjoo, Ha, Ji‐Hwan, Ahn, Junseong, Han, Hyeonseok, Jeong, Yongrok, Jeon, Sohee, Hwang, Soonhyoung, Choi, Jungrak, Oh, Yong Suk, Kim, Dahong, Park, Su A, Lee, Donho, Ahn, Jihyeon, Kang, Byeongmin, Kang, Byung‐Ho, Jeong, Jun‐Ho, and Park, Inkyu

Subjects

WOUND care, SKIN injuries, OPTOELECTRONICS, PRESSURE ulcers, LIGHT emitting diodes, DETECTORS, POLYCAPROLACTONE, COLORIMETRIC analysis

Abstract

Recently, addressing various wounds, ranging from skin injuries to pressure and chronic ulcers, has necessitated a more detailed approach to wound condition monitoring aimed at enhancing the patient's quality of life. Although most available wound dressings offer protection and promote the regeneration of wound lesions, they fail to monitor wound progression. To meet this need, this study introduces a pioneering solution: a wireless, battery‐free, optoelectronic diagnostic sensor seamlessly integrated into a colorimetric, pH‐sensitive wound dressing, designed to significantly enhance patient quality of life through improved wound care. Curcumin‐polycaprolactone (C‐PCL) dressing protect the wounds, promote cell regeneration, and possess antimicrobial properties. In addition, the dressing exhibits colorimetric pH‐monitoring capabilities across different wound conditions, enabling individuals without specialized knowledge to assess the status of their wounds. The core innovation lies in the integration of a green light‐emitting diode (LED) and photodiode, which meticulously evaluates color changes from yellow to red of colorimetric dressing, enhance the precision of this user‐friendly colorimetric diagnosis strategy. The integration of wireless battery‐free systems facilitates quantitative and real‐time monitoring of wound data in patients without inconvenience. These innovations will pave the way for rapid wound status evaluation, ensuring timely interventions and optimized care for deteriorating wound conditions. [ABSTRACT FROM AUTHOR]

Published

2024

14. Beetle‐Inspired Gradient Slant Structures for Capacitive Pressure Sensor with a Broad Linear Response Range.

Author

Wu, Lei, Li, Xuan, Choi, Jungrak, Zhao, Zhi‐Jun, Qian, Linmao, Yu, Bingjun, and Park, Inkyu

Subjects

CAPACITIVE sensors, PRESSURE sensors, ENVIRONMENTAL monitoring, DETECTION limit, COMPRESSIBILITY, SMART materials, UNIFORMITY

Abstract

Flexible pressure sensors with broad linearity range and excellent sensor‐to‐sensor uniformity have attracted unprecedented attention in the electronic skins, human–machine interfaces, and environmental monitoring. However, challenges including poor sensor‐to‐sensor uniformity owing to the randomness of the used nanomaterials or porous structures and saturated response that leads to a restricted linearity range because of structural stiffening have been yet addressed. Herein, a novel dielectric layer based on beetle‐inspired gradient slant structures (GSS) is proposed to endow capacitive pressure sensors with extensive linearity range and excellent sensor‐to‐sensor uniformity. The excellent compressibility of the GSS due to the bending deformation of the slant pillars significantly enhances sensor sensitivity. The broad linearity range comes from the compensation of contact area during sequential contact of the GSS dielectric layer from tall to low slant pillars with electrodes. The high sensor‐to‐sensor uniformity is ascribed to the excellent batch‐to‐batch consistency of prepared GSS via 3D printing‐based fabrication process. Moreover, the proposed GSS‐based pressure sensors present rapid response/recovery, low detection limit, excellent dynamic response, negligible hysteresis, and outstanding long‐term stability. Finally, the excellent applicabilities of proposed capacitive pressure sensors in diverse scenarios including external pressure stimuli detection, a flexible perception array, and a smart insole system are demonstrated. [ABSTRACT FROM AUTHOR]

Published

2024

15. Wearable self-powered pressure sensor by integration of piezo-transmittance microporous elastomer with organic solar cell

Author

Choi, Jungrak, Kwon, Donguk, Kim, Byeongsu, Kang, Kyungnam, Gu, Jimin, Jo, Jihwan, Na, Kwangmin, Ahn, Junseong, Del Orbe, Dionisio, Kim, Kyuyoung, Park, Jaeho, Shim, Jongmin, Lee, Jung-Yong, and Park, Inkyu

