These data sets are directly related (linked) to each other

Atomic structure

See all entries for this property (11 total)

Origin: experimental (T = 296.0 K)
Space group: P -1
Lattice parameters

Crystal system: triclinic

a:11.615 (±0.0004) Å
b:11.6275 (±0.0005) Å
c:17.5751 (±0.0006) Å
α:99.547 (±0.001)°
β:105.724 (±0.001)°
γ:89.977 (±0.001)°
Fixed parameters:
  • temperature = 296.0 K
K. Shibuya, M. Koshimizu, F. Nishikido, H. Saito, and S. Kishimoto, Poly[bis(phenethylammonium) [di-bromido-plumbate(II)]-di-μ-bromido]], Acta Crystallographica 65, m1323‑m1324 (2009). doi: 10.1107/S160053680903712X.
System description
Dimensionality: D
Sample type: single crystal

Starting materials: Not stated.

Product: Crystals

Description: Grown at room temperature from a solution in N,Ndimethylformamide (DMF) using nitromethane as the poor solvent.

Method: X-ray diffraction

Description: Rigaku R-AXIS RAPID diffractometer with Mo Ka radiation. Refer to the first page of the paper for details.

K. Shibuya, M. Koshimizu, F. Nishikido, H. Saito, and S. Kishimoto, Poly[bis(phenethylammonium) [di-bromido-plumbate(II)]-di-μ-bromido]], Acta Crystallographica 65, m1323‑m1324 (2009). doi: 10.1107/S160053680903712X.

Extraction method: Manual entry
Entry added on: April 15, 2019, 9:54 p.m.
Entry added by: Xiaochen Du Duke University
Last updated on: June 22, 2022, 10:12 p.m.
Last updated by: Rayan C Duke University
Data correctness verified by:
  • Rayan C Duke University

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Data set ID: 227 Did you find any mistakes or inconsistencies about this data? Send us a note and we'll have a look at it and send you a reply. Thanks!

Atomic structure

See all entries for this property (11 total)

Origin: computational
Lattice parameters

Crystal system: triclinic

a:11.55946617 Å
b:11.43048795 Å
c:17.38771533 Å
α:99.48506145°
β:106.2862311°
γ:89.99253023°
N. E. Wright, X. Qin, J. Xu, L. L. Kelly, S. P. Harvey, M. F. Toney, V. Blum, and A. D. Stiff-Roberts, Influence of Annealing and Composition on the Crystal Structure of Mixed-Halide, Ruddlesden–Popper Perovskites, Chemistry of Materials 34, 3109‑3122 (2022). doi: 10.1021/acs.chemmater.1c04213.
System description
Dimensionality: D
Sample type: single crystal

Code: FHI-aims

Level of theory: DFT

Exchange-correlation functional: PBE (with TS scheme to account for the Van der Waals effect)

K-point grid: 4*4*2

Basis set definition: tight

Numerical accuracy: force convergence 5e-3 eV/AA

Comment: See Table S4 of Ref. https://doi.org/10.1021/acs.chemmater.1c04213 . This is the lowest-energy computationally assessed structure of (PEA)2PbBr4 in that paper. This structure is constructed based on the experimental (PEA)2PbBr4 published by Shibuya et al. (doi: 10.1107/S160053680903712X)

N. E. Wright, X. Qin, J. Xu, L. L. Kelly, S. P. Harvey, M. F. Toney, V. Blum, and A. D. Stiff-Roberts, Influence of Annealing and Composition on the Crystal Structure of Mixed-Halide, Ruddlesden–Popper Perovskites, Chemistry of Materials 34, 3109‑3122 (2022). doi: 10.1021/acs.chemmater.1c04213.

Entry added on: Oct. 26, 2021, 2:10 p.m.
Entry added by: Xixi Qin Duke University
Last updated on: May 26, 2023, 3:18 p.m.
Last updated by: Volker Blum Duke University
Data correctness verified by:
  • Rayan C Duke University

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Data set ID: 1890 Did you find any mistakes or inconsistencies about this data? Send us a note and we'll have a look at it and send you a reply. Thanks!

