Pressure-driven electronic phase transition in the high-pressure phase of nitrogen-rich 1H-tetrazoles

Ying Liu; Huifang Du; Leiming Fang; Fei Sun; Haipeng Su; Zhongxue Ge; Wei Guo; Jinlong Zhu

doi:10.1039/d1ra00522g

Pressure-driven electronic phase transition in the high-pressure phase of nitrogen-rich 1H-tetrazoles

Ying Liu, Huifang Du, Leiming Fang, Fei Sun, Haipeng Su, Zhongxue Ge^*, Wei Guo, Jinlong Zhu

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物理学院

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5 引用（Scopus）

摘要

High-energy-density materials (HEDMs) require new design rules collected from experimental and theoretical results and a proposed mechanism. One of the targeted systems is the nitrogen-rich compounds as precursors for possible polymeric nitrogen or its counterpart in a reasonable pressure range. 1H-tetrazole (CH₂N₄) with hydrogen bonds was studied under pressure by both diffraction and spectroscopy techniques. The observed crystal structure phase transition and hydrogen bond-assisted electronic structure anomaly were confirmed by first-principles calculation. The rearrangement of the hydrogen bonds under pressure elucidates the bonding interactions of the nitrogen-rich system in local 3D chemical environments, allowing the discovery and design of a feasible materials system to make new-generation high-energy materials.

源语言	英语
页（从-至）	21507-21513
页数	7
期刊	RSC Advances
卷	11
期	35
DOI	https://doi.org/10.1039/d1ra00522g
出版状态	已出版 - 17 6月 2021

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Liu, Y., Du, H., Fang, L., Sun, F., Su, H., Ge, Z., Guo, W., & Zhu, J. (2021). Pressure-driven electronic phase transition in the high-pressure phase of nitrogen-rich 1H-tetrazoles. RSC Advances, 11(35), 21507-21513. https://doi.org/10.1039/d1ra00522g

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title = "Pressure-driven electronic phase transition in the high-pressure phase of nitrogen-rich 1H-tetrazoles",

abstract = "High-energy-density materials (HEDMs) require new design rules collected from experimental and theoretical results and a proposed mechanism. One of the targeted systems is the nitrogen-rich compounds as precursors for possible polymeric nitrogen or its counterpart in a reasonable pressure range. 1H-tetrazole (CH2N4) with hydrogen bonds was studied under pressure by both diffraction and spectroscopy techniques. The observed crystal structure phase transition and hydrogen bond-assisted electronic structure anomaly were confirmed by first-principles calculation. The rearrangement of the hydrogen bonds under pressure elucidates the bonding interactions of the nitrogen-rich system in local 3D chemical environments, allowing the discovery and design of a feasible materials system to make new-generation high-energy materials.",

author = "Ying Liu and Huifang Du and Leiming Fang and Fei Sun and Haipeng Su and Zhongxue Ge and Wei Guo and Jinlong Zhu",

note = "Publisher Copyright: {\textcopyright} The Royal Society of Chemistry 2021.",

year = "2021",

month = jun,

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doi = "10.1039/d1ra00522g",

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AU - Liu, Ying

AU - Du, Huifang

AU - Fang, Leiming

AU - Sun, Fei

AU - Su, Haipeng

AU - Ge, Zhongxue

AU - Guo, Wei

AU - Zhu, Jinlong

PY - 2021/6/17

Y1 - 2021/6/17

N2 - High-energy-density materials (HEDMs) require new design rules collected from experimental and theoretical results and a proposed mechanism. One of the targeted systems is the nitrogen-rich compounds as precursors for possible polymeric nitrogen or its counterpart in a reasonable pressure range. 1H-tetrazole (CH2N4) with hydrogen bonds was studied under pressure by both diffraction and spectroscopy techniques. The observed crystal structure phase transition and hydrogen bond-assisted electronic structure anomaly were confirmed by first-principles calculation. The rearrangement of the hydrogen bonds under pressure elucidates the bonding interactions of the nitrogen-rich system in local 3D chemical environments, allowing the discovery and design of a feasible materials system to make new-generation high-energy materials.

AB - High-energy-density materials (HEDMs) require new design rules collected from experimental and theoretical results and a proposed mechanism. One of the targeted systems is the nitrogen-rich compounds as precursors for possible polymeric nitrogen or its counterpart in a reasonable pressure range. 1H-tetrazole (CH2N4) with hydrogen bonds was studied under pressure by both diffraction and spectroscopy techniques. The observed crystal structure phase transition and hydrogen bond-assisted electronic structure anomaly were confirmed by first-principles calculation. The rearrangement of the hydrogen bonds under pressure elucidates the bonding interactions of the nitrogen-rich system in local 3D chemical environments, allowing the discovery and design of a feasible materials system to make new-generation high-energy materials.

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Pressure-driven electronic phase transition in the high-pressure phase of nitrogen-rich 1H-tetrazoles

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