Author
Ping Ju Tsai
Bio: Ping Ju Tsai is an academic researcher from University of New South Wales. The author has contributed to research in topics: Buckypaper & Stand-alone power system. The author has an hindex of 3, co-authored 4 publications receiving 149 citations.
Papers
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TL;DR: In this paper, the authors explored the technical issues surrounding the use of hydrogen storage, in conjunction with a PEM electrolyser and PEM fuel cell, to guarantee electricity supply when the energy source is intermittent, most typically solar photovoltaic.
131 citations
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TL;DR: In this paper, a series of experiments have been performed to investigate the effects of electrolyte composition and temperature on the high-rate discharge behaviors of MmNi5-based AB5 hydrogen storage alloy electrodes.
25 citations
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TL;DR: An efficient and cost-effective method has been developed to produce high quality buckypapers from multi-walled carbon nanotubes, which were used as a substrate for AB5 hydrogen storage alloy electrodes, and electrochemical performances of these composite films in Ni/MH batteries have been investigated as mentioned in this paper.
10 citations
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TL;DR: In this article, a novel bionanosensor with multi-walled carbon nanotubes for the precise detection of DNA-hybridization was developed using intermediate frequency electrical measurements.
Abstract: A novel bionanosensor (BNS) with multi-walled carbon nanotubes for the precise detection of DNA-hybridization was developed earlier using intermediate frequency electrical measurements. In the earlier project also a modeling technique for detailed understanding of the DNA-hybridization taking place on the surface of a sensor was also developed. In the current project, the authors have advanced the BNS fabrication using buckypaper for highly efficient detection of DNA-hybridization with controlled device resistance. Buckypaper is a thin sheet of an aggregate of carbon nanotubes (CNTs). Furthermore, the modeling of these sensors using pole-zero plots in the z-plane suggests the orientation of CNTs within the buckypaper in the presence of hybridized-DNA in the high frequency range (12–16 MHz). This modeling technique is not limited only to the BNS under study but significantly increases our knowledge on CNT–DNA interaction. Thus, this research yields successful application of buckypaper as a BNSs and strongly suggests the possible orientation of CNTs within buckypaper using hybridized-DNA at a high frequency range.
3 citations
Cited by
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TL;DR: A comprehensive review of fuel cell science and engineering with a focus on hydrogen fuel cells is provided in this article, where the most current data from industry and academia have been used with the relation between fuel cell fundamentals and applications highlighted throughout the manuscript.
Abstract: This paper provides a comprehensive review of fuel cell science and engineering with a focus on hydrogen fuel cells. The paper provides a concise, up-to-date review of fuel cell fundamentals; history; competing technologies; types; advantages and challenges; portable, stationary, and transportation applications and markets; current status of research-and-development; future targets; design levels; thermodynamic and electrochemical principles; system evaluation factors; and prospects and outlook. The most current data from industry and academia have been used with the relation between fuel cell fundamentals and applications highlighted throughout the manuscript.
1,238 citations
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906 citations
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Max Planck Society1, University of Turin2, Technical University of Denmark3, Curtin University4, Utrecht University5, Dalian Institute of Chemical Physics6, Korea Institute of Science and Technology7, University of Paris8, Rutherford Appleton Laboratory9, University of Oxford10, Université catholique de Louvain11, University of Crete12, University of Nottingham13, Griffith University14, Aarhus University15, Tohoku University16, Hiroshima University17, Kyushu University18, University of the Western Cape19, Stockholm University20, University of Bologna21, University of Southern Denmark22, National Institute of Standards and Technology23
TL;DR: In this article, the authors present a review of the development of hydrogen storage materials, methods and techniques, including electrochemical and thermal storage systems, and an outlook for future prospects and research on hydrogen-based energy storage.
439 citations
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Max Planck Society1, Autonomous University of Madrid2, University of Turin3, Curtin University4, University of Nottingham5, University of Oslo6, Ben-Gurion University of the Negev7, Aarhus University8, University of the Western Cape9, ENEA10, National Scientific and Technical Research Council11, Griffith University12, Swiss Federal Laboratories for Materials Science and Technology13, École Polytechnique Fédérale de Lausanne14
TL;DR: In this article, the present status and the future perspectives of the use of metal hydrides for hydrogen storage are discussed, as well as a new hydrogen compression technology is proposed.
415 citations
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TL;DR: In this article, the authors present a critical review of the current state of the arts of hydrogen supply chain as a forwarding energy vector, comprising its resources, generation and storage technologies, demand market, and economics.
Abstract: Hydrogen is known as a technically viable and benign energy vector for applications ranging from the small-scale power supply in off-grid modes to large-scale chemical energy exports. However, with hydrogen being naturally unavailable in its pure form, traditionally reliant industries such as oil refining and fertilisers have sourced it through emission-intensive gasification and reforming of fossil fuels. Although the deployment of hydrogen as an alternative energy vector has long been discussed, it has not been realised because of the lack of low-cost hydrogen generation and conversion technologies. The recent tipping point in the cost of some renewable energy technologies such as wind and photovoltaics (PV) has mobilised continuing sustained interest in renewable hydrogen through water splitting. This paper presents a critical review of the current state of the arts of hydrogen supply chain as a forwarding energy vector, comprising its resources, generation and storage technologies, demand market, and economics.
410 citations