High-Rate Solar Light Assisted CO2 Photoreduction into C1 and C2 Hydrocarbon Products using Blue Titania Nanoparticles
- Title
- High-Rate Solar Light Assisted CO2 Photoreduction into C1 and C2 Hydrocarbon Products using Blue Titania Nanoparticles
- Author(s)
- Saurav Sorcar
- DGIST Authors
- Sorcar, Saurav ; In, Su-Il ; Shanmugam, Sangaraju
- Advisor
- 인수일
- Co-Advisor(s)
- Sangaraju Shanmugam
- Issued Date
- 2019
- Awarded Date
- 2019-02
- Type
- Thesis
- Table Of Contents
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Chapter 1: Introduction 1
1.1 The global energy scenario and motivation for adopting green energy 1
1.1.1 Excess CO2 concentration: A harmful greenhouse gas 3
1.2 Possibility of renewable source of energy 3
1.2.1 Potential of Solar fuels: What are Solar Fuels 4
1.2.2 Natural Photosynthesis vs. Artificial Photosynthesis 4
1.3 Fundamentals of CO2 photoreduction 5
1.3.1 Challenges in CO2 photoreduction 7
1.3.2 Interaction of CO2 molecule with Semiconductor Photocatalyst Surface 10
1.3.3 Importance of isotopic studies in CO2 photoreduction 10
1.3.4 Pathways for CO2 reduction 11
1.4 Reduced titania: synthesis route, properties and interaction with reactant molecules 13
1.4.1 How are Ti3+ states generated 14
1.4.2 Properties of reduced Titania 20
1.4.3 Principles of H2O and CO2 molecule interaction with reduced titania 22
1.5 Organization of the thesis 25
1.6 References 27
Chapter 2: Characterization techniques and analytical tools 32
2.1 Characterization techniques 32
2.1.1 X-ray diffraction (XRD) 32
2.1.2 Energy dispersive X-ray spectroscopy (EDS or EDX or EDAX) 34
2.1.3 Raman analysis 36
2.1.4 Transmission electron microscopy (TEM) analysis 38
2.1.5 High resolution transmission electron microscopy (HR-TEM) analysis 40
2.1.6 Ultraviolet-Visible diffuse reflectance spectroscopy (UV-Vis DRS) 40
2.1.7 Photoluminescence (PL) spectroscopy 42
2.1.8 X-ray photoelectron spectroscopy (XPS) 43
2.1.9 Ultraviolet photoelectron spectroscopy 44
2.1.10 Electron paramagnetic resonance (EPR) spectroscopy 45
2.1.11 Transient absorption spectroscopy (TAS) analysis 48
2.2 Analytical techniques 48
2.2.1 Gas chromatography 48
2.2.2 Gas chromatography-mass spectroscopy (GC-Master) 55
2.3 CO2 photoreduction setup 60
2.4 References 62
Chapter 3: Highly Enhanced and Stable Activity of Defect Induced Titania Nanoparticles for Solar Light Driven CO2 Reduction into CH4 63
3.1 Introduction 64
3.2 Experimental 67
3.2 Results and Discussions 70
3.4 Conclusions 94
3.5 References 97
Chapter 4: High rate solar-light photoconversion of CO2 into fuel: Controllable transformation from C1 to C2 products 101
4.1 Introduction 102
4.2 Photocatalyst preparation and characterization 105
4.3 Results and discussions 107
4.4 Conclusion 126
4.5 References 128
Chapter 5: CO2, Water, and Sunlight to Hydrocarbon Fuel: A Peak Joule-to-Joule Photoconversion Efficiency of 3.3% 133
5.1 Introduction 134
5.2 Photocatalysts synthesis and characterizations 135
5.3 Results and discussions 137
5.4 Conclusions 149
References 150
Chapter 6: Conclusions and Future Perspectives 154
Appendix 1: Abstract in Korean language 157
- URI
-
http://dgist.dcollection.net/common/orgView/200000171508
http://hdl.handle.net/20.500.11750/10687
- Degree
- DOCTOR
- Department
- Energy Science&Engineering
- Publisher
- DGIST
- Related Researcher
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In, Su-Il
- Research Interests CO2 conversion to hydrocarbon fuels; Water splitting for hydrogen generation; Quantum dot devices; Dye sensitized solar cells; Environmental remediation; Synthesis of functional nanomaterials; CO2 연료전환; 수소생산을 위한 광전기화학적 물분해; 양자점 태양전지; 염료감응 태양전지; 공해물질 저감연구; 기능성 나노소재 개발
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- Appears in Collections:
- Department of Energy Science and Engineering Theses Ph.D.
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