929697
ElectroGreen®
Butyl Cellosolve substitute for electronics, bio-sourced
About This Item
Recommended Products
grade
for electronic purposes
Quality Level
vapor pressure
1.75 mmHg ( 20 °C)
description
RelativeEvaporation rate: ~0.11
Hansen SolubilityParameters: SPd = 7.5; SPp = 3.8; SPh = 6.
Acidity (as lactic acid) 0.03-0.05wt%
Assay
≥99% (GC)
form
liquid
greener alternative product characteristics
Design for Energy Efficiency
Use of Renewable Feedstocks
Learn more about the Principles of Green Chemistry.
impurities
≤0.2% Water (Karl Fischer)
≤1 ppm As, Cr, Cd, Cu, Hg, Mn, Ni, Pb, Zn, trace (ICP, each)
evapn. residue
≤0.05%
color
clear
viscosity
16.1 cP(20 °C)
bp
154 °C (Initial)
density
0.954
greener alternative category
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General description
This solvent blend consists of Ethyl lactate 70-90%, hexan-1-ol 30-50%.
Application
It is a precision cleaning solvent, dries completely, no film residue. It is also easy and inexpensive to distill/recycle, whilst no environmentally hazardous ingredients and no Hazardous Air Pollutants.
It is 20% to 30% more efficient in viscosity reduction than Butyl Cellosolve. It is an excellent solvency for ink formulations with high loading capacity.
Storage and Stability
Legal Information
Signal Word
Danger
Hazard Statements
Precautionary Statements
Hazard Classifications
Eye Dam. 1 - STOT SE 3
Target Organs
Respiratory system
Storage Class Code
10 - Combustible liquids
WGK
WGK 1
Flash Point(F)
141.0 °F
Flash Point(C)
60.55 °C
Certificates of Analysis (COA)
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Articles
Carbon-based Sustainable Organic Electronics (SOE) limit the use of critical elements and biodegrade at their end-of-life. This review offers insight on how structural and energy disorder in these materials influence device performance and includes evaluations of various transport models and their limitations.
Carbon-based Sustainable Organic Electronics (SOE) limit the use of critical elements and biodegrade at their end-of-life. This review offers insight on how structural and energy disorder in these materials influence device performance and includes evaluations of various transport models and their limitations.
Carbon-based Sustainable Organic Electronics (SOE) limit the use of critical elements and biodegrade at their end-of-life. This review offers insight on how structural and energy disorder in these materials influence device performance and includes evaluations of various transport models and their limitations.
Carbon-based Sustainable Organic Electronics (SOE) limit the use of critical elements and biodegrade at their end-of-life. This review offers insight on how structural and energy disorder in these materials influence device performance and includes evaluations of various transport models and their limitations.
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