Books: 'Potential of hydrogen'

1

Demirci, Umit B., and Philippe Miele. Boron hydrides, high potential hydrogen storage materials. Hauppauge, N.Y: Nova Science Publishers, 2009.

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2

Manwaring, Carmelle Anne Fleur. Hydrogen in rare earth transition metal intermetallics: Potential hydrogen storage systems and the useof hydrogen in processing. Birmingham: University of Birmingham, 1994.

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3

Peterson, Max R. Laboratory method to estimate hydrogen chloride emission potential before incineration of a waste. Research Triangle Park, NC: U.S. Environmental Protection Agency, Atmospheric Research and Exposure Assessment Laboratory, 1990.

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4

Thompson, D. A. ITER Task T26/28 (1995): Solubility, diffusion and desorption of hydrogen isotopes in potential fusion reactor ceramics. Mississauga, Ont: Canadian Fusion Fuels Technology Project, 1996.

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5

Stallcop, James R. Ab initio potential-energy surfaces and electron-spin-exchange cross sections for H-O₂ interactions. [Washington, DC: National Aeronautics and Space Administration, 1996.

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6

Stallcop, James R. Ab initio potential-energy surfaces and electron-spin-exchange cross sections for H-O₂ interactions. [Washington, DC: National Aeronautics and Space Administration, 1996.

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7

Riebau, Allen R. Regional risk identification analysis applicable to resource development of H₂S-contaminated natural gas fields in southwest Wyoming. Springfield, VA: Denver, CO], 1988.

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8

Thompson, D. A. ITER task T26/28 (1994): Preliminary results on the solubility, diffusion and permeability of hydrogen isotopes in potentional fusion reactor ceramics. Mississauga, Ont: CFFTP, 1995.

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9

Office, Minnesota State Energy, and Minnesota. Dept. of Commerce., eds. The hydrogen potential: Hydrogen technology and Minnesota opportunities. St. Paul, MN: Minnesota Dept. of Commerce, 2008.

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10

Nuttall, William J., and Adetokunboh T. Bakenne. Fossil Fuel Hydrogen: Technical, Economic and Environmental Potential. Springer, 2019.

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11

Schimmel, H. G. Towards a Hydrogen-Driven Society? Calculations and Neutron Scattering on Potential Hydrogen Storage Materials. IOS Press/Delft University Press, 2005.

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12

Henriksen, Niels Engholm, and Flemming Yssing Hansen. Potential Energy Surfaces. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198805014.003.0003.

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This chapter discusses potential energy surfaces, that is, the electronic energy as a function of the internuclear coordinates as obtained from the electronic Schrödinger equation. It focuses on the general topology of such energy surfaces for unimolecular and bimolecular reactions. To that end, concepts like saddle point, barrier height, minimum-energy path, and early and late barriers are discussed. It concludes with a discussion of approximate analytical solutions to the electronic Schrödinger equation, in particular, the interaction of three hydrogen atoms expressed in terms of Coulomb and exchange integrals, as described by the so-called London equation. From this equation it is concluded that the total electronic energy is not equal to the sum of H–H pair energies. Finally, a semi-empirical extension of the London equation—the LEPS method—allows for a simple but somewhat crude construction of potential energy surfaces.

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13

J, Stochl Robert, Sanabria Rafael, and United States. National Aeronautics and Space Administration., eds. A review of candidate multilayer insulation systems for potential use on wet-launched LH □tankage for the Space Exploration Initiative lunar missions. [Washington, DC]: National Aeronautics and Space Administration, 1991.

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14

Gray, Jennifer Roseanna Maria. Hydrogen isotopic fractionation: Potential as an indicator of methl tert-butyl ether biodegradation at contaminated field sites. 2002, 2002.

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15

Harry, Partridge, Levin Eugene, and United States. National Aeronautics and Space Administration., eds. Ab initio potential-energy surfaces and electron-spin-exchange cross sections for H-O₂ interactions. [Washington, DC: National Aeronautics and Space Administration, 1996.

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16

Computed potential energy surfaces for chemical reactions. Sunnyvale, CA: Floret Institute, 1991.

