Bis(2-([2,2′:5′,2″-terthiophen]-5-yl)ethan-1-aminium) tin iodide

Chemical Formula: C28H28I4N2S6Sn
IUPAC: bis(2-([2,2′:5′,2″-terthiophen]-5-yl)ethan-1-aminium) tin(II) iodide
Alternate Names: (3T)2SnI4, Bis(2-([2,2′:5′,2″-terthiophen]-5-yl)ethylammonium) tin iodide, Bis(terthiophenylethylammonium) tin iodide
Organic: C28H28N2S6
Inorganic: SnI4
Dimensionality: 2D n: 1
Formal Stoichiometry: C : 28 , H : 28 , I : 4 , N : 2 , S : 6 , Sn : 1
Atomic structure
Method: Single-Crystal X-ray Difffraction
Origin: experimental (T = 150.0 K)
Space group: PC
Lattice parameters

Crystal system: monoclinic

a:24.904 (±0.002) Å
b:12.0434 (±0.0011) Å
c:12.2044 (±0.0011) Å
α:90°
β:97.054 (±0.003)°
γ:90°
Fixed parameters:
  • temperature = 150.0 K
Y. Li, H. Zhou, M. Xia, H. Chen, T. Wang, H. Gao, X. Sheng, Y. Han, Z. Chen, L. Dou, H. Zhu, and E. Shi, Phase-pure 2D tin halide perovskite thin flakes for stable lasing, Science Advances 9, eadh0517‑eadh0517 (2023). doi: 10.1126/sciadv.adh0517.
System description
Dimensionality: 2D n: 1
Sample type: single crystal

Starting materials: 3TI, SnI2, HI, H3PO2, ethanol

Product: Single crystals of 2D tin halide perovskites. Thin flakes were then exfoliated from the single crystals.

Description: Single crystals synthesized by slow cooling method. Growth solution prepared with 0.005mmol 3TI, 0.03mmol SnI2, 0.2mL HI, 0.1mL H3PO2, and 0.5mL ethanol in a sealed glass vial and placed in a muffle furnace and heated until completely dissolved. Solution cooled to room temperature at a rate of 2°C/hour. Crystals were then dried and stored in a nitrogen glove box.

Method: Single crystal X-ray diffraction

Description: PXRD performed by Bruker D8 Advance instrument scanning at 0.02° per step with a copper target. All single crystals were analyzed using a Bruker AXS D8 Venture diffractometer with a high-intensity diamond Cu/Mo hybrid dual-microfocal x-ray tube. All data collecting and processing was completed using APEX4 software. Full matrix least squares against F2 method was used for further refinement of structures.

Y. Li, H. Zhou, M. Xia, H. Chen, T. Wang, H. Gao, X. Sheng, Y. Han, Z. Chen, L. Dou, H. Zhu, and E. Shi, Phase-pure 2D tin halide perovskite thin flakes for stable lasing, Science Advances 9, eadh0517‑eadh0517 (2023). doi: 10.1126/sciadv.adh0517.

Extraction method: Manual from article
Entry added on: Jan. 23, 2024, 9:14 a.m.
Entry added by: Kelly Ma
Last updated on: Jan. 23, 2024, 9:14 a.m.
Last updated by: Kelly Ma

Download data
Data set ID: 2463 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 coordinates


Interlayer Distance, Inorganic-to-Inorganic
Method: Powder X-ray Diffraction
Origin: experimental
Interlayer Distance, Inorganic-to-Inorganic

Crystal system: unknown

Interlayer Distance, Inorganic-to-Inorganic, Å
Y. Li, H. Zhou, M. Xia, H. Chen, T. Wang, H. Gao, X. Sheng, Y. Han, Z. Chen, L. Dou, H. Zhu, and E. Shi, Phase-pure 2D tin halide perovskite thin flakes for stable lasing, Science Advances 9, eadh0517‑eadh0517 (2023). doi: 10.1126/sciadv.adh0517.
System description
Dimensionality: 2D n: 1
Sample type: powder

Starting materials: 3TI, SnI2, HI, H3PO2, ethanol

Product: Single crystals of 2.5D tin halide perovskite. Thin flakes were then exfoliated from the single crystals.

Description: Single crystals synthesized by slow cooling method. Growth solution prepared with 0.005mmol 3TI, 0.03mmol SnI2, 0.2mL HI, 0.1mL H3PO2, and 0.5mL ethanol in a sealed glass vial and placed in a muffle furnace and heated until completely dissolved. Solution cooled to room temperature at a rate of 2°C/hour. Crystals were then dried and stored in a nitrogen glove box.

Method: Powder X-ray Diffraction

Description: Performed using Bruker D8 Advance, using copper target and steps of 0.02 degrees.

Comment: Temperature not confirmed in paper; room temperature seems likely.