Published

2020

16. All-soft multiaxial force sensor based on liquid metal for electronic skin

Author

Kim, Kyuyoung, Ahn, Junseong, Jeong, Yongrok, Choi, Jungrak, Gul, Osman, and Park, Inkyu

Published

2021

17. Author Correction: Battery-free, wireless soft sensors for continuous multi-site measurements of pressure and temperature from patients at risk for pressure injuries

Author

Oh, Yong Suk, Kim, Jae-Hwan, Xie, Zhaoqian, Cho, Seokjoo, Han, Hyeonseok, Jeon, Sung Woo, Park, Minsu, Namkoong, Myeong, Avila, Raudel, Song, Zhen, Lee, Sung-Uk, Ko, Kabseok, Lee, Jungyup, Lee, Je-Sang, Min, Weon Gi, Lee, Byeong-Ju, Choi, Myungwoo, Chung, Ha Uk, Kim, Jongwon, Han, Mengdi, Koo, Jahyun, Choi, Yeon Sik, Kwak, Sung Soo, Kim, Sung Bong, Kim, Jeonghyun, Choi, Jungil, Kang, Chang-Mo, Kim, Jong Uk, Kwon, Kyeongha, Won, Sang Min, Baek, Janice Mihyun, Lee, Yujin, Kim, So Young, Lu, Wei, Vazquez-Guardado, Abraham, Jeong, Hyoyoung, Ryu, Hanjun, Lee, Geumbee, Kim, Kyuyoung, Kim, Seunghwan, Kim, Min Seong, Choi, Jungrak, Choi, Dong Yun, Yang, Quansan, Zhao, Hangbo, Bai, Wubin, Jang, Hokyung, Yu, Yongjoon, Lim, Jaeman, Guo, Xu, Kim, Bong Hoon, Jeon, Seokwoo, Davies, Charles, Banks, Anthony, Sung, Hyung Jin, Huang, Yonggang, Park, Inkyu, and Rogers, John A.

Published

2021

18. Self-Powered/Wireless-Powered Physical Sensors for Healthcare Applications

Author

Park, Inkyu, primary, Choi, Jungrak, additional, Gu, Jimin, additional, Ahn, Junseong, additional, Oh, Yong Suk, additional, Cho, Seokjoo, additional, and Han, Hyeonseok, additional

Published

2023

19. A Wireless and Wearable Body-Pressure-Monitoring System for the Prevention of Pressure-Induced Skin Injuries

Author

Park, Hyunwoo, primary, Kim, Kyuyoung, additional, Kweon, Soon-Jae, additional, Gul, Osman, additional, Choi, Jungrak, additional, Oh, Yong Suk, additional, Park, Inkyu, additional, and Je, Minkyu, additional

Published

2023

20. Recent Advances in Sensor–Actuator Hybrid Soft Systems: Core Advantages, Intelligent Applications, and Future Perspectives

Author

Han, Chankyu, primary, Jeong, Yongrok, additional, Ahn, Junseong, additional, Kim, Taehwan, additional, Choi, Jungrak, additional, Ha, Ji‐Hwan, additional, Kim, Hyunjin, additional, Hwang, Soon Hyoung, additional, Jeon, Sohee, additional, Ahn, Jihyeon, additional, Hong, Jin Tae, additional, Kim, Jin Joo, additional, Jeong, Jun‐Ho, additional, and Park, Inkyu, additional

Published

2023

21. Highly Sensitive Soft Pressure Sensors for Wearable Applications Based on Composite Films with Curved 3D Carbon Nanotube Structures

Author

Jung, Young, primary, Gu, Jimin, additional, Yeo, Jinwook, additional, Lee, Wookjin, additional, Han, Hyeonseok, additional, Choi, Jungrak, additional, Ha, Ji‐Hwan, additional, Ahn, Junseong, additional, Cho, Hanchul, additional, Ryu, Seunghwa, additional, and Park, Inkyu, additional

Published

2023

22. Spike‐based Self‐Calibration for Enhanced Accuracy in Self‐powered Pressure Sensing

Author

Han, Chankyu, primary, Choi, Jungrak, additional, Ahn, Junseong, additional, Kim, Hyunjin, additional, Ha, Ji‐Hwan, additional, Han, Hyeonseok, additional, Cho, Seokjoo, additional, Jeong, Yongrok, additional, Gu, Jimin, additional, and Park, Inkyu, additional

