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Main Authors: Liu, Zhen, Raciopp, Stefano, Hilleke, Katerina P., Pandit, Abhiyan, Ma, Shuran, Hermann, Andreas, Yan, Dadong, Zurek, Eva, Miao, Mao-sheng
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2511.23400
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author Liu, Zhen
Raciopp, Stefano
Hilleke, Katerina P.
Pandit, Abhiyan
Ma, Shuran
Hermann, Andreas
Yan, Dadong
Zurek, Eva
Miao, Mao-sheng
author_facet Liu, Zhen
Raciopp, Stefano
Hilleke, Katerina P.
Pandit, Abhiyan
Ma, Shuran
Hermann, Andreas
Yan, Dadong
Zurek, Eva
Miao, Mao-sheng
contents Opposing the theory that Helium (He) cannot be inserted into AB-type ionic compounds due to the Madelung energy increase, our crystal structure search and first-principles calculations found that He can form stable compounds with sodium halides (NaX, X=Cl, Br, I) under high-pressure. These reactions are driven by the non-local chemistry arising from the cation-anion size disparity, distinctly different from the He insertion reaction with A2B-type compounds. The large size differences between Na+ and X- enable structures that can effectively host He insertions through volume and inter-atomic distance disproportionation. Furthermore, the insertion of He atoms can significantly relieve the elevated Madelung energy that builds up in NaX under high pressure. This energy increase arises from structural transitions driven by cation-anion size disparity, which are necessary for reducing volume under pressure. The insertion of He allows the reduction of the total volume under high pressure without increasing the Madelung energy. Our predicted compounds and stability analysis reveal a new example of He reactivity governed not by local chemical bond formation, but by long-range electrostatic interactions.
format Preprint
id arxiv_https___arxiv_org_abs_2511_23400
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Non-local Chemistry Driven by Cation-Anion Size Disparity in Helium Inserted Compounds under High Pressure
Liu, Zhen
Raciopp, Stefano
Hilleke, Katerina P.
Pandit, Abhiyan
Ma, Shuran
Hermann, Andreas
Yan, Dadong
Zurek, Eva
Miao, Mao-sheng
Materials Science
Opposing the theory that Helium (He) cannot be inserted into AB-type ionic compounds due to the Madelung energy increase, our crystal structure search and first-principles calculations found that He can form stable compounds with sodium halides (NaX, X=Cl, Br, I) under high-pressure. These reactions are driven by the non-local chemistry arising from the cation-anion size disparity, distinctly different from the He insertion reaction with A2B-type compounds. The large size differences between Na+ and X- enable structures that can effectively host He insertions through volume and inter-atomic distance disproportionation. Furthermore, the insertion of He atoms can significantly relieve the elevated Madelung energy that builds up in NaX under high pressure. This energy increase arises from structural transitions driven by cation-anion size disparity, which are necessary for reducing volume under pressure. The insertion of He allows the reduction of the total volume under high pressure without increasing the Madelung energy. Our predicted compounds and stability analysis reveal a new example of He reactivity governed not by local chemical bond formation, but by long-range electrostatic interactions.
title Non-local Chemistry Driven by Cation-Anion Size Disparity in Helium Inserted Compounds under High Pressure
topic Materials Science
url https://arxiv.org/abs/2511.23400