Y. Li, H. Zhou, M. Xia, H. Chen, T. Wang, H. Gao, X. Sheng, Y. Han, Z. Chen, L. Dou, H. Zhu, and E. Shi, Phase-pure 2D tin halide perovskite thin flakes for stable lasing, Science Advances 9, eadh0517‑eadh0517 (2023). doi: 10.1126/sciadv.adh0517.

Extraction method: Manual from article
Entry added on: Feb. 14, 2024, 11:45 p.m.
Entry added by: Kelly Ma
Last updated on: Feb. 14, 2024, 11:45 p.m.
Last updated by: Kelly Ma

Download data
Data set ID: 2472 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!

Photoluminescence (integrated intensity) (photoluminescence spectroscopy)
Origin: experimental
Y. Li, H. Zhou, M. Xia, H. Chen, T. Wang, H. Gao, X. Sheng, Y. Han, Z. Chen, L. Dou, H. Zhu, and E. Shi, Phase-pure 2D tin halide perovskite thin flakes for stable lasing, Science Advances 9, eadh0517‑eadh0517 (2023). doi: 10.1126/sciadv.adh0517.
System description
Dimensionality: 2D n: 1
Sample type: single crystal

Starting materials: 3TI, SnI2, HI, H3PO2, ethanol

Product: Single crystals of 2D tin halide perovskites. Thin flakes were then exfoliated from the single crystals.

Description: Single crystals synthesized by slow cooling method. Growth solution prepared with 0.005mmol 3TI, 0.03mmol SnI2, 0.2mL HI, 0.1mL H3PO2, and 0.5mL ethanol in a sealed glass vial and placed in a muffle furnace and heated until completely dissolved. Solution cooled to room temperature at a rate of 2°C/hour. Crystals were then dried and stored in a nitrogen glove box.

Method: Photoluminescence spectroscopy

Description: Temperature dependent PL measurements were conducted by combining a Linkam THMS600 stage with the Witec system. Air was purged from stage chamber with dry nitrogen to remove water and oxygen. Cooling rate set to 20 degrees Celsius/min. 50x objective lens used for signal collecting.

Y. Li, H. Zhou, M. Xia, H. Chen, T. Wang, H. Gao, X. Sheng, Y. Han, Z. Chen, L. Dou, H. Zhu, and E. Shi, Phase-pure 2D tin halide perovskite thin flakes for stable lasing, Science Advances 9, eadh0517‑eadh0517 (2023). doi: 10.1126/sciadv.adh0517.

Entry added on: Feb. 16, 2024, 1:36 a.m.
Entry added by: Kelly Ma
Last updated on: March 1, 2024, 10:32 a.m.
Last updated by: Kelly Ma

Download data
Data set ID: 2477 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!

Exciton binding energy
Origin: experimental
Exciton binding energy

Crystal system: unknown

Exciton binding energy, meV
Y. Li, H. Zhou, M. Xia, H. Chen, T. Wang, H. Gao, X. Sheng, Y. Han, Z. Chen, L. Dou, H. Zhu, and E. Shi, Phase-pure 2D tin halide perovskite thin flakes for stable lasing, Science Advances 9, eadh0517‑eadh0517 (2023). doi: 10.1126/sciadv.adh0517.
System description
Dimensionality: 2D n: 1
Sample type: single crystal

Starting materials: 3TI, SnI2, HI, H3PO2, ethanol

Product: Single crystals of 2.5D tin halide perovskites. Thin flakes were then exfoliated from the single crystals.

Description: Single crystals synthesized by slow cooling method. Growth solution prepared with 0.005mmol 3TI, 0.03mmol SnI2, 0.2mL HI, 0.1mL H3PO2, and 0.5mL ethanol in a sealed glass vial and placed in a muffle furnace and heated until completely dissolved. Solution cooled to room temperature at a rate of 2°C/hour. Crystals were then dried and stored in a nitrogen glove box.

Method: Arrhenius formula fitting

Description: Temperature dependent PL measurements were conducted by combining a Linkam THMS600 stage with the Witec system. Air was purged from stage chamber with dry nitrogen to remove water and oxygen. Cooling rate set to 20 degrees Celsius/min. 50x objective lens used for signal collecting. Exciton binding energies extracted from Arrhenius formula fitting from the integrated PL intensity.

Y. Li, H. Zhou, M. Xia, H. Chen, T. Wang, H. Gao, X. Sheng, Y. Han, Z. Chen, L. Dou, H. Zhu, and E. Shi, Phase-pure 2D tin halide perovskite thin flakes for stable lasing, Science Advances 9, eadh0517‑eadh0517 (2023). doi: 10.1126/sciadv.adh0517.

Entry added on: Feb. 29, 2024, 9:46 p.m.
Entry added by: Kelly Ma
Last updated on: Feb. 29, 2024, 9:46 p.m.
Last updated by: Kelly Ma

Download data
Data set ID: 2496 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.