Potassium Tris(trifluoromethanesulfonyl)methanide

≥98%

Reagent Code: #87949
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CAS Number 114395-69-6

science Other reagents with same CAS 114395-69-6

blur_circular Chemical Specifications

scatter_plot Molecular Information
Weight 450.3 g/mol
Formula C₄F₉KO₆S₃
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MDL Number MFCD18072174
inventory_2 Storage & Handling
Storage room temperature

description Product Description

Widely used as a highly effective electrolyte additive in lithium-ion batteries, it enhances ionic conductivity and improves battery performance, particularly at low temperatures. Its ability to stabilize the electrode-electrolyte interface helps in extending the battery's lifespan and safety. Additionally, it serves as a key component in supercapacitors, contributing to higher energy density and efficiency. In organic synthesis, it acts as a strong, non-nucleophilic base, facilitating various reactions, including deprotonation and polymerization processes. Its unique properties also make it valuable in advanced material science for developing conductive polymers and other functional materials.

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Test Parameter Specification
Appearance White to very pale yellow crystal to powder
Purity 97.5-100
Infrared Spectrum Conforms to Structure

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Size Availability Unit Price Quantity
inventory 1g
10-20 days ฿18,420.00
inventory 50mg
10-20 days ฿2,680.00
inventory 200mg
10-20 days ฿4,880.00

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Potassium Tris(trifluoromethanesulfonyl)methanide
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Widely used as a highly effective electrolyte additive in lithium-ion batteries, it enhances ionic conductivity and improves battery performance, particularly at low temperatures. Its ability to stabilize the electrode-electrolyte interface helps in extending the battery's lifespan and safety. Additionally, it serves as a key component in supercapacitors, contributing to higher energy density and efficiency. In organic synthesis, it acts as a strong, non-nucleophilic base, facilitating various reactions,

Widely used as a highly effective electrolyte additive in lithium-ion batteries, it enhances ionic conductivity and improves battery performance, particularly at low temperatures. Its ability to stabilize the electrode-electrolyte interface helps in extending the battery's lifespan and safety. Additionally, it serves as a key component in supercapacitors, contributing to higher energy density and efficiency. In organic synthesis, it acts as a strong, non-nucleophilic base, facilitating various reactions, including deprotonation and polymerization processes. Its unique properties also make it valuable in advanced material science for developing conductive polymers and other functional materials.

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