Atomic structure

See all entries for this property (11 total)

Origin: computational
Lattice parameters

Crystal system: triclinic

a:34.77173445 Å
b:11.43273987 Å
c:11.55828542 Å
α:89.98937296°
β:106.2967478°
γ:99.49292321°
N. E. Wright, X. Qin, J. Xu, L. L. Kelly, S. P. Harvey, M. F. Toney, V. Blum, and A. D. Stiff-Roberts, Influence of Annealing and Composition on the Crystal Structure of Mixed-Halide, Ruddlesden–Popper Perovskites, Chemistry of Materials 34, 3109‑3122 (2022). doi: 10.1021/acs.chemmater.1c04213.
System description
Dimensionality: D
Sample type: single crystal

Code: FHI-aims

Level of theory: DFT

Exchange-correlation functional: PBE (with TS scheme to account for the Van der Waals effect)

K-point grid: 2*4*4

Basis set definition: tight

Numerical accuracy: force convergence 5e-3 eV/AA

Comment: This structure is constructed based on the experimental (PEA)2PbBr4 published by Shibuya et al. (doi: 10.1107/S160053680903712X). This structure is the same as Data ID 1890 - however, the a axis is chosen as the out of plane axis and the supercell is doubled (out of plane) compared to the experimental structure and compared to Data ID 1890.

N. E. Wright, X. Qin, J. Xu, L. L. Kelly, S. P. Harvey, M. F. Toney, V. Blum, and A. D. Stiff-Roberts, Influence of Annealing and Composition on the Crystal Structure of Mixed-Halide, Ruddlesden–Popper Perovskites, Chemistry of Materials 34, 3109‑3122 (2022). doi: 10.1021/acs.chemmater.1c04213.

Entry added on: Oct. 26, 2021, 4:33 p.m.
Entry added by: Xixi Qin Duke University
Last updated on: May 26, 2023, 3:29 p.m.
Last updated by: Volker Blum Duke University
Data correctness verified by:
  • Rayan C Duke University

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Data set ID: 1900 Did you find any mistakes or inconsistencies about this data? Send us a note and we'll have a look at it and send you a reply. Thanks!

Atomic structure

See all entries for this property (27 total)

Origin: computational
Lattice parameters

Crystal system: triclinic

a:12.20369939 Å
b:12.0729374 Å
c:17.33412864 Å
α:100.0374291°
β:106.3909272°
γ:90.0081498°
N. E. Wright, X. Qin, J. Xu, L. L. Kelly, S. P. Harvey, M. F. Toney, V. Blum, and A. D. Stiff-Roberts, Influence of Annealing and Composition on the Crystal Structure of Mixed-Halide, Ruddlesden–Popper Perovskites, Chemistry of Materials 34, 3109‑3122 (2022). doi: 10.1021/acs.chemmater.1c04213.
System description
Dimensionality: D
Sample type: unknown

Code: FHI-aims

Level of theory: DFT

Exchange-correlation functional: PBE (with TS scheme to account for the Van der Waals effect)

K-point grid: 4*4*2

Basis set definition: tight

Numerical accuracy: force convergence 5e-3 eV/AA

Comment: This is a hypothetical, computationally generated structure that is intentionally NOT consistent with the experimental structure of (PEA)2PbI4. Rather, the organic molecule configuration of this structure is borrowed from (PEA)2PbBr4 structure (data ID 1890) but inorganic component is PbI4, then computationally fully optimized using DFT-PBE+TS.

N. E. Wright, X. Qin, J. Xu, L. L. Kelly, S. P. Harvey, M. F. Toney, V. Blum, and A. D. Stiff-Roberts, Influence of Annealing and Composition on the Crystal Structure of Mixed-Halide, Ruddlesden–Popper Perovskites, Chemistry of Materials 34, 3109‑3122 (2022). doi: 10.1021/acs.chemmater.1c04213.

Entry added on: Oct. 26, 2021, 4:42 p.m.
Entry added by: Xixi Qin Duke University
Last updated on: May 26, 2023, 3:08 p.m.
Last updated by: Volker Blum Duke University
Data correctness verified by:
  • Rayan C Duke University

Download data
Data set ID: 1902 Did you find any mistakes or inconsistencies about this data? Send us a note and we'll have a look at it and send you a reply. Thanks!

