Tetrathiafulvalene MOF

550 INR/Gram

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Product Details:

Poisonous Yes
HS Code 29349990
Structural Formula [TTF]-M (where M = metal ion node, structure varies)
Ph Level Neutral
Purity 99% (approx)
Melting Point 275C (approx)
Other Names TTF MOF
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Tetrathiafulvalene MOF Price And Quantity

Price 550 INR/Gram
Minimum Order Quantity 1 Gram

Stability Stable under ambient conditions, sensitive to strong oxidizers
Metal Nodes Used Copper, Nickel, Zinc (varies)
Electronic Conductivity Up to 10 S/cm (dependent on metal node)
IUPAC Name 1,3,4,6-Tetrathiapentalene MOF
Packing Sealed in glass bottle
Appearance Yellow to brown microcrystalline powder
Particle Size 100-500 nm
Coordination Geometry Square planar/octrahedral (dependent on metal)
Porosity High (due to MOF structure)
Synthesis Method Solvothermal process
Shelf Life 24 months
Color Yellow to brown
Surface Area >1000 m/g (BET analysis)
Hazard Statement Not classified as hazardous
Thermal Stability Up to 270C

Tetrathiafulvalene MOF Product Specifications

Classification Organic-Inorganic Hybrid
HS Code 29349990
Poisonous Yes
Type Metal Organic Framework (MOF)
Structural Formula [TTF]-M (where M = metal ion node, structure varies)
Ph Level Neutral
Purity 99% (approx)
Melting Point 275C (approx)
Other Names TTF MOF
Form Powder
Storage Store in a cool, dry place, protected from light
Taste Odorless
Density 1.44 Gram per cubic centimeter(g/cm3)
Grade Research grade
Shape Crystalline
Application Used in electronic materials, sensor devices, and energy storage
Main Material Tetrathiafulvalene (TTF)
Standard Lab synthesis standard
Molecular Weight 192.31 g/mol (TTF Unit)
Smell Odorless
Usage As conductive framework and for functional MOF fabrication
Molecular Formula C6H4S4 (TTF Unit)
Solubility Insoluble in water; soluble in some organic solvents
Refractive Rate Not determined
Chemical Name Tetrathiafulvalene MOF

Stability Stable under ambient conditions, sensitive to strong oxidizers
Metal Nodes Used Copper, Nickel, Zinc (varies)
Electronic Conductivity Up to 10 S/cm (dependent on metal node)
IUPAC Name 1,3,4,6-Tetrathiapentalene MOF
Packing Sealed in glass bottle
Appearance Yellow to brown microcrystalline powder
Particle Size 100-500 nm
Coordination Geometry Square planar/octrahedral (dependent on metal)
Porosity High (due to MOF structure)
Synthesis Method Solvothermal process
Shelf Life 24 months
Color Yellow to brown
Surface Area >1000 m/g (BET analysis)
Hazard Statement Not classified as hazardous
Thermal Stability Up to 270C

Product Description

TetrathiafulvaleneMOF

Product	Tetrathiafulvalene Powder MOF
CAS No.	31366-25-3
Appearance	Powder
Purity	99%
Size/APS	300-500 nm(Can be customized)
Ingredient	C6H4S4
Product Code	NCZ-MOF-313-21
Molecular Weight	204.356

Tetrathiafulvalene MOF Description

TetrathiafulvaleneMOF is used as an analytical reagent and Nanochemazone produces many standardgrades when applicable, including Mil Spec (military grade); ACS, Reagent andTechnical Grade; Food, Agricultural and Pharmaceutical Grade; Optical Grade,USP and EP/BP (European Pharmacopoeia/British Pharmacopoeia) and followsapplicable ASTM testing standards. Typical and custom packaging is available.Additional technical, research and safety (MSDS) information is available as isa Reference Calculator for converting relevant units of measurement.

High Porosity and Surface Area

The intrinsically porous framework of Tetrathiafulvalene MOF allows for a surface area exceeding 1000 m2/g, as demonstrated via BET analysis. This high porosity is key for applications in catalysis, gas storage, and molecular separation, enhancing its value in scientific and industrial research.

Outstanding Electronic Conductivity

Thanks to the conductive nature of the tetrathiafulvalene backbone and the choice of metal ion (copper, nickel, or zinc), this MOF offers electronic conductivity up to 101 S/cm. Such properties make it a proven material in developing advanced sensor devices and electronic materials.

Safe and Stable Handling

TTF MOF stays stable under general storage conditions (cool, dry place; protected from light), is non-toxic, and is not classified as hazardous. Users benefit from a shelf life of up to 24 months, and its insolubility in water makes it manageable in handling and processing across various laboratory settings.

FAQ's of Tetrathiafulvalene MOF:

Q: How should Tetrathiafulvalene MOF be stored for optimal stability?

A: TTF MOF should be stored in a sealed glass bottle in a cool, dry place, away from direct light and strong oxidizers to maintain its stability and extend its shelf life up to 24 months.

Q: What process is used to synthesize Tetrathiafulvalene MOF?

A: This material is produced using a solvothermal process, allowing tetrathiafulvalene to coordinate with selectable metal nodes (such as copper, nickel, or zinc) to create a crystalline and highly porous MOF.

Q: Where can Tetrathiafulvalene MOF be applied for optimal benefit?

A: TTF MOF finds ideal use in electronic materials, sensor devices, and energy storage solutions, owing to its high conductivity, porosity, and structural versatility.

Q: When is it safe to handle and use TTF MOF?

A: TTF MOF is considered safe for handling under ambient laboratory conditions, as it is non-toxic and not classified as hazardous. However, it should be kept away from strong oxidizers.

Q: What are the main advantages of using Tetrathiafulvalene MOF in research?

A: The main advantages include its high porosity, excellent electronic conductivity, thermal stability up to 270C, and a research-grade purity of about 99%, making it a valuable framework for innovative material development.

Q: How is Tetrathiafulvalene MOF typically used in functional applications?

A: Researchers use TTF MOF as a conductive framework and a foundation for fabricating multifunctional MOFs, particularly in advanced electronic components, sensors, and energy-related devices.

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