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Potassium hydroxide solution

SIGALD/P4494 - volumetric, 8.0 M KOH (8.0N)

CAS Number: 1310-58-3
Empirical Formula (Hill Notation): HKO
Molecular Weight: 56.11
MDL Number: MFCD00003553
Linear Formula: KOH
Product Type: Chemical
Catalog Number PKG Qty. Price Quantity
45-P4494-50ML 50 mL
 $66.50
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concentration 8.0 M KOH (8.0N)
InChI 1S/K.H2O/h;1H2/q+1;/p-1
InChI key KWYUFKZDYYNOTN-UHFFFAOYSA-M
quality volumetric
Quality Level 100 
SMILES string [K+].[O-][H]
Application:

  • Impact of Modifications from Potassium Hydroxide on Porous Semi-IPN Hydrogel Properties and Its Application in Cultivation.: This study explores how potassium hydroxide modifications enhance the properties of porous semi-interpenetrating polymer network (IPN) hydrogels, specifically for use in cultivation applications. These modifications improve the hydrogel′s mechanical strength and water retention capacity, making it a viable option for agricultural purposes. (Tuan et al., 2024 ).

  • Characterization of Bioadsorbents from Organic Municipal Waste.: The research investigates the preparation and characterization of bioadsorbents derived from organic municipal waste treated with potassium hydroxide. These bioadsorbents show enhanced adsorption capacities for pollutants, demonstrating potential for environmental cleanup applications. (Sołtysik et al., 2024 ).

  • Robust anion exchange membranes based on ionic liquid grafted chitosan/polyvinyl alcohol/quaternary ammonium functionalized silica for polymer electrolyte membrane fuel cells.: This article discusses the development of durable anion exchange membranes using potassium hydroxide-treated materials. The enhanced stability and conductivity of these membranes are crucial for improving the performance of polymer electrolyte membrane fuel cells. (Jang et al., 2024 ).

  • [Optimization and application of determination method of cholesterol in various dishes].: This study, written in Chinese, focuses on optimizing a method for determining cholesterol levels in different dishes using potassium hydroxide solution, which improves the accuracy and efficiency of the analytical process. (Chen et al., 2023 ).

  • Highly efficient sulfur-doped Ni(3)Fe electrocatalysts for overall water splitting: Rapid synthesis, mechanism and driven by sustainable energy.: The paper explores the use of potassium hydroxide in the rapid synthesis of sulfur-doped nickel-iron electrocatalysts. These electrocatalysts exhibit high efficiency in water splitting, driven by sustainable energy sources, offering significant advancements in renewable energy technologies. (Xu et al., 2024 ).
Packaging: 50 mL in poly bottle
UNSPSC 12000000

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