Atomic structure
Method: DFT-PBE plus Tkatchenko Scheffler dispersion, fully optimized
Origin: computational
Lattice parameters

Crystal system: triclinic

a:12.19780429 Å
b:12.07413733 Å
c:34.6429016 Å
α:100.0464887°
β:106.3953437°
γ:90.00531275°
N. E. Wright, X. Qin, J. Xu, L. L. Kelly, S. P. Harvey, M. F. Toney, V. Blum, and A. D. Stiff-Roberts, Influence of Annealing and Composition on the Crystal Structure of Mixed-Halide, Ruddlesden–Popper Perovskites, Chemistry of Materials 34, 3109‑3122 (2022). doi: 10.1021/acs.chemmater.1c04213.
System description
Dimensionality: D
Sample type: single crystal

Code: FHI-aims

Level of theory: DFT

Exchange-correlation functional: PBE (with TS scheme to account for the Van der Waals effect)

K-point grid: 4*4*2

Basis set definition: tight

Numerical accuracy: force convergence 5e-3 eV/AA

Comment: The organic molecule configuration of this structure is borrowed from (PEA)2PbBr4 structure (data ID 1900). Structure published in Ref Table S11

N. E. Wright, X. Qin, J. Xu, L. L. Kelly, S. P. Harvey, M. F. Toney, V. Blum, and A. D. Stiff-Roberts, Influence of Annealing and Composition on the Crystal Structure of Mixed-Halide, Ruddlesden–Popper Perovskites, Chemistry of Materials 34, 3109‑3122 (2022). doi: 10.1021/acs.chemmater.1c04213.

Extraction method: Manual entry
Entry added on: Oct. 26, 2021, 5:04 p.m.
Entry added by: Xixi Qin Duke University
Last updated on: July 27, 2023, 3:17 p.m.
Last updated by: Kelly Ma

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Data set ID: 1905 Did you find any mistakes or inconsistencies about this data? Send us a note and we'll have a look at it and send you a reply. Thanks!

Atomic structure
Method: DFT-PBE plus Tkatchenko Scheffler dispersion, fully optimized
Origin: computational
Lattice parameters

Crystal system: triclinic

a:34.681252 Å
b:11.691666 Å
c:11.826869 Å
α:89.975632°
β:106.064415°
γ:99.723991°
N. E. Wright, X. Qin, J. Xu, L. L. Kelly, S. P. Harvey, M. F. Toney, V. Blum, and A. D. Stiff-Roberts, Influence of Annealing and Composition on the Crystal Structure of Mixed-Halide, Ruddlesden–Popper Perovskites, Chemistry of Materials 34, 3109‑3122 (2022). doi: 10.1021/acs.chemmater.1c04213.
System description
Dimensionality: D
Sample type: single crystal

Starting materials: N/A

Method: Method: DFT-PBE plus Tkatchenko Scheffler dispersion, fully optimized

Comment: Structure published in reference table S12

Code: FHI-aims

Level of theory: DFT

Exchange-correlation functional: PBE (with TS scheme to account for the Van der Waals effect)

K-point grid: 4*4*2

Basis set definition: tight

Numerical accuracy: force convergence 5e-3 eV/AA

Comment: The organic molecule configuration of this structure is borrowed from (PEA)2PbBr4 structure (data ID 1900)

N. E. Wright, X. Qin, J. Xu, L. L. Kelly, S. P. Harvey, M. F. Toney, V. Blum, and A. D. Stiff-Roberts, Influence of Annealing and Composition on the Crystal Structure of Mixed-Halide, Ruddlesden–Popper Perovskites, Chemistry of Materials 34, 3109‑3122 (2022). doi: 10.1021/acs.chemmater.1c04213.

Extraction method: Manual entry
Entry added on: Oct. 26, 2021, 5:08 p.m.
Entry added by: Xixi Qin Duke University
Last updated on: July 27, 2023, 4:53 p.m.
Last updated by: Volker Blum Duke University

Download data
Data set ID: 1906 Did you find any mistakes or inconsistencies about this data? Send us a note and we'll have a look at it and send you a reply. Thanks!

