Your search keyword '"Hee Jae Choi"' showing total 3 results

1. Multilevel Self-Assembly of Block Copolymers and Polymer Colloids for a Transparent and Sensitive Gas Sensor Platform

Author

Geon Gug Yang, Jaehyun Ko, Hee Jae Choi, Dong-Ha Kim, Kyu Hyo Han, Jang Hwan Kim, Min Hyuk Kim, Chungseong Park, Hyeon Min Jin, Il-Doo Kim, and Sang Ouk Kim

Subjects

General Engineering, General Physics and Astronomy, General Materials Science

Abstract

The recent emerging significance of the Internet of Things (IoT) demands sensor devices to be integrated with many different functional structures and devices while conserving their original functionalities. To this end, optical transparency and mechanical flexibility of sensor devices are critical requirements for optimal integration as well as high sensitivity. In this work, a transparent, flexible, and sensitive gas sensor building platform is introduced by using multilevel self-assembly of block copolymers (BCPs) and polystyrene (PS) colloids. For the demonstration of an H

Published

2022

2. Application of 2D Materials for Adsorptive Removal of Air Pollutants

Author

Jun Tae Kim, Chan Woo Lee, Hong Ju Jung, Hee Jae Choi, Ali Salman, Suchithra Padmajan Sasikala, and Sang Ouk Kim

Subjects

General Engineering, General Physics and Astronomy, General Materials Science

Abstract

Air pollution is on the priority list of global safety issues, with the concern of fatal environmental and public health deterioration. 2D materials are potential adsorbent materials for environmental decontamination, owing to their high surface area, manageable interlayer binding, large surface-to-volume ratio, specific binding capability, and chemical, thermal, and mechanistic stability. Specifically, graphene oxide and reduced graphene oxide have been attracting attention, taking advantage of their low cost synthesis, excessive oxygen containing surface functionalities, and intrinsic aqueous dispersibility, making them desirable for the development of cost-effective, high performance air filters. Many different material designs have been proposed to expand their filtration capability, including the functionalization and integration with other metals and metal oxides, which act not only as binding agents to the target pollutants but also as antimicrobial agents. This review highlights the advantages and drawbacks of 2D materials for air filtration and summarizes the interrelationships among various strategies and the resultant filtration performance in terms of structural engineering, morphology control, and material compositions. Finally, potential future directions are suggested toward the idealized designs of 2D material based air filters.

Published

2022

3. Block Copolymer Nanopatterning for Nonsemiconductor Device Applications

Author

Geon Gug Yang, Hee Jae Choi, Kyu Hyo Han, Jang Hwan Kim, Chan Woo Lee, Edwin Ino Jung, Hyeong Min Jin, and Sang Ouk Kim

Subjects

General Materials Science

Abstract

Block copolymer (BCP) nanopatterning has emerged as a versatile nanoscale fabrication tool for semiconductor devices and other applications, because of its ability to organize well-defined, periodic nanostructures with a critical dimension of 5-100 nm. While the most promising application field of BCP nanopatterning has been semiconductor devices, the versatility of BCPs has also led to enormous interest from a broad spectrum of other application areas. In particular, the intrinsically low cost and straightforward processing of BCP nanopatterning have been widely recognized for their large-area parallel formation of dense nanoscale features, which clearly contrasts that of sophisticated processing steps of the typical photolithographic process, including EUV lithography. In this Review, we highlight the recent progress in the field of BCP nanopatterning for various nonsemiconductor applications. Notable examples relying on BCP nanopatterning, including nanocatalysts, sensors, optics, energy devices, membranes, surface modifications and other emerging applications, are summarized. We further discuss the current limitations of BCP nanopatterning and suggest future research directions to open up new potential application fields.

Published

2022