Minkee Choi
KAIST
152 Papers
436 Citations
Minkee Choi is an academic researcher from KAIST. The author has contributed to research in topics: Catalysis & Chemistry. The author has an hindex of 43, co-authored 132 publications. Previous affiliations of Minkee Choi include University of California, Berkeley & Inha University.
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Papers
Patent
Method of the preparation of microporous crystalline molecular sieve possessing mesoporous frameworks
Ryong Ryoo,Minkee Choi +1 more
- 02 Mar 2006
TL;DR: In this article, a meso-SDA (meso-Structure Directing Agent) was added to a gel composition of synthesizing molecular sieve, subjecting the mixture obtained in the above step to crystallization by a hydrothermal reaction, a microwave reaction, dry-gel synthesis, etc., and removing selectively organic materials from the resulted material obtained by a calcination or a chemical treatment.
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Thermal Stability Enhanced Tetraethylenepentamine/Silica Adsorbents for High Performance CO2 Capture
Sunghyun Park,Sunghyun Park,Keunsu Choi,Hyun Jung Yu,Young June Won,Chaehoon Kim,Minkee Choi,So Hye Cho,Jung Hyun Lee,Seung Yong Lee,Jong Suk Lee +10 more
TL;DR: In this paper, a facile functionalization of TEPA with 1,2-epoxybutane (EB) substantially enhanced its thermal stability as well as the CO2 adsorption kinetics.
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Ethanol-based synthesis of hierarchically porous carbon using nanocrystalline beta zeolite template for high-rate electrical double layer capacitor
TL;DR: In this paper, a mesopore-micropore hierarchy has been used for hierarchical carbon synthesis using ethanol as a carbon source within a beta zeolite template, which possesses mesopores and micropores in a hierarchical manner.
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Synergy between Zeolite Framework and Encapsulated Sulfur for Enhanced Ion-Exchange Selectivity to Radioactive Cesium
TL;DR: In this article, the authors demonstrate that encapsulation of elemental sulfur in the micropores of zeolites (NaA, NaX, chabazite, and mordenite) via vacuum sublimation can remarkably increase the selectivity toward Cs+ in the presence of competing ions.
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Cross-Linked “Poisonous” Polymer: Thermochemically Stable Catalyst Support for Tuning Chemoselectivity
TL;DR: In this article, the entire surfaces of the Pd clusters were ligated (or poisoned) by sulfide groups of the polymer support, which enabled exceptionally discriminative adsorption of alkynes over alkenes.
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