TY - BOOK AU - Leung,Dennis Y.C. AU - Xuan,Jin TI - Micro & nano-engineering of fuel cells T2 - Sustainable energy developments, SN - 9780415644396 (hardback) U1 - 621.312429 22 PY - 2015/// CY - London, New York PB - CRC Press, Taylor & Francis Group KW - Fuel cells KW - SCIENCE / Chemistry / Industrial & Technical KW - TECHNOLOGY & ENGINEERING / Chemical & Biochemical / Nanotechnology and MEMS N1 - Contents 1 : Pore-scale water transport investigation for polymer electrolyte membrane (PEM) fuel cells 1.1 Introduction 1.2 Basics of cell performance and water management 1.3 Water transport in the cell channels 1.4 Water transport in gas diffusion layers 1.5 Water transport through micro-porous layers (MPL) Etc. 2 : Reconstruction of PEM fuel cell electrodes with micro- and nano-structures 2.1 Introduction 2.2 Catalyst layers’ structure: a reason to reconstruct 2.3 New material support and new catalyst approaches 2.4 Concluding remarks 3 : Multi-scale model techniques for PEMFC catalyst layers 3.1 Introduction 3.2 Models and simulation methods at different scales 3.3 Multi-scale model integration technique 3.4 Challenges in multi-scale modeling for PEMFC CLs 3.5 Conclusions 4 : Fabrication of electro-catalytic nano-particles and applications to proton exchange membrane fuel cells 4.1 Introduction 4.2 Overview of the electro-catalytic reactions 4.3 Novel nano-structures of platinum 4.4 Binary and ternary platinum-based catalysts 4.5 New electro-catalyst supports 4.6 Conclusions 5 : Ordered mesoporous carbon-supported nano-platinum catalysts: application in direct methanol fuel cells 5.1 Introduction 5.2 Ordered mesoporous silicas 5.3 Ordered mesoporous carbons 5.4 Direct methanol fuel cell 5.5 Electrocatalysts for DMFC Etc. 6 : Modeling the coupled transport and reaction processes in a micro-solid-oxide fuel cell 6.1 Introduction 6.2 Model development 6.3 Numerical methodologies 6.4 Results and discussion 6.5 Conclusions 7 : Nano-structural effect on SOFC durability 7.1 Introduction 7.2 Aging mechanism of SOFC electrodes 7.3 Stability of nano-structured electrodes 7.4 Long-term performance of nano-structured electrodes 7.5 Summary 8 : Micro- and nano-technologies for microbial fuel cells 8.1 Introduction 8.2 Electricity generation fundamental 8.3 Prior art of miniaturized MFCs 8.4 Promises and future work of miniaturized MFCs 8.5 Conclusion 9 : Microbial fuel cells: the microbes and materials 9.1 Introduction 9.2 How microbial fuel cells work 9.3 Understanding exoelectrogens 9.4 Anode materials and modifications 9.5 Cathode materials and catalysts Etc. 10 : Modeling and analysis of miniaturized packed-bed reactors for mobile devices powered by fuel cells 10.1 Introduction 10.2 Reactor and fuel cell modeling 10.3 Applications 10.4 Conclusions 11 : Photocatalytic fuel cells 11.1 Introduction 11.2 PFC concept 11.3 PFC architecture and mechanisms 11.4 Electrochemical kinetics 11.5 PFC applications 11.6 Conclusion 12. Transport phenomena and reactions in micro-fluidic aluminum-air fuel cells 12.1 Introduction 12.2 Mathematical model 12.3 Numerical procedures 12.4 Results and discussion 12.5 Conclusions ; Includes bibliographical references and index p. 299-301 ER -