Efficient Non-PGM Electrocatalysts for Hydrazine Electrooxidation in Alkaline Media
- Title
- Efficient Non-PGM Electrocatalysts for Hydrazine Electrooxidation in Alkaline Media
- Alternative Title
- 효율적인 하이드라진 전기 분해반응을 위한 비귀금속 기반의 코어쉘 타입 촉매.
- Author(s)
- Son, Min Ho
- DGIST Authors
- Son, Min Ho ; Sangaraju Shanmugam ; Son, Byung Rak
- Advisor
- 상가라쥬샨무감
- Co-Advisor(s)
- Son, Byung Rak
- Issued Date
- 2020
- Awarded Date
- 2020/08
- Type
- Thesis
- Description
- "Hydrazine electrooxidation", "Direct Hydrazine Fuel Cell", "Non-PGM electro catalysts", "Core-shell structure"
- Abstract
- Hydrazine electrooxidation (HzOR) is considered one of the hydrogen production methodologies. For enhancing HzOR activity and reducing the use of PGM metals, we synthesized core-shell structured catalysts, varying by different transition metal species and pyrolysis temperature. As a result, Ni@NC-600, Fe@NC-600 and Co@NC-500, 600, 700, 800 and 900 are synthesized and tested for HzOR. Co@NC shows quite low onset potential, each trend of initial activity and durability is related to the graphitization of carbon shell and the ratio between hexgonal close packed (HCP) Co and face centered cubic (FCC) Co. The initial activity depends on the number of active sites, that is more blocked with the presence of highly graphitized carbon shell. However, Co@NC-900 didn’t show the best durability because too much graphitized carbon which block lots of active sites. In conclusion, Co@NC-800 is the most optimized catalyst for HzOR. Co@NC-800 shows Ponset at the potential of -0.134 V, which is much lower than Ponset of 40% Pt/C. However, the activity of 40% Pt/C is more higher than Co@NC-800 over the potential of 0.1 V, which could be attributed to the difference of the surface area of two catalysts.
- Table Of Contents
-
Ⅰ. Introduction 1
1.1 Motivation 1
1.2 Theoretical background 2
1.2.1 Hydrazine Electrooxidation (HzOR) 2
1.2.2 HzOR fundamentals 3
1.2.3 Comparison of HzOR catalysts in alkaline 4
1.2.4 Direct Hydrazine Fuel Cell (DHFC) 6
1.2.5 Core shell catalyst – From PB to NC 7
1.3 Objectives 7
II. Experimental 9
2.1 Preparation of electrocatalysts 9
2.1.1 Chemicals 9
2.1.2 Synthetic approach 9
2.2 Characterization 11
2.2.1 X-ray diffraction (XRD) 11
2.2.2 Transmission electron microscopy (TEM) 11
2.2.3 X-ray photoelectron spectroscopic (XPS) 12
2.2.4 Electrochemical measurements 12
III. Results and discussion 13
3.1 M@NCs 13
3.1.1 Characterization 13
3.1.2 Morphology analysis 19
3.1.3 Electrochemical studies 22
3.2 Single phase metallic cobalt 30
3.2.1 HzOR activity 30
IV. Conclusions 31
References 32
국 문 요 약 문 38
Acknowledgement 39
- URI
-
http://dgist.dcollection.net/common/orgView/200000332783
http://hdl.handle.net/20.500.11750/12160
- Degree
- Master
- Department
- Department of Energy Science and Engineering
- Publisher
- DGIST
- Related Researcher
-
-
Shanmugam, Sangaraju
- Research Interests Electrocatalysts for fuel cells; water splitting; metal-air batteries; Polymer electrolyte membranes for fuel cells; flow batteries; Hydrogen generation and utilization
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- Appears in Collections:
- Department of Energy Science and Engineering Theses Master
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