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17

United States. National Aeronautics and Space Administration., ed. Theoretical studies of interstellar processes: Final report, December 1, 1991-February 28, 1995. Lexington, MA: Institute for Scientific Research, 1995.

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18

Maxey. Determination of the Most Negative Potential Prior to the Onset of Significant Hydrogen Evolution in a Crevice (Task 2 to Corrosion Supervisory Comm). Amer Gas Assn, 1985.

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19

Vigdor, Steven E. Water, Water, Here and There. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198814825.003.0004.

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Chapter 4 deals with the stability of the proton, hence of hydrogen, and how to reconcile that stability with the baryon number nonconservation (or baryon conservation) needed to establish a matter–antimatter imbalance in the infant universe. Sakharov’s three conditions for establishing a matter–antimatter imbalance are presented. Grand unified theories and experimental searches for proton decay are described. The concept of spontaneous symmetry breaking is introduced in describing the electroweak phase transition in the infant universe. That transition is treated as the potential site for introducing the imbalance between quarks and antiquarks, via either baryogenesis or leptogenesis models. The up–down quark mass difference is presented as essential for providing the stability of hydrogen and of the deuteron, which serves as a crucial stepping stone in stellar hydrogen-burning reactions that generate the energy and elements needed for life. Constraints on quark masses from lattice QCD calculations and violations of chiral symmetry are discussed.

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20

Computed potential energy surfaces for chemical reactions: Semi-annual report for the period Jaunary 1, 1992 - June 30, 1992 ... Sunnyvale, CA: Eloret Institute, 1992.

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21

United States. National Aeronautics and Space Administration., ed. Computed potential energy surfaces for chemical reactions: Semi-annual report for the period Jaunary 1, 1992 - June 30, 1992 ... Sunnyvale, CA: Eloret Institute, 1992.

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22

United States. National Aeronautics and Space Administration, ed. Computed potential energy surfaces for chemical reactions: Semi-annual report for cooperative agreement NCC2-478 for the period January 1, 1988-June 30, 1988. Sunnyvale, CA: The Institute, 1988.

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23

Computed potential energy surfaces for chemical reactions: Semi-annual report for cooperative agreement NCC2-478 for the period January 1, 1988-June 30, 1988. Sunnyvale, CA: The Institute, 1988.

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24

Eugene, Levin, and United States. National Aeronautics and Space Administration., eds. Computed potential energy surfaces for chemical reactions: Periodic research report for the period, January 1, 1993 - August 31, 1993 for cooperative agreement NCC2-478. [Washington, D.C: National Aeronautics and Space Administration, 1993.

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25

Eugene, Levin, and United States. National Aeronautics and Space Administration., eds. Computed potential energy surfaces for chemical reactions: Periodic research report for the period, January 1, 1993 - August 31, 1993 for cooperative agreement NCC2-478. [Washington, D.C: National Aeronautics and Space Administration, 1993.

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26

Center, Ames Research, and Eloret Institute, eds. Computed potential energy surfaces for chemical reactions: Final technical report for cooperative agreement NCC2-478 for the funding period July 1, 1987 - January 31, 1994. Moffett Field, Calif: The Center, 1994.

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27

Center, Ames Research, and Eloret Institute, eds. Computed potential energy surfaces for chemical reactions: Final technical report for cooperative agreement NCC2-478 for the funding period July 1, 1987 - January 31, 1994. Moffett Field, Calif: The Center, 1994.

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28

Siracusa, Joseph M. Nuclear Weapons: A Very Short Introduction. Oxford University Press, 2020. http://dx.doi.org/10.1093/actrade/9780198860532.001.0001.

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Nuclear Weapons: A Very Short Introduction covers the scientific, historical, and political development of nuclear weapons, and how they transformed the very nature of war and peace. Nuclear weapons have not been used in anger since Hiroshima and Nagasaki, seventy-five years ago. However, nuclear threats remain fundamental to relations between many states, complicating issues of global security. Their potential use by terrorists is an increasing concern. This book looks at the race to acquire the hydrogen bomb; Ronald Reagan’s Strategic Defence Initiative (‘Star Wars’); contemporary defences against possible ballistic missile launches; and the policies nuclear weapons have generated since the end of the Cold War.

