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Organic-to-inorganic structural chirality transfer in a 2D hybrid perovskite and impact on Rashba-Dresselhaus spin-orbit coupling

Author

Listed:
  • Manoj K. Jana

    (Duke University)

  • Ruyi Song

    (Duke University)

  • Haoliang Liu

    (University of Utah)

  • Dipak Raj Khanal

    (University of Utah)

  • Svenja M. Janke

    (Duke University)

  • Rundong Zhao

    (Duke University)

  • Chi Liu

    (Duke University)

  • Z. Valy Vardeny

    (University of Utah)

  • Volker Blum

    (Duke University
    Duke University)

  • David B. Mitzi

    (Duke University
    Duke University)

Abstract

Translation of chirality and asymmetry across structural motifs and length scales plays a fundamental role in nature, enabling unique functionalities in contexts ranging from biological systems to synthetic materials. Here, we introduce a structural chirality transfer across the organic–inorganic interface in two-dimensional hybrid perovskites using appropriate chiral organic cations. The preferred molecular configuration of the chiral spacer cations, R-(+)- or S-(−)-1-(1-naphthyl)ethylammonium and their asymmetric hydrogen-bonding interactions with lead bromide-based layers cause symmetry-breaking helical distortions in the inorganic layers, otherwise absent when employing a racemic mixture of organic spacers. First-principles modeling predicts a substantial bulk Rashba-Dresselhaus spin-splitting in the inorganic-derived conduction band with opposite spin textures between R- and S-hybrids due to the broken inversion symmetry and strong spin-orbit coupling. The ability to break symmetry using chirality transfer from one structural unit to another provides a synthetic design paradigm for emergent properties, including Rashba-Dresselhaus spin-polarization for hybrid perovskite spintronics and related applications.

Suggested Citation

  • Manoj K. Jana & Ruyi Song & Haoliang Liu & Dipak Raj Khanal & Svenja M. Janke & Rundong Zhao & Chi Liu & Z. Valy Vardeny & Volker Blum & David B. Mitzi, 2020. "Organic-to-inorganic structural chirality transfer in a 2D hybrid perovskite and impact on Rashba-Dresselhaus spin-orbit coupling," Nature Communications, Nature, vol. 11(1), pages 1-10, December.
    • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-18485-7
    DOI: 10.1038/s41467-020-18485-7
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    Cited by:

    1. Shunran Li & Xian Xu & Conrad A. Kocoj & Chenyu Zhou & Yanyan Li & Du Chen & Joseph A. Bennett & Sunhao Liu & Lina Quan & Suchismita Sarker & Mingzhao Liu & Diana Y. Qiu & Peijun Guo, 2024. "Large exchange-driven intrinsic circular dichroism of a chiral 2D hybrid perovskite," Nature Communications, Nature, vol. 15(1), pages 1-9, December.
    2. Haining Zheng & Arup Ghosh & M. J. Swamynadhan & Qihan Zhang & Walter P. D. Wong & Zhenyue Wu & Rongrong Zhang & Jingsheng Chen & Fanica Cimpoesu & Saurabh Ghosh & Branton J. Campbell & Kai Wang & Ale, 2024. "Chiral multiferroicity in two-dimensional hybrid organic-inorganic perovskites," Nature Communications, Nature, vol. 15(1), pages 1-10, December.
    3. Junqing Xu & Kejun Li & Uyen N. Huynh & Mayada Fadel & Jinsong Huang & Ravishankar Sundararaman & Valy Vardeny & Yuan Ping, 2024. "How spin relaxes and dephases in bulk halide perovskites," Nature Communications, Nature, vol. 15(1), pages 1-13, December.
    4. Shreetu Shrestha & Mingxing Li & Suji Park & Xiao Tong & Donald DiMarzio & Mircea Cotlet, 2023. "Room temperature valley polarization via spin selective charge transfer," Nature Communications, Nature, vol. 14(1), pages 1-9, December.
    5. Sunihl Ma & Young-Kwang Jung & Jihoon Ahn & Jihoon Kyhm & Jeiwan Tan & Hyungsoo Lee & Gyumin Jang & Chan Uk Lee & Aron Walsh & Jooho Moon, 2022. "Elucidating the origin of chiroptical activity in chiral 2D perovskites through nano-confined growth," Nature Communications, Nature, vol. 13(1), pages 1-10, December.
    6. Jaehyun Son & Sunihl Ma & Young-Kwang Jung & Jeiwan Tan & Gyumin Jang & Hyungsoo Lee & Chan Uk Lee & Junwoo Lee & Subin Moon & Wooyong Jeong & Aron Walsh & Jooho Moon, 2023. "Unraveling chirality transfer mechanism by structural isomer-derived hydrogen bonding interaction in 2D chiral perovskite," Nature Communications, Nature, vol. 14(1), pages 1-12, December.

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