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Howard E Katz. Nong Moon Hwang. Neutron Scattering - Magnetic and Quantum Phenomena. David L Price. Subsecond Annealing of Advanced Materials. Wolfgang Skorupa. X-Rays in Nanoscience. Jinghua Guo.
Atomic Layer Deposition. David Cameron. Active Plasmonics and Tuneable Plasmonic Metamaterials. Anatoly V. Annual Review of Cold Atoms and Molecules. Kirk Madison. Transport in Laser Microfabrication. Costas P. Electrochemistry for Materials Science. Walfried Plieth. Ahmed H Zewail. Physics, Chemistry and Applications of Nanostructures. V E Borisenko.
Fundamentals of Laser-Assisted Micro- and Nanotechnologies.
Vitaly I. Exotic Nuclei. Yu E Penionzhkevich.
Carbon Nanomaterials in Clean Energy Hydrogen Systems - II
Energetic Nanomaterials. Vladimir E Zarko. Dariya Savchenko. Nanotechnology in the Security Systems. Sergei Kruchinin. Luis M. Nanoparticulate Materials. Kathy Lu. Vladimir Ivanovitch Kodolov. Boris Mikhailovich Andreev. Glass Nanocomposites. Basudeb Karmakar. Zhiming M. Mechanical Properties of Nanostructured Materials.
Abdolhossein Fereidoon. Gabriele Centi. Physical Fundamentals of Nanomaterials.
- Storage of hydrogen in single-walled carbon nanotubes | Nature.
- Carbon Nanotubes for Energy Applications.
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Bangwei Zhang. Raman Spectroscopy and its Application in Nanostructures.
Shu-Lin Zhang. Fundamentals of Piezoelectric Sensorics. Atomic Layer Deposition of Nanostructured Materials. Nicola Pinna. Olena Fesenko. Alexandre S. Three-Dimensional Nanoarchitectures. Weilie Zhou. Solar Cells Based on Colloidal Nanocrystals. Holger Borchert. Ahmed Hassanein. Sergej O. The Atmosphere and Ionosphere. Anatoly Nikitin.achspecvitingbi.ml
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Introduction to Computational Mass Transfer. Xigang Yuan. Gianmario Pellegrino. Mitsuteru Inoue. Zefeng Ren. Proton Exchange Membrane Fuel Cells.
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Vladimir Bychkov. Edson Roberto Leite. Lead-Free Piezoelectrics. Shashank Priya. Novel Magnetic Nanostructures. Natalia Domracheva. Triboelectric Nanogenerators. Long Lin. Magnetic Levitation. Hyung-Suk Han. Chang Hee Nam. In present paper we report results of computer simulation of electronic structure of the molecular complexes — fullerene C. It is shown, that each donor molecules forms several types shortened van-der-Waals contacts with adjacent C. All complexes have energy spectrum typical for semiconductors. The molecular orbital spectrum indicates that molecular complexes have more fine electronic structure than the isolated fullerenes C.
Displacement and increase in number of lines in the spectrum of molecular complexes in comparison with the spectrum of individual C. New closed heteroatomic molecule C. Red molecular crystals of this substance are easy dissolved in alcohol and water, but badly in benzene and toloene. The atoms of carbon in a molecule C.
Atom of nitrogen in this molecule is found in the supercoordinated state: four bonds with atoms of carbon in pyridine net and one bond is realized with surface atoms of oxygen 3 bonds N—O—H and hydrogen 7 bonds N—H. First carbon suboxide C. This article considers possibility of creation of basically new sources of ultraviolet radiation based on field-emission under action of electrons emitted from nano-structured cathode. The new technique of synthesis of new carbon nanostructures is proposed: the oriented carbon nanotubes with graphene walls OCNTG.
To synthesize these structures the consistent covering of surface of pores of ultrafiltration inorganic membranes with monolayers of graphenes was held.
Carbon Nanomaterials in Clean Energy Hydrogen Systems | Bogdan Baranowski | Springer
These monolayers were formed during pyrolysis of the definite quantity of methane. Formation of the monolayer of graphenes was identified with the help of X-ray photoelectron spectroscopy XPS.
The depth of covering with monolayer was controlled with scanning electron microscope SEM. Investigation of adsorptivity to hydrogen of three carbon structures was held which are: nanosized pyrocarbon crystallites NPC , theirs superposition an NPC superposition is. The new effect of hydrogen variation of performance HVP was found; this effect consists in that fact that hydrogen adsorbed in OCNTG influences in transport properties of membranes decreasing their performance on liquids in 4—26 times which fact is the indirect confirmation of its high activity which rides probably on dissociative mechanism of hydrogen adsorption.
The statistical theory of ferroelastic-paraelastic phase transition has been elaborated in this paper. The equation of thermodynamic equilibrium state has been examined and the temperature of transition between phases has been estimated. The calculation of temperature dependence of hydroxyl solubility in crystal has been carried out.
The manifestation hysteresis effect has been considered.