Atomic structure

See all entries for this property (2 total)

Method: DFT-PBE plus Tkatchenko Scheffler dispersion, fully optimized
Origin: computational
Lattice parameters

Crystal system: triclinic

a:34.770432 Å
b:11.554971 Å
c:11.691811 Å
α:89.984863°
β:106.218468°
γ:99.58844°
N. E. Wright, X. Qin, J. Xu, L. L. Kelly, S. P. Harvey, M. F. Toney, V. Blum, and A. D. Stiff-Roberts, Influence of Annealing and Composition on the Crystal Structure of Mixed-Halide, Ruddlesden–Popper Perovskites, Chemistry of Materials 34, 3109‑3122 (2022). doi: 10.1021/acs.chemmater.1c04213.
System description
Dimensionality: D
Sample type: single crystal

Starting materials: N/A

Comment: Structure published in reference table S13 (lowest energy structure)

Method: Manual entry, Method: DFT-PBE plus Tkatchenko Scheffler dispersion, fully optimized

Code: FHI-aims

Level of theory: DFT

Exchange-correlation functional: PBE (with TS scheme to account for the Van der Waals effect)

K-point grid: 4*4*2

Basis set definition: tight

Numerical accuracy: force convergence 5e-3 eV/AA

Comment: The organic molecule configuration of this structure is borrowed from (PEA)2PbBr4 structure (data ID 1900)

N. E. Wright, X. Qin, J. Xu, L. L. Kelly, S. P. Harvey, M. F. Toney, V. Blum, and A. D. Stiff-Roberts, Influence of Annealing and Composition on the Crystal Structure of Mixed-Halide, Ruddlesden–Popper Perovskites, Chemistry of Materials 34, 3109‑3122 (2022). doi: 10.1021/acs.chemmater.1c04213.

Extraction method: Manual entry
Entry added on: Oct. 26, 2021, 5:10 p.m.
Entry added by: Xixi Qin Duke University
Last updated on: July 27, 2023, 4:53 p.m.
Last updated by: Volker Blum Duke University

Download data
Data set ID: 1907 Did you find any mistakes or inconsistencies about this data? Send us a note and we'll have a look at it and send you a reply. Thanks!

Atomic structure

See all entries for this property (2 total)

Method: DFT-PBE plus Tkatchenko Scheffler dispersion, fully optimized
Origin: computational
Lattice parameters

Crystal system: triclinic

a:34.727303 Å
b:11.540841 Å
c:11.748095 Å
α:89.992363°
β:106.562866°
γ:99.568001°
N. E. Wright, X. Qin, J. Xu, L. L. Kelly, S. P. Harvey, M. F. Toney, V. Blum, and A. D. Stiff-Roberts, Influence of Annealing and Composition on the Crystal Structure of Mixed-Halide, Ruddlesden–Popper Perovskites, Chemistry of Materials 34, 3109‑3122 (2022). doi: 10.1021/acs.chemmater.1c04213.
System description
Dimensionality: D
Sample type: single crystal

Starting materials: N/A

Comment: Structure published in reference table S14 (second lowest energy structure)

Method: Manual entry

Code: FHI-aims

Level of theory: DFT

Exchange-correlation functional: PBE (with TS scheme to account for the Van der Waals effect)

K-point grid: 4*4*2

Basis set definition: tight

Numerical accuracy: force convergence 5e-3 eV/AA

Comment: The organic molecule configuration of this structure is borrowed from (PEA)2PbBr4 structure (data ID 1900)

N. E. Wright, X. Qin, J. Xu, L. L. Kelly, S. P. Harvey, M. F. Toney, V. Blum, and A. D. Stiff-Roberts, Influence of Annealing and Composition on the Crystal Structure of Mixed-Halide, Ruddlesden–Popper Perovskites, Chemistry of Materials 34, 3109‑3122 (2022). doi: 10.1021/acs.chemmater.1c04213.

Extraction method: Manual entry
Entry added on: Oct. 26, 2021, 5:13 p.m.
Entry added by: Xixi Qin Duke University
Last updated on: July 27, 2023, 3:20 p.m.
Last updated by: Kelly Ma

Download data
Data set ID: 1908 Did you find any mistakes or inconsistencies about this data? Send us a note and we'll have a look at it and send you a reply. Thanks!


License

All data is available under the Creative Commons license with attribution clause, described here and, in its full text, here.