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Metals as Clean Fuels

Detsi, Eric DeHosson, Jeff Th. M.
Heftet / 2025 / Engelsk

Produktdetaljer

ISBN
9780443135378
Publisert
2025-06-25
Utgiver
Elsevier - Health Sciences Division; Elsevier - Health Sciences Division
Vekt
450 gr
Høyde
229 mm
Bredde
152 mm
Aldersnivå
P, 06
Språk
Product language
Engelsk
Format
Product format
Heftet
Antall sider
260

Forfatter
Detsi, Eric
DeHosson, Jeff Th. M.

Om bidragsyterne

Eric Detsi is currently an Associate Professor in Materials Science and Engineering at the University of Pennsylvania. He received his BSc (2006), MSc (2008), and PhD (with honors and highest distinction, 2012) degrees in Applied Physics at the University of Groningen in the Netherlands; afterward, he carried out his postdoctoral research in the Department of Chemistry at the University of California in Los Angeles (2013–2016) as a Netherlands Science Foundation Rubicon Fellow. He joined the University of Pennsylvania in 2016 as an Assistant Professor in Materials Science and Engineering. His current research involves electrochemical energy conversion and storage using nonconventional materials, such as liquid metals, nonprecious nanoporous metals, and disordered three-dimensional metal scaffolds. For details, see: https://directory.seas.upenn.edu/eric-detsi/. Jeff Th. M. DeHosson received a PhD in Physics from the University of Groningen, the Netherlands (with honors and highest distinction), and after his postdoctoral years in the USA (Northwestern University and UC Berkeley), he was appointed Professor in 1977 by the Crown (H.M. Queen Juliana). His passion is to carry out innovative and (pre-)competitive research in the field of materials sciences, with a particular emphasis on advances in (in situ) electron microscopy, lasers, and nanostructured materials, e.g., highly nanoporous materials, as started with Eric Detsi in 2008. He is the Elected Member of the Royal Netherlands Academy of Sciences (division physics), the Royal Holland Society for Sciences and Humanities, and Academia Europaea; the Editor of Acta Materialia journals; and a Fellow of various scientific societies, including TMS—USA—and FASM—USA. He acts as the Honorary Professor of Tsinghua University, Beijing; UST, Beijing; and the University of Port Elizabeth, SA. For his scientific research, he was honored with several international awards, including the European Materials Gold Medal, and he became Knighted by the Crown in 2019 (Knighthood, Netherlands Lion). For details, see https://www.rug.nl/staff/j.t.m.de.hosson/cv.

Metals as Clean Fuels

Detsi, Eric DeHosson, Jeff Th. M.
Heftet / 2025 / Engelsk
Detsi, Eric DeHosson, Jeff Th. M.
Heftet / 2025 / Engelsk
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Metals as Clean Fuels explores the innovative use of metals as a sustainable energy source. It presents a scalable selective leaching method to activate metal fuels by increasing their surface-to-volume ratio, significantly enhancing their reactivity with water for hydrogen and heat generation. This approach positions metal fuels as a superior alternative to fossil fuels, offering higher energy density and the crucial benefit of generating energy without CO2 emissions. Additionally, the book addresses key questions and working principles in its initial chapters before delving into the energy densities of various metals, from zinc to aluminum. Chapters 8 and 9 focus on novel sustainable fabrication methods for metal/metal nanocomposites, while Chapter 10 introduces an advanced methodology for analyzing porous material systems. This monograph is a pioneering work in discussing nanostructured metals as clean fuels, with the potential to drive significant advancements in energy applications and material science research.
Les mer
1. How Metal Fuels Work 2. Activation of Metal Fuels 3. Fundamentals of Dealloying 4. Monolithic Bulk Nanoporous Zinc by Free Corrosion Dealloying 5. Rapid Synthesis of Nanoporous Zinc in Powder Form by Free Corrosion Dealloying 6. Monolithic Bulk Nanoporous Aluminum by Air-Free Electrolytic Dealloying with Recovery of Sacrificial Materials 7. Rapid Synthesis of Nanoporous Aluminum Powder by Air-Free Electrolytic Dealloying with Recovery of Sacrificial Materials 8. Nanoporous tri-layer of similar elements by etching without sacrificing materials through the Kirkendall effect 9. Nanoporous tri-layer of dissimilar elements by etching without sacrificing materials through the Kirkendall effect 10. Porous structures and their geometric and topological characteristics
Les mer
Explores the innovative use of metals as sustainable, clean energy sources
Examines various methods of metal fuel activation through nanostructuring, i.e., creating nanoporous metal fuels through selective chemical and electrolytic dealloying Discusses a novel, versatile electrolytic method for making nanoporous metals that nearly eliminates the loss of sacrificial materials Includes the characterization of the fascinating intertwining of two different items in porous structures, i.e., geometry and topology
Les mer