Published

2023

23. Micro‐/Nanohierarchical Structures Physically Engineered on Surfaces: Analysis and Perspective.

Author

Ahn, Junseong, Han, Hyeonseok, Ha, Ji‐Hwan, Jeong, Yongrok, Jung, Young, Choi, Jungrak, Cho, Seokjoo, Jeon, Sohee, Jeong, Jun‐Ho, and Park, Inkyu

Published

2024

24. Highly Sensitive Soft Pressure Sensors for Wearable Applications Based on Composite Films with Curved 3D Carbon Nanotube Structures.

Author

Jung, Young, Gu, Jimin, Yeo, Jinwook, Lee, Wookjin, Han, Hyeonseok, Choi, Jungrak, Ha, Ji‐Hwan, Ahn, Junseong, Cho, Hanchul, Ryu, Seunghwa, and Park, Inkyu

Published

2024

25. Micro/Nano Hierarchical Structures Physically Engineered on Surface: Analysis and Perspectives

Author

Ahn, Junseong, primary, Han, Hyeonseok, additional, Ha, Ji‐Hwan, additional, Jeong, Yongrok, additional, Jung, Young, additional, Choi, Jungrak, additional, Cho, Seokjoo, additional, Jeon, Sohee, additional, Jeong, Jun‐Ho, additional, and Park, Inkyu, additional

Published

2023

26. Battery‐Free, Wireless, Cuff‐Type, Multimodal Physical Sensor for Continuous Temperature and Strain Monitoring of Nerve

Author

Kim, Seunghwan, primary, Oh, Yong Suk, additional, Lee, Kwanghyoung, additional, Kim, Seongchan, additional, Maeng, Woo‐Youl, additional, Kim, Kyung Su, additional, Kim, Ga‐Been, additional, Cho, Seokjoo, additional, Han, Hyeonseok, additional, Park, Hyunwoo, additional, Wang, Mengqiu, additional, Avila, Raudel, additional, Xie, Zhaoqian, additional, Ko, Kabseok, additional, Choi, Jungrak, additional, Je, Minkyu, additional, Lee, Hyojin, additional, Lee, Sungho, additional, Koo, Jahyun, additional, and Park, Inkyu, additional

Published

2023

27. Piezo-Transmissive Structure Using a Multi-layered Heterogeneous Film for Optical Transmittance Modulation

Author

Lee, Gihun, primary, Choi, Jungrak, additional, Ahn, Junseong, additional, Cho, Seokju, additional, and Park, Inkyu, additional

Published

2023

28. Multifunctional Micro/Nanofiber Based‐Dressing Patch with Healing, Protection, and Monitoring Capabilities for Advanced Wound Care (Adv. Mater. Technol. 7/2023)

Author

Ha, Ji‐Hwan, primary, Kim, Jae Yun, additional, Kim, Dahong, additional, Ahn, Junseong, additional, Jeong, Yongrok, additional, Ko, Jiwoo, additional, Hwang, Soonhyoung, additional, Jeon, Sohee, additional, Jung, Young, additional, Gu, Jimin, additional, Han, Hyeonseok, additional, Choi, Jungrak, additional, Lee, Gihun, additional, Bok, Moonjeong, additional, Park, Su A, additional, Cho, Yee Sook, additional, Jeong, Jun‐Ho, additional, and Park, Inkyu, additional

Published

2023

29. Low‐Power, Multi‐Transduction Nanosensor Array for Accurate Sensing of Flammable and Toxic Gases (Small Methods 3/2023)

Author

Henriquez, Dionisio V. Del Orbe, primary, Kang, Mingu, additional, Cho, Incheol, additional, Choi, Jungrak, additional, Park, Jaeho, additional, Gul, Osman, additional, Ahn, Junseong, additional, Lee, Dae‐Sik, additional, and Park, Inkyu, additional

