Shape-controlled synthesis of Au?Pd bimetallic nanocrystals for catalytic applications
2016-07-17
org.kosen.entty.User@1d4d34bc
홍순창(bluespin)
분야
재료
개최일
2016/04/20
신청자
홍순창(bluespin)
개최장소
URL
행사&학회소개
1. Introduction
2. Shape-controlled synthesis of Au?Pd
core?shell NCs
2.1 Synthetic strategies for Au@Pd core?shell NCs
2.2 Synthetic strategies for Pd@Au core?shell NCs
3. Shape-controlled synthesis of
Au?Pd alloy NCs
3.1 Kinetically controlled growth
3.2 Diffusion controlled preparation of TOH Au?Pd alloy with
uniform distribution
3.3 Co-reduction of Au and Pd precursors in the presence of
seeds
3.4 Under potential deposition assisted preparation of Au?Pd
alloys
3.5 The comparison of the synthetic strategies between
supported Au?Pd catalysts and non-supported shape-controlled
Au?Pd alloys
4. Optical properties
4.1 Located surface plasmon resonance properties
4.2 Surface-enhanced Raman scattering on Au?Pd bimetallic
NCs
5. The structural effect on catalytic
properties
5.1 Difference between traditional supported Au?Pd catalysts
and shape-controlled Au?Pd bimetallic NCs
5.2 Electrocatalysis for fuel-cell related reactions
5.3 Shape-controlled Au?Pd NCs for accelerating organic
reactions
6. Summaries and outlook
2. Shape-controlled synthesis of Au?Pd
core?shell NCs
2.1 Synthetic strategies for Au@Pd core?shell NCs
2.2 Synthetic strategies for Pd@Au core?shell NCs
3. Shape-controlled synthesis of
Au?Pd alloy NCs
3.1 Kinetically controlled growth
3.2 Diffusion controlled preparation of TOH Au?Pd alloy with
uniform distribution
3.3 Co-reduction of Au and Pd precursors in the presence of
seeds
3.4 Under potential deposition assisted preparation of Au?Pd
alloys
3.5 The comparison of the synthetic strategies between
supported Au?Pd catalysts and non-supported shape-controlled
Au?Pd alloys
4. Optical properties
4.1 Located surface plasmon resonance properties
4.2 Surface-enhanced Raman scattering on Au?Pd bimetallic
NCs
5. The structural effect on catalytic
properties
5.1 Difference between traditional supported Au?Pd catalysts
and shape-controlled Au?Pd bimetallic NCs
5.2 Electrocatalysis for fuel-cell related reactions
5.3 Shape-controlled Au?Pd NCs for accelerating organic
reactions
6. Summaries and outlook
보고서작성신청
두가지 이상의 성분으로 이루어진 촉매는 한가지 성분으로 이루어진 촉매보다 향상된 촉매 효과를 보인다. 이는 각각의 성분이 각각 다른 역할을 할수도 있고 또는 에너지 레벨의 변화 때문에 발생되는 현상이다. 이런 이성분 촉매는 성분비도 굉장히 중요하지만 그 모양 역시 촉매 활성에 중요한 역할을 한다. 본 리뷰 논문은 그중에서도 금-팔라듐 이성분 촉매를 다루고 있다. 이런 촉매가 모양에 따라 어떤 독특한 역할을 하고 그 매커니즘은 무엇인지 잘 설명하고 있다. 이는 금속 촉매반응의 이해에 있어 큰 도움이 될 것이라 생각된다.