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805904

Sigma-Aldrich

Phenethylammonium iodide

greener alternative

Synonyma:

Greatcell Solar®, Phenethylamine hydriodide

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About This Item

Empirický vzorec (Hillův zápis):
C8H12IN
Molekulová hmotnost:
249.09
UNSPSC Code:
12352101
PubChem Substance ID:
329768971
NACRES:
NA.23

description

Elemental Analysis: ~38.5% C, ~5.6% N

Quality Level

100

assay

98%

form

powder

greener alternative product characteristics

Design for Energy Efficiency
Learn more about the Principles of Green Chemistry.

sustainability

Greener Alternative Product

mp

283 °C

greener alternative category

, Enabling

SMILES string

[H][N+]([H])([H])CCC1=CC=CC=C1.[I-]

InChI

1S/C8H11N.HI/c9-7-6-8-4-2-1-3-5-8;/h1-5H,6-7,9H2;1H

InChI key

UPHCENSIMPJEIS-UHFFFAOYSA-N

General description

We are committed to bringing you Greener Alternative Products, which adhere to one or more of The 12 Principles of Greener Chemistry. This product has been enhanced for energy efficiency. Click here for more details.

Application

The iodide and bromide based alkylated halides find applications as precursors for fabrication of perovskites for photovoltaic applications.

Legal Information

Product of Greatcell Solar Materials Pty Ltd.
Greatcell Solar® is a registered trademark of Greatcell Solar Materials Pty Ltd
Greatcell Solar is a registered trademark of Greatcell Solar

pictograms

Exclamation mark
GHS07

signalword

Warning

Hazard Classifications

Acute Tox. 4 Oral - Eye Irrit. 2 - Skin Irrit. 2 - STOT SE 3

target_organs

Respiratory system

Storage Class

11 - Combustible Solids

wgk_germany

WGK 3

flash_point_f

Not applicable

flash_point_c

Not applicable

Osvědčení o analýze (COA)

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Ethylenediammonium diiodide for synthesis

Sigma-Aldrich

8.14619

Ethylenediammonium diiodide

2-Phenylethylamine hydrochloride ≥98%

Sigma-Aldrich

P6513

2-Phenylethylamine hydrochloride

Huihui Zhu et al.
ACS nano, 13(4), 3971-3981 (2019-03-08)
Although organic-inorganic halide perovskites continue to generate considerable interest due to great potentials for various optoelectronic devices, there are some critical obstacles to practical applications, including lead toxicity, relatively low field-effect mobility, and strong hysteresis during operation. This paper proposes
Yudi Tu et al.
Small (Weinheim an der Bergstrasse, Germany), 16(52), e2005626-e2005626 (2020-12-08)
For next-generation Internet-of-Everything applications, for example, artificial-neural-network image sensors, artificial retina, visible light communication, on-chip light interconnection, and flexible devices, etc., high-performance microscale photodetectors are in urgent demands. 2D material (2DM) photodetectors have been researched and demonstrated impressive performances. However
Olivia F Williams et al.
The journal of physical chemistry. A, 123(51), 11012-11021 (2019-11-16)
Two-dimensional (2D) hybrid perovskites are generating broad scientific interest because of their potential for use in photovoltaics and microcavity lasers. It has recently been demonstrated that mixtures of quantum wells with different thicknesses can be assembled in films with heterogeneous
Sampson Adjokatse et al.
Nanoscale, 11(13), 5989-5997 (2019-03-16)
Formamidinium lead iodide (FAPbI3) is one of the most extensively studied perovskite materials due to its narrow band gap and high absorption coefficient, which makes it highly suitable for optoelectronic applications. Deposition of a solution containing lead iodide (PbI2) and
So-Yeon Kim et al.
Nanoscale, 11(30), 14330-14338 (2019-07-20)
We report here the effect of interlayer spacing in 2-dimensional (2D) perovskites of [C6H5(CH2)nNH3]2PbI4 (anilinium (An) for n = 0, benzylammonium (BzA) for n = 1 and phenylethylammonium (PEA) for n = 2) on resistive switching properties. X-ray diffraction (XRD)
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