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29

Wolf, E. L. Atoms, Molecules, Crystals and Semiconductor Devices. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198769804.003.0005.

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Properties of matter and of electronic devices are described, starting with Bohr’s model of the hydrogen atom. Motion of electrons in a periodic potential is shown to allow energy ranges with free motion separated by energy ranges where no propagating states are possible. Metals and semiconductors are described via Schrodinger’s equation in terms of their structure and their electrical properties. Energy gaps and effective masses are described. The semiconductor pn junction is described as a circuit element and as a photovoltaic device. We now extend Schrodinger’s method to more familiar matter, in the form of atoms, molecules and semiconductors. The solar cell, that produces electrical energy from Sunlight, in fact requires a sophisticated understanding of the semiconductor PN junction.

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30

Wolf, E. L. Fusion Energy Technology on Earth. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198769804.003.0006.

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Deuterium fusion in a small field-ionization device is described. The small rate of deuterium fusion observed in the deuterium-muon version of the hydrogen molecule-ion is discussed. A simplified description is offered of the tokamak reactor filled with deuterium or deuterium-tritium molecular gases. The potential power output of such devices, neglecting any role of plasma instabilities, is estimated roughly by scaling in temperature and density the formula for fusion in the Sun’s core provided in Chapter 4. If it can be achieved, deuteron fusion would qualify as a renewable energy process given the large supply of deuterons in the sea. In this Chapter we build upon what we learned about fusion in the Sun with the hope of applying the same process on Earth.

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31

Wu, Hongbo Bonnie. The effect on the catalytic activity of Carboxypeptidase A (CPA) by substitution at an amido group on N-benzoylglycyl-L-phenylalanice (BGP) and studies of the potential intramolecular amide-amide hydrogen bond of BGP methyl ester. 1993.

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32

Armstrong, Fraser, and Katherine Blundell, eds. Energy... beyond oil. Oxford University Press, 2007. http://dx.doi.org/10.1093/oso/9780199209965.001.0001.

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As the Earth's oil supply runs out, and the effects of climate change threaten nations and their populations, the search for carbon-neutral sources of energy becomes more important and increasingly urgent. This book focuses on solutions to the energy problem, and not just the problem itself. It describes the major energy-generation technologies currently under development, and provides an authoritative summary of the current status of each one. It stresses the need for a balanced portfolio of alternative energy technologies. Certain solutions will be more appropriate than others in particular locations, due to the differences in availability of natural resources such as solar, wind, wave, tidal and geothermal. In addition, nuclear options (both fission and fusion), as well as technologies such as fuel cells, photovoltaics, artificial photosynthesis and hydrogen (as an energy carrier), all have a potential role to play. A state-of-the-art critique of energy efficiency in building design is also included. Each chapter is written by an acknowledged international expert and provides a non-technical overview of the competing and complementary approaches to energy generation. Broad in scope and comprehensive in treatment, Energy..beyond Oil provides an authoritative synthesis of the scientific and technological issues which are essential to the survival of the human race in the near future. The book will be of interest and use to graduate students and researchers in all areas of energy studies, and will also be highly useful for policy-makers and professionals in the environmental sector as well as a more general readership who wish to learn more about this extremely topical subject.

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33

Douglas, Kenneth. Bioprinting. Oxford University Press, 2021. http://dx.doi.org/10.1093/oso/9780190943547.001.0001.

