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Merck
CN

805971

Sigma-Aldrich

乙脒氢碘酸盐

greener alternative

别名:

1-氨基乙碘化碘, Greatcell Solar®

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关于此项目

经验公式(希尔记法):
C2H7IN2
分子量:
185.99
UNSPSC代码:
12352101
PubChem化学物质编号:
329768980
NACRES:
NA.23

主要文件

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方案

98%

质量水平

100

表单

powder

环保替代产品特性

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

sustainability

Greener Alternative Product

mp

100 °C

环保替代产品分类

Enabling,

SMILES字符串

CC(N)=[NH2+].[I-]

InChI

1S/C2H6N2.HI/c1-2(3)4;/h1H3,(H3,3,4);1H

InChI key

GGYGJCFIYJVWIP-UHFFFAOYSA-N

相关类别

一般描述

我们竭诚为您带来绿色替代产品,以确保符合一项或多项绿色化学12项原则要求。该产品为增强型,提高了能源效率。点击此处以获取更多信息。

应用

乙脒鎓碘化物(ACA)可用作卤化物基碘化物,其可促进混合卤化物钙钛矿的形成。它可用于制造下一代太阳能电池,功率转换效率(PCE)为23%。

法律信息

Greatcell Solar Materials Pty Ltd的产品。
Greatcell Solar是Greatcell Solar Materials Pty Ltd的注册商标。
Greatcell Solar is a registered trademark of Greatcell Solar

象形图

Exclamation mark
GHS07

警示用语:

Warning

危险声明

H315,H319,H335

危险分类

Eye Irrit. 2 - Skin Irrit. 2 - STOT SE 3

靶器官

Respiratory system

储存分类代码

11 - Combustible Solids

WGK

WGK 3

闪点(°F)

Not applicable

闪点(°C)

Not applicable

历史批次信息供参考:

分析证书(COA)

Lot/Batch Number
MKBW6563V

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Partial Cation Substitution Reduces Iodide Ion Transport in Lead Iodide Perovskite Solar Cells
Ferdani D, et al.
Energy & Environmental Science (2019)
Structure-band gap relationships in hexagonal polytypes and low-dimensional structures of hybrid tin iodide perovskites
Stoumpos CC, et al.
Inorganic Chemistry, 56(1), 56-73 (2016)
Nam Joong Jeon et al.
Nature, 517(7535), 476-480 (2015-01-07)
Of the many materials and methodologies aimed at producing low-cost, efficient photovoltaic cells, inorganic-organic lead halide perovskite materials appear particularly promising for next-generation solar devices owing to their high power conversion efficiency. The highest efficiencies reported for perovskite solar cells
Wei Zhang et al.
Nano letters, 15(3), 1698-1702 (2015-02-05)
The performance of perovskite solar cells has been progressing over the past few years and efficiency is likely to continue to increase. However, a negative aspect for the integration of perovskite solar cells in the built environment is that the
Zhi-Kuang Tan et al.
Nature nanotechnology, 9(9), 687-692 (2014-08-05)
Solid-state light-emitting devices based on direct-bandgap semiconductors have, over the past two decades, been utilized as energy-efficient sources of lighting. However, fabrication of these devices typically relies on expensive high-temperature and high-vacuum processes, rendering them uneconomical for use in large-area

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