Sub-angstrom noninvasive imaging of atomic arrangement in 2D hybrid perovskites-Reference-Cited by-同舟云学术

Sub-angstrom noninvasive imaging of atomic arrangement in 2D hybrid perovskites

Published:2022-04-29 Issue:17 Volume:8 Page:
ISSN:2375-2548
Container-title:Science Advances
language:en
Short-container-title:Sci. Adv.

Author:

Telychko Mykola¹^ORCID,Edalatmanesh Shayan²³^ORCID,Leng Kai⁴^ORCID,Abdelwahab Ibrahim¹⁵^ORCID,Guo Na⁶,Zhang Chun⁶^ORCID,Mendieta-Moreno Jesús I.²^ORCID,Nachtigall Matyas²,Li Jing⁵^ORCID,Loh Kian Ping¹^ORCID,Jelínek Pavel²³^ORCID,Lu Jiong¹⁵^ORCID

Affiliation:

1. Department of Chemistry, National University of Singapore, 3 Science Drive 3, Singapore 117543, Singapore.

2. Institute of Physics, The Czech Academy of Sciences, 162 00 Prague, Czech Republic.

3. Regional Centre of Advanced Technologies and Materials, Palacký University, 78371 Olomouc, Czech Republic.

4. Department of Applied Physics, The Hong Kong Polytechnic University, Hung Hom, Kowloon, Hong Kong, China.

5. Centre for Advanced 2D Materials (CA2DM), National University of Singapore, 6 Science Drive 2, Singapore 117546, Singapore.

6. Department of Physics, National University of Singapore, Blk S12, Science Drive 3, Singapore 117551, Singapore.

Abstract

Noninvasive imaging of the atomic arrangement in two-dimensional (2D) Ruddlesden-Popper hybrid perovskites (RPPs) is challenging because of the insulating nature and softness of the organic layers. Here, we demonstrate a sub-angstrom resolution imaging of both soft organic layers and inorganic framework in a prototypical 2D lead-halide RPP crystal via combined tip-functionalized scanning tunneling microscopy (STM) and noncontact atomic force microscopy (ncAFM) corroborated by theoretical simulations. STM measurements unveil the atomic reconstruction of the inorganic lead-halide lattice and overall twin-domain composition of the RPP crystal, while ncAFM measurements with a CO-tip enable nonperturbative visualization of the cooperative reordering of surface organic cations driven by their hydrogen bonding interactions with the inorganic lattice. Moreover, such a joint technique also allows for the atomic-scale imaging of the electrostatic potential variation across the twin-domain walls, revealing alternating quasi-1D electron and hole channels at neighboring twin boundaries, which may influence in-plane exciton transport and dissociation.

Publisher

American Association for the Advancement of Science (AAAS)

Subject

Multidisciplinary

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