Published

2023

30. Correction: A wearable colorimetric sweat pH sensor-based smart textile for health state diagnosis

Author

Ha, Ji-Hwan, primary, Jeong, Yongrok, additional, Ahn, Junseong, additional, Hwang, Soonhyoung, additional, Jeon, Sohee, additional, Kim, Dahong, additional, Ko, Jiwoo, additional, Kang, Byeongmin, additional, Jung, Young, additional, Choi, Jungrak, additional, Han, Hyeonseok, additional, Gu, Jimin, additional, Cho, Seokjoo, additional, Kim, Hyunjin, additional, Bok, Moonjeong, additional, Park, Su A., additional, Jeong, Jun-Ho, additional, and Park, Inkyu, additional

Published

2023

31. Battery‐Free, Wireless, Ionic Liquid Sensor Arrays to Monitor Pressure and Temperature of Patients in Bed and Wheelchair

Author

Han, Hyeonseok, primary, Oh, Yong Suk, additional, Cho, Seokjoo, additional, Park, Hyunwoo, additional, Lee, Sung‐Uk, additional, Ko, Kabseok, additional, Park, Jae‐Man, additional, Choi, Jungrak, additional, Ha, Ji‐Hwan, additional, Han, Chankyu, additional, Zhao, Zichen, additional, Liu, Zhuangjian, additional, Xie, Zhaoqian, additional, Lee, Je‐Sang, additional, Min, Weon Gi, additional, Lee, Byeong‐Ju, additional, Koo, Jahyun, additional, Choi, Dong Yun, additional, Je, Minkyu, additional, Sun, Jeong‐Yun, additional, and Park, Inkyu, additional

Published

2022

32. All‐Recyclable Triboelectric Nanogenerator for Sustainable Ocean Monitoring Systems (Adv. Energy Mater. 30/2022)

Author

Ahn, Junseong, primary, Kim, Ji‐Seok, additional, Jeong, Yoonsang, additional, Hwang, Soonhyoung, additional, Yoo, Hyunjoon, additional, Jeong, Yongrok, additional, Gu, Jimin, additional, Mahato, Manmatha, additional, Ko, Jiwoo, additional, Jeon, Sohee, additional, Ha, Ji‐Hwan, additional, Seo, Hee‐Seon, additional, Choi, Jungrak, additional, Kang, Mingu, additional, Han, Chankyu, additional, Cho, Yohan, additional, Lee, Chong Hyun, additional, Jeong, Jun‐Ho, additional, Oh, Il‐Kwon, additional, and Park, Inkyu, additional

Published

2022

33. Irregular Microdome Structure‐Based Sensitive Pressure Sensor Using Internal Popping of Microspheres (Adv. Funct. Mater. 27/2022)

Author

Jung, Young, primary, Choi, Jungrak, additional, Lee, Wookjin, additional, Ko, Jong Soo, additional, Park, Inkyu, additional, and Cho, Hanchul, additional

Published

2022

34. A Review of Recent Advances in Electrically Driven Polymer‐Based Flexible Actuators: Smart Materials, Structures, and Their Applications

Author

Ahn, Junseong, primary, Gu, Jimin, additional, Choi, Jungrak, additional, Han, Chankyu, additional, Jeong, Yongrok, additional, Park, Jaeho, additional, Cho, Seokjoo, additional, Oh, Yong Suk, additional, Jeong, Jun‐Ho, additional, Amjadi, Morteza, additional, and Park, Inkyu, additional

Published

2022

35. Battery‐Free, Wireless, Ionic Liquid Sensor Arrays to Monitor Pressure and Temperature of Patients in Bed and Wheelchair.

Author

Han, Hyeonseok, Oh, Yong Suk, Cho, Seokjoo, Park, Hyunwoo, Lee, Sung‐Uk, Ko, Kabseok, Park, Jae‐Man, Choi, Jungrak, Ha, Ji‐Hwan, Han, Chankyu, Zhao, Zichen, Liu, Zhuangjian, Xie, Zhaoqian, Lee, Je‐Sang, Min, Weon Gi, Lee, Byeong‐Ju, Koo, Jahyun, Choi, Dong Yun, Je, Minkyu, and Sun, Jeong‐Yun

Published

2023

36. Wafer-scale, highly uniform, and well-arrayed suspended nanostructures for enhancing the performance of electronic devices

