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Autori principali: Li, Yang, Wu, Chengzhi, Sun, Xuelian, Ye, Liangting, Lu, Yirui, Lin, Hai-Qing, Duan, Wenhui, Huang, Bing
Natura: Preprint
Pubblicazione: 2026
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Accesso online:https://arxiv.org/abs/2601.11167
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author Li, Yang
Wu, Chengzhi
Sun, Xuelian
Ye, Liangting
Lu, Yirui
Lin, Hai-Qing
Duan, Wenhui
Huang, Bing
author_facet Li, Yang
Wu, Chengzhi
Sun, Xuelian
Ye, Liangting
Lu, Yirui
Lin, Hai-Qing
Duan, Wenhui
Huang, Bing
contents Two-dimensional Janus structures have garnered rapidly growing attention across multidisciplinary fields. However, despite extensive theoretical and experimental efforts, a principle for designing intrinsic Janus materials remains elusive. Here, we propose a first-principles alloy theory based on cluster expansion, incorporating a strong repulsive interaction of a cation-mediated anion-pair cluster and refined short-range cluster-cluster competitions, to unravel the formation mechanism of intrinsic Janus structures with a distorted 1T phase among numerous competing phases. Our theory not only explains why intrinsic Janus structures are accidentally observed in RhSeCl and BiTeI which are composed of alloyed elements from different groups, but also accurately predicts a wide range of 1T-like intrinsic Janus materials that are ready for synthesis. Intriguingly, as demonstrated in the case of RhSeCl, we reveal that intrinsic Janus materials can exhibit anomalous second-harmonic generation (SHG) with a distinct quantum geometric effect, originating from strong lattice and chemical-potential mirror asymmetry. Furthermore, a novel skin effect unexpectedly emerges in finite-thickness RhSeCl, accompanied by a hidden SHG effect within the bulk region. Our theory paves the way for the ab initio design of intrinsic Janus materials, significantly accelerating progress in Janus science.
format Preprint
id arxiv_https___arxiv_org_abs_2601_11167
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Two-dimensional Intrinsic Janus Structures: Design Principle and Anomalous Nonlinear Optics
Li, Yang
Wu, Chengzhi
Sun, Xuelian
Ye, Liangting
Lu, Yirui
Lin, Hai-Qing
Duan, Wenhui
Huang, Bing
Materials Science
Mesoscale and Nanoscale Physics
Two-dimensional Janus structures have garnered rapidly growing attention across multidisciplinary fields. However, despite extensive theoretical and experimental efforts, a principle for designing intrinsic Janus materials remains elusive. Here, we propose a first-principles alloy theory based on cluster expansion, incorporating a strong repulsive interaction of a cation-mediated anion-pair cluster and refined short-range cluster-cluster competitions, to unravel the formation mechanism of intrinsic Janus structures with a distorted 1T phase among numerous competing phases. Our theory not only explains why intrinsic Janus structures are accidentally observed in RhSeCl and BiTeI which are composed of alloyed elements from different groups, but also accurately predicts a wide range of 1T-like intrinsic Janus materials that are ready for synthesis. Intriguingly, as demonstrated in the case of RhSeCl, we reveal that intrinsic Janus materials can exhibit anomalous second-harmonic generation (SHG) with a distinct quantum geometric effect, originating from strong lattice and chemical-potential mirror asymmetry. Furthermore, a novel skin effect unexpectedly emerges in finite-thickness RhSeCl, accompanied by a hidden SHG effect within the bulk region. Our theory paves the way for the ab initio design of intrinsic Janus materials, significantly accelerating progress in Janus science.
title Two-dimensional Intrinsic Janus Structures: Design Principle and Anomalous Nonlinear Optics
topic Materials Science
Mesoscale and Nanoscale Physics
url https://arxiv.org/abs/2601.11167