|
Type |
Poster Presentation |
Area |
재료화학 |
Room No. |
포스터발표장 |
Time |
4월 21일 (금요일) 13:00~14:30 |
Code |
MAT.P-331 |
Subject |
Chemical buffer layer-armed high performance nanocatalysts for enhanced catalytic activity and stability |
Authors |
강병권, 최원산1,* 한밭대학교 응용화학과, Korea 1한밭대학교 화학생명공학과, Korea |
Abstract |
Abstract
Day by day global air and water resources have been seriously polluted owing to industrial progress. Since nanocatalysts have been considered one of powerful candidates for solving such a problem, purification of organic pollutants using catalysts has become an important issue in catalytic research and practical applications. Structural design of nanocatalysts has been proven to be the most effective method to enhance their catalytic activity and stability. Considerable attention has been devoted to dispersing nanocatalysts onto matrices to improve the stability and activity of nanocatalysts. Direct design for surface structures of nanocatalysts has been considered to tune the physicochemical properties of nanocatalysts. In our previous study, we demonstrated that needlelike and less reactive surfaces of catalysts could be one of good surface designs to enhance the stability and activity of catalysts. Herein, we report optimized surface design of heterogeneous catalysts based on polyelectrolyte brushes and Au catalysts. |
E-mail |
rkdqudrnjs3@naver.com |
|