Author

Zhao, Zhi-Jun, primary, Ahn, Junseong, additional, Lee, Dongheon, additional, Jeong, Chan Bae, additional, Kang, Mingu, additional, Choi, Jungrak, additional, Bok, Moonjeong, additional, Hwang, Soonhyoung, additional, Jeon, Sohee, additional, Park, Sooyeon, additional, Ko, Jiwoo, additional, Chang, Ki Soo, additional, Choi, Jung-Woo, additional, Park, Inkyu, additional, and Jeong, Jun-Ho, additional

Published

2022

37. Customizable Self-Powered Pressure Sensor Based on Piezo-Transmittance of Tilted Structures

Author

Wu, Lei, primary, Ahn, Junseong, additional, Choi, Jungrak, additional, Gu, Jimin, additional, Li, Xuan, additional, Gul, Osman, additional, Zhao, Zhi-Jun, additional, Qian, Linmao, additional, Yu, Bingjun, additional, and Park, Inkyu, additional

Published

2022

38. Stretchable Printed Circuit Board Based on Leak-Free Liquid Metal Interconnection and Local Strain Control

Author

Kim, Min Seong, primary, Kim, Seunghwan, additional, Choi, Jungrak, additional, Kim, Seonggi, additional, Han, Chankyu, additional, Lee, Yung, additional, Jung, Youngdo, additional, Park, Jaeho, additional, Oh, Sunjong, additional, Bae, Byeong-Soo, additional, Lim, Hyuneui, additional, and Park, Inkyu, additional

Published

2021

39. Customizable, conformal, and stretchable 3D electronics via predistorted pattern generation and thermoforming

Author

Choi, Jungrak, primary, Han, Chankyu, additional, Cho, Seokjoo, additional, Kim, Kyuyoung, additional, Ahn, Junseong, additional, Del Orbe, Dionisio, additional, Cho, Incheol, additional, Zhao, Zhi-Jun, additional, Oh, Yong Suk, additional, Hong, Hyunsoo, additional, Kim, Seong Su, additional, and Park, Inkyu, additional

Published

2021

40. Sensitivity-Controllable Liquid-Metal-Based Pressure Sensor for Wearable Applications

Author

Gul, Osman, primary, Kim, Kyuyoung, additional, Gu, Jimin, additional, Choi, Jungrak, additional, Del Orbe Henriquez, Dionisio, additional, Ahn, Junseong, additional, and Park, Inkyu, additional

Published

2021

41. A wearable colorimetric sweat pH sensor-based smart textile for health state diagnosisElectronic supplementary information (ESI) available. See DOI: https://doi.org/10.1039/d3mh00340j

Author

Ha, Ji-Hwan, Jeong, Yongrok, Ahn, Junseong, Hwang, Soonhyong, Jeon, Sohee, Kim, Dahong, Ko, Jiwoo, Kang, Byeongmin, Jung, Young, Choi, Jungrak, Han, Hyeonseok, Gu, Jimin, Cho, Seokjoo, Kim, Hyunjin, Bok, Moonjeong, Park, Su A., Jeong, Jun-Ho, and Park, Inkyu

Abstract

Sweat pH is an important indicator for diagnosing disease states, such as cystic fibrosis. However, conventional pH sensors are composed of large brittle mechanical parts and need additional instruments to read signals. These pH sensors have limitations for practical wearable applications. In this study, we propose wearable colorimetric sweat pH sensors based on curcumin and thermoplastic-polyurethane (C-TPU) electrospun-fibers to diagnose disease states by sweat pH monitoring. This sensor aids in pH monitoring by changing color in response to chemical structure variation from enol to di-keto form viaH-atom separation. Its chemical structure variation changes the visible color due to light absorbance and reflectance changes. Furthermore, it can rapidly and sensitively detect sweat pH due to its superior permeability and wettability. By O2plasma activation and thermal pressing, this colorimetric pH sensor can be easily attached to various fabric substrates such as swaddling and patient clothing viasurface modification and mechanical interlocking of C-TPU. Furthermore, the diagnosable clothing is durable and reusable enough to neutral washing conditions due to the reversible pH colorimetric sensing performance by restoring the enol form of curcumin. This study contributes to the development of smart diagnostic clothing for cystic fibrosis patients who require continuous sweat pH monitoring.