Relaterte produkter

Metals as Clean Fuels explores the innovative use of metals as a sustainable energy source. It presents a scalable selective leaching method to activate metal fuels by increasing their surface-to-volume ratio, significantly enhancing their reactivity with water for hydrogen and heat generation. This approach positions metal fuels as a superior alternative to fossil fuels, offering higher energy density and the crucial benefit of generating energy without CO2 emissions. Additionally, the book addresses key questions and working principles in its initial chapters before delving into the energy densities of various metals, from zinc to aluminum. Chapters 8 and 9 focus on novel sustainable fabrication methods for metal/metal nanocomposites, while Chapter 10 introduces an advanced methodology for analyzing porous material systems. This monograph is a pioneering work in discussing nanostructured metals as clean fuels, with the potential to drive significant advancements in energy applications and material science research.
Les mer
1. How Metal Fuels Work 2. Activation of Metal Fuels 3. Fundamentals of Dealloying 4. Monolithic Bulk Nanoporous Zinc by Free Corrosion Dealloying 5. Rapid Synthesis of Nanoporous Zinc in Powder Form by Free Corrosion Dealloying 6. Monolithic Bulk Nanoporous Aluminum by Air-Free Electrolytic Dealloying with Recovery of Sacrificial Materials 7. Rapid Synthesis of Nanoporous Aluminum Powder by Air-Free Electrolytic Dealloying with Recovery of Sacrificial Materials 8. Nanoporous tri-layer of similar elements by etching without sacrificing materials through the Kirkendall effect 9. Nanoporous tri-layer of dissimilar elements by etching without sacrificing materials through the Kirkendall effect 10. Porous structures and their geometric and topological characteristics
Les mer
Explores the innovative use of metals as sustainable, clean energy sources
Examines various methods of metal fuel activation through nanostructuring, i.e., creating nanoporous metal fuels through selective chemical and electrolytic dealloying Discusses a novel, versatile electrolytic method for making nanoporous metals that nearly eliminates the loss of sacrificial materials Includes the characterization of the fascinating intertwining of two different items in porous structures, i.e., geometry and topology
Les mer

Produktdetaljer

ISBN
9780443135378
Publisert
2025-06-25
Utgiver
Elsevier - Health Sciences Division; Elsevier - Health Sciences Division
Vekt
450 gr
Høyde
229 mm
Bredde
152 mm
Aldersnivå
P, 06
Språk
Product language
Engelsk
Format
Product format
Heftet
Antall sider
260

Forfatter
Detsi, Eric
DeHosson, Jeff Th. M.

Om bidragsyterne

Eric Detsi is currently an Associate Professor in Materials Science and Engineering at the University of Pennsylvania. He received his BSc (2006), MSc (2008), and PhD (with honors and highest distinction, 2012) degrees in Applied Physics at the University of Groningen in the Netherlands; afterward, he carried out his postdoctoral research in the Department of Chemistry at the University of California in Los Angeles (2013–2016) as a Netherlands Science Foundation Rubicon Fellow. He joined the University of Pennsylvania in 2016 as an Assistant Professor in Materials Science and Engineering. His current research involves electrochemical energy conversion and storage using nonconventional materials, such as liquid metals, nonprecious nanoporous metals, and disordered three-dimensional metal scaffolds. For details, see: https://directory.seas.upenn.edu/eric-detsi/. Jeff Th. M. DeHosson received a PhD in Physics from the University of Groningen, the Netherlands (with honors and highest distinction), and after his postdoctoral years in the USA (Northwestern University and UC Berkeley), he was appointed Professor in 1977 by the Crown (H.M. Queen Juliana). His passion is to carry out innovative and (pre-)competitive research in the field of materials sciences, with a particular emphasis on advances in (in situ) electron microscopy, lasers, and nanostructured materials, e.g., highly nanoporous materials, as started with Eric Detsi in 2008. He is the Elected Member of the Royal Netherlands Academy of Sciences (division physics), the Royal Holland Society for Sciences and Humanities, and Academia Europaea; the Editor of Acta Materialia journals; and a Fellow of various scientific societies, including TMS—USA—and FASM—USA. He acts as the Honorary Professor of Tsinghua University, Beijing; UST, Beijing; and the University of Port Elizabeth, SA. For his scientific research, he was honored with several international awards, including the European Materials Gold Medal, and he became Knighted by the Crown in 2019 (Knighthood, Netherlands Lion). For details, see https://www.rug.nl/staff/j.t.m.de.hosson/cv.

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