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Tin(IV) oxide

ALDRICH/204714 - ≥99.99% trace metals basis

Synonym: Stannic oxide

CAS Number: 18282-10-5
Empirical Formula (Hill Notation): O2Sn
Molecular Weight: 150.71
EC Number: 242-159-0
MDL Number: MFCD00011244
Linear Formula: SnO2
Product Type: Chemical

Catalog Number PKG Qty. Price Quantity
45-204714-5G 5 g
$148.00
1/EA
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45-204714-25G 25 g
$526.00
1/EA
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This picture is provided solely for illustration purposes. Optical properties of the actual product may deviate. Relevant product information is printed on labeled products and other accompanying or available information material.

This image depicts SKU: 204714-5G
This picture is provided solely for illustration purposes. Optical properties of the actual product may deviate. Relevant product information is printed on labeled products and other accompanying or available information material.

This image depicts SKU: 204714-25G

 

application(s) battery manufacturing
assay ≥99.99% trace metals basis
density 6.95 g/mL at 25 °C (lit.)
form powder and chunks
InChI 1S/2O.Sn
InChI key XOLBLPGZBRYERU-UHFFFAOYSA-N
Quality Level 100 
SMILES string O=[Sn]=O
Application: • Fluorinated Cation-Based 2D Perovskites for Efficient and Stable 3D/2D Heterojunction Perovskite Solar Cells.: This research explores the application of tin(IV) oxide in creating efficient and stable perovskite solar cells, focusing on the improvement of the solar cells′ overall performance (Shaw PE et al., 2023 ).
• Tin(IV) Oxide Electron Transport Layer via Industrial-Scale Pulsed Laser Deposition for Planar Perovskite Solar Cells.: The study discusses the use of tin(IV) oxide as an electron transport layer applied through industrial-scale pulsed laser deposition, enhancing the functionality and efficiency of planar perovskite solar cells (Bolink HJ et al., 2023 ).
• Periodic Acid Modification of Chemical-Bath Deposited SnO2 Electron Transport Layers for Perovskite Solar Cells and Mini Modules.: This paper presents a methodology for the modification of SnO2 electron transport layers, used to increase the efficiency of perovskite solar cells and mini-modules (Lin H et al., 2023 ).
• Zwitterion-Functionalized SnO2 Substrate Induced Sequential Deposition of Black-Phase FAPbI3 with Rearranged PbI2 Residue.: Research on enhancing the deposition of black-phase FAPbI3 on zwitterion-functionalized SnO2 substrates, focusing on perovskite solar cell improvements (Zhao Y et al., 2022 ).
• Improved stability and efficiency of polymer-based selenium solar cells through the usage of tin(iv) oxide in the electron transport layers and the analysis of aging dynamics.: The study investigates the role of tin(IV) oxide in enhancing the stability and efficiency of polymer-based selenium solar cells (Zhang Q et al., 2020 ).
Packaging: 5, 25 g in poly bottle
RIDADR NONH for all modes of transport
WGK Germany nwg
Flash Point(F) Not applicable
Flash Point(C) Not applicable
Purity ≥99.99% trace metals basis
Density 6.95 g/mL at 25 °C (lit.)
UNSPSC 12352300

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