Published

2023

42. Large-Area Nanogap-Controlled 3D Nanoarchitectures Fabricated via Layer-by-Layer Nanoimprint

Author

Zhao, Zhi-Jun, primary, Ahn, Junseong, additional, Hwang, Soon Hyoung, additional, Ko, Jiwoo, additional, Jeong, Yongrok, additional, Bok, Moonjeong, additional, Kang, Hyeok-Joong, additional, Choi, Jungrak, additional, Jeon, Sohee, additional, Park, Inkyu, additional, and Jeong, Jun-Ho, additional

Published

2021

43. Pt Nanostructures Fabricated by Local Hydrothermal Synthesis for Low-Power Catalytic-Combustion Hydrogen Sensors

Author

Del Orbe Henriquez, Dionisio, primary, Cho, Incheol, additional, Yang, Hyunwoo, additional, Choi, Jungrak, additional, Kang, Mingu, additional, Chang, Ki Soo, additional, Jeong, Chan Bae, additional, Han, Sang Woo, additional, and Park, Inkyu, additional

Published

2020

44. Correction to “Synergetic Effect of Porous Elastomer and Percolation of Carbon Nanotube Filler towards High Performance Capacitive Pressure Sensors”

Author

Choi, Jungrak, primary, Kwon, Donguk, additional, Kim, Kyuyoung, additional, Park, Jaeho, additional, Orbe, Dionisio Del, additional, Gu, Jimin, additional, Ahn, Junseong, additional, Cho, Incheol, additional, Jeong, Yongrok, additional, Oh, Yong Suk, additional, and Park, Inkyu, additional

Published

2020

45. Highly Sensitive and Wearable Liquid Metal‐Based Pressure Sensor for Health Monitoring Applications: Integration of a 3D‐Printed Microbump Array with the Microchannel

Author

Kim, Kyuyoung, primary, Choi, Jungrak, additional, Jeong, Yongrok, additional, Cho, Incheol, additional, Kim, Minseong, additional, Kim, Seunghwan, additional, Oh, Yongsuk, additional, and Park, Inkyu, additional

Published

2020

46. Microporous Elastomer Filter Coated with Metal Organic Frameworks for Improved Selectivity and Stability of Metal Oxide Gas Sensors

Author

Hwang, Kyoungjin, primary, Ahn, Junseong, additional, Cho, Incheol, additional, Kang, Kyungnam, additional, Kim, Kyuyoung, additional, Choi, Jungrak, additional, Polychronopoulou, Kyriaki, additional, and Park, Inkyu, additional

Published

2020

47. Synergetic Effect of Porous Elastomer and Percolation of Carbon Nanotube Filler toward High Performance Capacitive Pressure Sensors

Author

Choi, Jungrak, primary, Kwon, Donguk, additional, Kim, Kyuyoung, additional, Park, Jaeho, additional, Orbe, Dionisio Del, additional, Gu, Jimin, additional, Ahn, Junseong, additional, Cho, Incheol, additional, Jeong, Yongrok, additional, Oh, Yongsuk, additional, and Park, Inkyu, additional

Published

2019

48. Stretchable Printed Circuit Board Based on Leak-Free Liquid Metal Interconnection and Local Strain Control.

Author

Kim, Min Seong, Kim, Seunghwan, Choi, Jungrak, Kim, Seonggi, Han, Chankyu, Lee, Yung, Jung, Youngdo, Park, Jaeho, Oh, Sunjong, Bae, Byeong-Soo, Lim, Hyuneui, and Park, Inkyu

Published

2022

49. Wearable Sensors: Highly Sensitive and Wearable Liquid Metal‐Based Pressure Sensor for Health Monitoring Applications: Integration of a 3D‐Printed Microbump Array with the Microchannel (Adv. Healthcare Mater. 22/2019)

Author

Kim, Kyuyoung, primary, Choi, Jungrak, additional, Jeong, Yongrok, additional, Cho, Incheol, additional, Kim, Minseong, additional, Kim, Seunghwan, additional, Oh, Yongsuk, additional, and Park, Inkyu, additional

Published

2019

50. Highly Sensitive and Wearable Liquid Metal‐Based Pressure Sensor for Health Monitoring Applications: Integration of a 3D‐Printed Microbump Array with the Microchannel

Author

Kim, Kyuyoung, primary, Choi, Jungrak, additional, Jeong, Yongrok, additional, Cho, Incheol, additional, Kim, Minseong, additional, Kim, Seunghwan, additional, Oh, Yongsuk, additional, and Park, Inkyu, additional

Published

2019