Results 81 to 90 of about 30,658 (288)
Angewandte Chemie, EarlyView.This Minireview highlights recent advances in understanding the role of lattice dynamics and electron–phonon coupling in organic semiconductors. Emphasis is placed on mode‐resolved insights into dynamics‐induced electronic disorder, emerging strategies for phonon engineering, and the implications of both low‐ and high‐frequency vibrations on charge ...
Barbara M. T. C. Peluzo +4 more
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Near-Threshold and Resonance Effects in Rotationally Inelastic Scattering of D2O with Normal-H2. [PDF]
Molecules, 2022 Bergeat A +5 more
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Inelastic Scattering and Interference
Microscopy and Microanalysis, 1997 Abstract Recently it has been a matter of controversy whether inelastically scattered electrons can yield interference fringes so as to obtain holograms, and in particular whether compensation of energy loss in the object by energy gain in the source will maintain coherence [1].
openaire +2 more sources
Prospect of Cascade Catalysis in Magnesium‐Sulfur Batteries from Desolvation to Conversion Reactions
Advanced Science, EarlyView.The dissolution and conversion reactions at the cathode interface of Mg‐S batteries are systematically summarized. This review focuses on the problems and solutions of diffusion/desolvation Mg2+ migration barrier at the sulfur/electrolyte interface as well as the current development and design of S cathodes in Mg‐S batteries under catalysis ...
Qinghua Guan +7 more
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CISS Effect: A Magnetoresistance Through Inelastic Scattering. [PDF]
J Phys Chem C Nanomater Interfaces, 2021 Huisman KH, Thijssen JM.
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Delocalization in inelastic scattering
Ultramicroscopy, 1995 How delocalized is an EELS signal? For instance, how far from a silicon atom must the electron probe be before a Si edge can be detected? A crude estimate of a localization length (λθE) suggests a maximum impact parameter of 50 A for a typical plasmon loss. Yet with care, subnanometer resolution plasmon maps can be achieved.
John Silcox, David A. Muller
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Advancing Energy Materials by In Situ Atomic Scale Methods
Advanced Energy Materials, Volume 15, Issue 11, March 18, 2025.Progress in in situ atomic scale methods leads to an improved understanding of new and advanced energy materials, where a local understanding of complex, inhomogeneous systems or interfaces down to the atomic scale and quantum level is required. Topics from photovoltaics, dissipation losses, phase transitions, and chemical energy conversion are ...
Christian Jooss +21 more
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Imaging biological macromolecules in thick specimens: The role of inelastic scattering in cryoEM. [PDF]
Ultramicroscopy, 2022 Dickerson JL +4 more
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Gamma Radiation from the Inelastic Scattering of Protons by
, 1955 C. A. Barnes
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Ultra‐High‐Capacity of Earth‐Abundant Cathodes Enabled by Excess Fluoride‐Ion Insertion/Extraction
Advanced Energy Materials, EarlyView.A perovskite oxyfluoride SrFeO2Fx can accomodate excess F– beyond x = 1 in the structure with oxygen redox (O–O bond formation). The Sr‐substituted CaFeO2Fx (Ca0.8Sr0.2FeO2Fx) provides an extremely large capacity of 580 mAh g−1 (2595 mAh cm−3). This research will provide new design principles for the development of all‐solid‐state fluoride‐ion battery ...
Yanchang Wang +17 more
wiley +1 more source