2021
DOI: 10.1021/acsami.1c06140
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In-Plane Mechanical Properties of Two-Dimensional Hybrid Organic–Inorganic Perovskite Nanosheets: Structure–Property Relationships

Abstract: In-plane strains are commonly found in two-dimensional (2D) metal halide organic–inorganic perovskites (HOIPs). The in-plane mechanical properties of 2D HOIPs are vital for mitigating the strain-induced stability issues of 2D HOIPs, yet their structure and mechanical property relationship largely remains unknown. Here, we employed atomic force microscope indentation to systematically investigate the in-plane Young’s moduli E ∥ of 2D lead halide Ruddlesden–Popper HOIPs with a general formula of (R-NH3)2PbX4, wh… Show more

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Cited by 23 publications
(52 citation statements)
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“…Metal halide hybrid organic-inorganic perovskite (HOIPs), having the chemical formula AMX 3 , where A, M, and X are small organic cations, divalent Group 14 elements, and halogen, respectively, has been widely employed in solar cells due to its excellent defect tolerance and charge transport. [380][381][382][383][384][385][386][387][388][389][390] By reducing 3D HOIPs crystals to a single-layer thickness along the (100) direction, 2D HOIPs are structural analogs to the Ruddlesden-Popper phase with the expression A 2 A' n-1 M n X 3n+1 and exhibit greater ambient stability than their 3D counterparts while retaining excellent optoelectronic properties. [381,[391][392][393][394][395][396][397][398] Thus, 2D HOIPs can be thought of as layers of [MX 6 ] 4− octahedral material sandwiched between two layers of organic spacer cations (Figure 2h).…”
Section: D Organic-inorganic Hybrid Materialsmentioning
confidence: 99%
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“…Metal halide hybrid organic-inorganic perovskite (HOIPs), having the chemical formula AMX 3 , where A, M, and X are small organic cations, divalent Group 14 elements, and halogen, respectively, has been widely employed in solar cells due to its excellent defect tolerance and charge transport. [380][381][382][383][384][385][386][387][388][389][390] By reducing 3D HOIPs crystals to a single-layer thickness along the (100) direction, 2D HOIPs are structural analogs to the Ruddlesden-Popper phase with the expression A 2 A' n-1 M n X 3n+1 and exhibit greater ambient stability than their 3D counterparts while retaining excellent optoelectronic properties. [381,[391][392][393][394][395][396][397][398] Thus, 2D HOIPs can be thought of as layers of [MX 6 ] 4− octahedral material sandwiched between two layers of organic spacer cations (Figure 2h).…”
Section: D Organic-inorganic Hybrid Materialsmentioning
confidence: 99%
“…[380][381][382][383][384][385][386][387][388][389][390] By reducing 3D HOIPs crystals to a single-layer thickness along the (100) direction, 2D HOIPs are structural analogs to the Ruddlesden-Popper phase with the expression A 2 A' n-1 M n X 3n+1 and exhibit greater ambient stability than their 3D counterparts while retaining excellent optoelectronic properties. [381,[391][392][393][394][395][396][397][398] Thus, 2D HOIPs can be thought of as layers of [MX 6 ] 4− octahedral material sandwiched between two layers of organic spacer cations (Figure 2h). [398,399] The mechanical properties of 2D perovskite are thought to be dependent on the number of [MX 6 ] 4− octahedral layers, the length of organic spacer molecules, and the strength of the MX bond.…”
Section: D Organic-inorganic Hybrid Materialsmentioning
confidence: 99%
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