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Abstract: This book describes how bioprinting emerged from 3D printing and details the accomplishments and challenges in bioprinting tissues of cartilage, skin, bone, muscle, neuromuscular junctions, liver, heart, lung, and kidney. It explains how scientists are attempting to provide these bioprinted tissues with a blood supply and the ability to carry nerve signals so that the tissues might be used for transplantation into persons with diseased or damaged organs. The book presents all the common terms in the bioprinting field and clarifies their meaning using plain language. Readers will learn about bioink—a bioprinting material containing living cells and supportive biomaterials. In addition, readers will become at ease with concepts such as fugitive inks (sacrificial inks used to make channels for blood flow), extracellular matrices (the biological environment surrounding cells), decellularization (the process of isolating cells from their native environment), hydrogels (water-based substances that can substitute for the extracellular matrix), rheology (the flow properties of a bioink), and bioreactors (containers to provide the environment cells need to thrive and multiply). Further vocabulary that will become familiar includes diffusion (passive movement of oxygen and nutrients from regions of high concentration to regions of low concentration), stem cells (cells with the potential to develop into different bodily cell types), progenitor cells (early descendants of stem cells), gene expression (the process by which proteins develop from instructions in our DNA), and growth factors (substances—often proteins—that stimulate cell growth, proliferation, and differentiation). The book contains an extensive glossary for quick reference.

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34

Verschuur, Gerrit L. Impact! Oxford University Press, 1996. http://dx.doi.org/10.1093/oso/9780195101058.001.0001.

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Most scientists now agree that some sixty-five million years ago, an immense comet slammed into the Yucatan, detonating a blast twenty million times more powerful than the largest hydrogen bomb, punching a hole ten miles deep in the earth. Trillions of tons of rock were vaporized and launched into the atmosphere. For a thousand miles in all directions, vegetation burst into flames. There were tremendous blast waves, searing winds, showers of molten matter from the sky, earthquakes, and a terrible darkness that cut out sunlight for a year, enveloping the planet in freezing cold. Thousands of species of plants and animals were obliterated, including the dinosaurs, some of which may have become extinct in a matter of hours. In Impact, Gerrit L. Verschuur offers an eye-opening look at such catastrophic collisions with our planet. Perhaps more important, he paints an unsettling portrait of the possibility of new collisions with earth, exploring potential threats to our planet and describing what scientists are doing right now to prepare for this awful possibility. Every day something from space hits our planet, Verschuur reveals. In fact, about 10,000 tons of space debris fall to earth every year, mostly in meteoric form. The author recounts spectacular recent sightings, such as over Allende, Mexico, in 1969, when a fireball showered the region with four tons of fragments, and the twenty-six pound meteor that went through the trunk of a red Chevy Malibu in Peekskill, New York, in 1992 (the meteor was subsequently sold for $69,000 and the car itself fetched $10,000). But meteors are not the greatest threat to life on earth, the author points out. The major threats are asteroids and comets. The reader discovers that astronomers have located some 350 NEAs ("Near Earth Asteroids"), objects whose orbits cross the orbit of the earth, the largest of which are 1627 Ivar (6 kilometers wide) and 1580 Betula (8 kilometers). Indeed, we learn that in 1989, a bus-sized asteroid called Asclepius missed our planet by 650,000 kilometers (a mere six hours), and that in 1994 a sixty-foot object passed within 180,000 kilometers, half the distance to the moon. Comets, of course, are even more deadly. Verschuur provides a gripping description of the small comet that exploded in the atmosphere above the Tunguska River valley in Siberia, in 1908, in a blinding flash visible for several thousand miles (every tree within sixty miles of ground zero was flattened). He discusses Comet Swift-Tuttle--"the most dangerous object in the solar system"--a comet far larger than the one that killed off the dinosaurs, due to pass through earth's orbit in the year 2126. And he recounts the collision of Comet Shoemaker-Levy 9 with Jupiter in 1994, as some twenty cometary fragments struck the giant planet over the course of several days, casting titanic plumes out into space (when Fragment G hit, it outshone the planet on the infrared band, and left a dark area at the impact site larger than the Great Red Spot). In addition, the author describes the efforts of Spacewatch and other groups to locate NEAs, and evaluates the idea that comet and asteroid impacts have been an underrated factor in the evolution of life on earth. Astronomer Herbert Howe observed in 1897: "While there are not definite data to reason from, it is believed that an encounter with the nucleus of one of the largest comets is not to be desired." As Verschuur shows in Impact, we now have substantial data with which to support Howe's tongue-in-cheek remark. Whether discussing monumental tsunamis or the innumerable comets in the Solar System, this book will enthrall anyone curious about outer space, remarkable natural phenomenon, or the future of the planet earth.

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Books on the topic 'Potential of hydrogen'

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