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Advanced Proton-Conducting Ceramic FCs for Power Generation from Ammonia . The project aims to design an innovative ammonia fuel cell using a new perovskite substrate decorated with metal nanoparticles, which demonstrates multi-functionalities and tackles most challenges of conventional fuel cells (FCs). The key concept of this project is the designing of the novel architected smart perovskite as both anode and electrolyte of the fuel cell by systematic modelling and experimental development. T ....Advanced Proton-Conducting Ceramic FCs for Power Generation from Ammonia . The project aims to design an innovative ammonia fuel cell using a new perovskite substrate decorated with metal nanoparticles, which demonstrates multi-functionalities and tackles most challenges of conventional fuel cells (FCs). The key concept of this project is the designing of the novel architected smart perovskite as both anode and electrolyte of the fuel cell by systematic modelling and experimental development. The versatile cell components developed in this project will improve the operational stability and efficiency of the fuel cell, thereby providing a promising pathway for ammonia fuel cells to replace hydrogen fuel cells. This study will reinforce the development of the future supply of reliable, low cost and clean energy. Read moreRead less
Hybrid Hydrocarbon-Carbon Fuel Cells for Long-Life Power Generation. This project aims to design an innovative high-energy portable power source based on a hybrid direct hydrocarbon-carbon fuel cell concept, in which the deposited carbon in the anode of a fuel cell during operation with liquid hydrocarbon fuels can be used as a fuel by subsequent operation in the direct carbon fuel cell mode. The key concept in this project is the controlled deposition and utilization of carbon over the anode of ....Hybrid Hydrocarbon-Carbon Fuel Cells for Long-Life Power Generation. This project aims to design an innovative high-energy portable power source based on a hybrid direct hydrocarbon-carbon fuel cell concept, in which the deposited carbon in the anode of a fuel cell during operation with liquid hydrocarbon fuels can be used as a fuel by subsequent operation in the direct carbon fuel cell mode. The key concept in this project is the controlled deposition and utilization of carbon over the anode of the fuel cell by systematic modelling and experimental development. A continuous power output will be realized via an intelligent cycling mode with an intermittent supply of pure liquid hydrocarbon fuels, thereby achieving an extremely high fuel utilization efficiency in a hybrid electrochemical system.Read moreRead less