Inbound Programs

CAMPUS Asia AIMS
  • Inbound Programs
  • CAMPUS Asia AIMS
  • Professors/Lab.

CAMPUS Asia AIMS

공유하기
TOP
Professors/Lab.

참여학과(부) 교수 소개

Journal Article(논문)
Issue Date
(발행일)		 Title
(제목)		 Journals
(출처)
23. 07. 05. Hybridizing zeolite MFI nanosheets with PTMSP membranes for enhanced butane isomer separations J. Membr. Sci.
23. 06. 15 High-temperature vapor permeation of preferentially b-oriented zeolite MFI membranes fabricated from nanocrystal-containing nanosheets Sep. Purif. Technol.
23. 02. 01. Morphology evolution of zeolite MFI nanosheet fragments during secondary growths Microporous Mesoporous Mater.
22. 04. 06 Twin-free, directly synthesized MFI nanosheets with improved thickness uniformity and their use in membrane fabrication Science Advances
17. 11. 30 Para-xylene ultra-selective zeolite MFI membranes fabricated from nanosheet monolayers at the air-water interface Angew. Chem. Int. Ed.
17. 03. 15. Ultra-selective high-flux membranes from directly synthesized zeolite nanosheets Nature
touch slide
데이터가 존재하지 않습니다.
데이터가 존재하지 않습니다.
데이터가 존재하지 않습니다.
데이터가 존재하지 않습니다.
데이터가 존재하지 않습니다.
데이터가 존재하지 않습니다.

실험실습 연구실 소개

Introduction of Lab. (연구실 소개)

Functional porous materials Lab

  • Research Area nanostructure materials, inorganic materials, separation, electrocatalysis
  • Details We aim to understand molecular interactions in various chemical systems, with a focus on heterogeneous interfaces, and use this knowledge to address energy and environmental challenges through material synthesis and chemical processes. We are currently working on the following two projects: 1) Microstructure control of zeolite separation membranes for hydrocarbon refinement and 2) Remanufacturing of RFCC catalysts.
Research Project
(연구과제)		 Period
(연구기간)		 Organization
(주관기관명)		 Details
(내용 및 특징)
Pore shape control of zeolite membranes for linear/branch hydrocarbon separations 2021-09-01 ~ 2024-02-29 National Research Foundation of Korea Nanoscale structure control of porous materials toward high-performance separation membranes
Development of RFCC catalyst remanufacturing technology for reduction of CO2 emission 2022-04-01 ~ 2025-12-31 Korea Energy Technology Evaluation and Planning Controlling zeolite crystal growths for the development of catalyst remanufacturing technology
touch slide
Go to list