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Cobalt MOF -74-Co

Co-MOF-74, High Purity, Global Shopping, Less Price
NanowizTech cobalt metal–organic framework MOF-74-Co powder sample, Co(HCOO)₂·2H₂O structure, high-purity industrial nanomaterial with CAS No. 871658-67-2 used in adsorption and catalytic applications

NanowizTech MOF-74-Co is a high-performance cobalt-based metal–organic framework (MOF) engineered for advanced industrial, environmental, and research applications. It belongs to the MOF-74 family of porous crystalline materials known for their exceptional surface area, tunable porosity, and strong metal-ligand coordination structure.

This material is synthesized using high-purity cobalt precursors and organic linkers, forming a stable crystalline network represented by the chemical formula: Co(HCOO)₂·2H₂O. It is registered under CAS Number: 871658-67-2, making it a traceable and standardized material for global scientific and industrial use. 

NanowizTech supplies MOF-74-Co as a high-purity powder form, suitable for laboratory research, pilot-scale development, and industrial production.

Product

Cobalt MOF-74

Stock No.

NW2001-04-411

CAS

871658-67-2

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Purity

99 %

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Molecular Formula

Co(HCOO)2.2H2O

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Molecular Weight

229.60 g/mol

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Pore Size

0.45 cm³/g

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Form

Powder

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Color

Light Pink to Violet

Organic Linker

Fumaric acid (Customized)

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Surface Area

High Microporous (BET)

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Solubility

Insoluble in Water

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Main Inspect Verifier

QC In charge

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Note: Product Specification are subject to amendment and may change over time.

NanowizTech MOF-74-Co (Cobalt Metal–Organic Framework) Powder
High-Purity Cobalt MOF | Formula: Co(HCOO)₂·2H₂O | CAS: 871658-67-2

Manufacturer & Global Supplier of Advanced MOF Materials:

Introduction to MOF-74-Co (Cobalt Metal–Organic Framework):
 NanowizTech MOF-74-Co is a high-performance cobalt-based metal–organic framework (MOF) engineered for advanced industrial, environmental, and research applications. It belongs to the MOF-74 family of porous crystalline materials known for their exceptional surface area, tunable porosity, and strong metal-ligand coordination structure.

This material is synthesized using high-purity cobalt precursors and organic linkers, forming a stable crystalline network represented by the chemical formula:

Co(HCOO)₂·2H₂O

It is registered under CAS Number: 871658-67-2, making it a traceable and standardized material for global scientific and industrial use.

NanowizTech supplies MOF-74-Co as a high-purity powder form, suitable for laboratory research, pilot-scale development, and industrial production.

Chemical Identity and Technical Specifications

  • Product Name: MOF-74-Co (Cobalt Metal–Organic Framework)
  • Chemical Formula: Co(HCOO)₂·2H₂O
  • CAS Number: 871658-67-2
  • Material Type: Metal–Organic Framework (MOF)
  • Appearance: Fine crystalline powder
  • Color: Light pink to violet (depending on synthesis conditions)
  • Purity: High purity (≥ 98% typical, customizable grades available)
  • Surface Area: High microporous structure (BET dependent on batch)
  • Solubility: Insoluble in water; stable in dry conditions 

Structural Properties of MOF-74-Co

MOF-74-Co features a highly ordered porous network constructed from cobalt ions and organic linkers. This structure provides:

  • Large internal surface area for adsorption
  • Uniform pore channels for selective molecule capture
  • Strong thermal and chemical stability
  • High metal-site density for catalytic activity

The cobalt centers act as active coordination sites, making this MOF highly effective in gas adsorption, catalysis, and separation processes.

 Key Physical and Chemical Properties

 Physical Properties
  • Crystalline powder morphology
  • Nanoporous framework structure
  • High surface-to-volume ratio
  • Thermally stable under moderate conditions
Chemical Properties
  • Strong coordination bonds between cobalt and organic ligands
  • High affinity toward gases like CO₂ and H₂
  • Reactive active sites suitable for catalysis
  • Stability under controlled humidity conditions
Functional Properties

  • Gas adsorption capability
  • Selective molecular separation
  • Catalytic redox activity
  • Energy storage potential

Applications of MOF-74-Co

MOF-74-Co is widely used in advanced scientific research and industrial technologies due to its porous structure and cobalt active sites.

Gas Storage & Adsorption
  • Carbon dioxide (CO₂) capture
  • Hydrogen (H₂) storage
  • Methane storage systems
  • Selective gas separation technologies
Catalysis
  • Oxidation and reduction reactions
  • Electrochemical catalysis
  • Organic transformation reactions
  • Energy conversion systems
Environmental Applications
  • Air purification systems
  • Toxic gas removal
  • Waste gas treatment
  • Pollution control technologies
Energy Storage
  • Battery electrode research
  • Supercapacitor materials
  • Fuel cell development
Research & Academic Use
  • Material science studies
  • Nanotechnology experiments
  • Coordination chemistry research
  • Advanced porous material studies

Advantages of NanowizTech MOF-74-Co

Choosing NanowizTech MOF-74-Co offers several competitive advantages:

  • High purity and consistent quality
  • Advanced porous structure for maximum efficiency
  • Reliable large-scale manufacturing capability
  • Competitive pricing for bulk orders
  • Custom synthesis options available
  • Stable global supply chain
  • Technical documentation support

Why Choose NanowizTech MOF-74-Co?

NanowizTech MOF-74-Co is designed for users who require:

  • High-performance MOF materials
  • Reliable cobalt-based porous frameworks
  • Industrial-grade nanomaterials
  • Advanced catalytic and adsorption materials
  • Cost-effective global sourcing

It is widely trusted in chemical research, energy systems, and environmental engineering applications.

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