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Macroscopically interconnected hierarchically porous carbon monolith by metal-phenolic coordination as an sorbent for multi-scale molecules
- Kim, Jae Ho;
- Oh, Jun Young;
- Lee, Jung Min;
- Jeong, Yo Chan;
- So, Soon Hyeong;
- ... Yang, Seung Jae;
- 외 3명
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22초록
This study reports on a simple and efficient strategy to prepare macroscopically assembled nano-structured porous carbon (MNPC) based on metal-phenolic interactions. The abundant coordination sites contained in tannic acid enable to form a stable, interconnected hydrogel dough. The porosity evolution mechanism during carbonization process is studied by temperature programmed desorption-mass spectroscopy. Hierarchical pore structure of the MNPC can be developed by modulating the zinc chloride content. The resulting material provides versatile adsorption behaviors for various ranging from small gas molecules to larger molecules such as dye, oil and organic solvents. (C) 2017 Elsevier Ltd. All rights reserved.
키워드
NANOTUBE AEROGELS; ROBUST; FILM; PERFORMANCE; EFFICIENT; POROSITY
- 제목
- Macroscopically interconnected hierarchically porous carbon monolith by metal-phenolic coordination as an sorbent for multi-scale molecules
- 저자
- Kim, Jae Ho; Oh, Jun Young; Lee, Jung Min; Jeong, Yo Chan; So, Soon Hyeong; Cho, Young Shik; Nam, Seunghoon; Park, Chong Rae; Yang, Seung Jae
- 발행일
- 2018-01
- 유형
- Article
- 저널명
- Carbon
- 권
- 126
- 페이지
- 190 ~ 196