Theoretical study on the hydrogen storage properties of (MgO)&lt;sub&gt;4&lt;/sub&gt; under external electric field

尹跃洪,; 徐红萍,

doi:10.7498/aps.68.20190544

Cited by 2 publications

(1 citation statement)

References 28 publications

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“…The electric field has been identified as one of the most important external forces for modulating the physicochemical properties of materials [7,8], controlling the structure, anisotropy, and performance of composite materials [9], preparing superconducting materials [10][11][12], exploring the magnetic and electrical properties of materials for various electronic devices [13,14], and developing new hydrogen storage materials [15] and biomedicines [16,17]. It has therefore attracted the interest of scientists in studying the changes in nanostructure and atomic dynamics under a high-voltage electric field by in situ using neutron scattering techniques.…”

Section: Introductionmentioning

confidence: 99%

Development of High-Voltage Electrodes for Neutron Scattering Sample Environment Devices

Sun,

Guo,

Yuan

et al. 2024

Instruments

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The sample environment is essential to neutron scattering experiments as it induces the sample under study into a phase or state of particular interest. Various sample environments have been developed, yet the high-voltage electric field has rarely been documented. In this study, Bruce electrodes with various sectional geometries and chamber sizes were examined by using simulation modeling based on ANSYS Maxwell. A large uniform field region where samples would sit could be achieved in the planar region for all specifications, but the size of the region and the field strength varied with the gap distance between electrodes. The edging effect was inherently observed even for bare electrodes, about 1.7% higher in the sinusoidal region than the planar region, and was significantly deteriorated when a chamber was applied. This effect, however, presented an exponential decrease as the minimum distance between the electrode edge and the chamber shell increased. A compromise between the spatial confinement and the achievable field (strength and uniform region) could be reached according to the unique applicability of neutron instruments. This research provides a theoretical basis for the subsequent design and manufacturing of high-voltage sample environment devices.

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Section: Introductionmentioning

confidence: 99%

Development of High-Voltage Electrodes for Neutron Scattering Sample Environment Devices

Sun,

Guo,

Yuan

et al. 2024

Instruments

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Effect of External Electric Field on Nitrogen Activation on a Trimetal Cluster

Zhang,

Ding,

2024

ChemPhysChem

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Efficient nitrogen (N2) fixation and activation under mild conditions are crucial for modern society. External electric fields (Felectric) can significantly affect N2 activation. In this work, the effect of Felectric on N2 activation by Nb3 clusters supported in a sumanene bowl was studied by density functional theory calculations. Four typical systems at different stages of N‐N activation were studied, including two intermediates and two transition states. The impact of Felectric on various properties related to N2 activation was investigated, including the N‐N bond length, overlap population density of states (OPDOS), total energy of the system, adsorption energy of N2, decomposition of energy changes, and electron transfer. The sumanene not only functions as a support and protective substrate, but also serves as a donor or acceptor under different Felectric conditions. Negative Felectric is beneficial to N‐N bond activation because it promotes electron transfer to the N‐N region and improves the d‐π* orbital hybridization between metals and N2 in the activation process. Positive Felectric improves d‐π* orbital hybridization only when the N‐N is nearly dissociated. The microscopic mechanism of Felectric's effects provides insight into N2 activation and theoretical guidance for the design of catalytic reaction conditions for nitrogen reduction reactions (NRR).

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Theoretical study on the hydrogen storage properties of (MgO)<sub>4</sub> under external electric field

Cited by 2 publications

References 28 publications

Development of High-Voltage Electrodes for Neutron Scattering Sample Environment Devices

Development of High-Voltage Electrodes for Neutron Scattering Sample Environment Devices

Effect of External Electric Field on Nitrogen Activation on a Trimetal Cluster

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