929727
ElectroGreen®
Methyl Amyl Ketone substitute for electronics, bio-sourced
About This Item
Productos recomendados
vapor pressure
6.4 mmHg ( 20 °C)
Quality Level
description
Relative Evaporation rate: 0.247
Hansen SolubilityParameters: SPd = 7.7; SPp = 3.4; SPh = 6.7
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
≤0.09 wt. % Acidity (as lactic acid)
≤0.2% Water (Karl Fischer)
≤1 ppm As, Cr, Cd, Cu, Hg, Mn, Ni, Pb, Zn, trace (each)
evapn. residue
≤0.05%
color
colorless
viscosity
15.7 cP(20 °C)
bp
111 °C
greener alternative category
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General description
This solvent blend consists of Ethyl lactate 50-70%, iso-butanol 30-50%.
Application
Additionally, it is an excellent solvency for ink formulations with 20% to 30% more efficient in viscosity reduction than MAK, and it allows high loading capacity on ink formulations.
Storage and Stability
Legal Information
signalword
Danger
hcodes
Hazard Classifications
Eye Dam. 1 - Flam. Liq. 3 - Skin Irrit. 2 - STOT SE 3
target_organs
Central nervous system, Respiratory system
Storage Class
3 - Flammable liquids
wgk_germany
WGK 1
flash_point_f
102.2 °F
flash_point_c
39 °C
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Certificados de análisis (COA)
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Artículos
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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