Carbon films on Nickel Grids

Get a Price/Quote

Product Details:

Form Solid thin film on grid
Structural Formula Amorphous/disordered carbon on crystalline nickel
HS Code 7017
Solubility Insoluble in water and most solvents
Other Names Nickel grid with carbon support, TEM grid
Density 8.9 Gram per cubic centimeter(g/cm3)
Storage Store in dry, clean environment; avoid contamination
Click to View more
Share Your Product:

Request to Call Back Send Inquiry

Carbon films on Nickel Grids Product Specifications

CAS No Nickel: 7440-02-0, Carbon: 7440-44-0
Ph Level Neutral
Shape Round mesh grid
Purity Carbon film >99.8%; Nickel grid >99.5%
Type Ultra-thin carbon film coated nickel grid
Grade Research/GPC
Density 8.9 Gram per cubic centimeter(g/cm3)
Storage Store in dry, clean environment; avoid contamination
HS Code 7017
Solubility Insoluble in water and most solvents
Other Names Nickel grid with carbon support, TEM grid
Form Solid thin film on grid
Structural Formula Amorphous/disordered carbon on crystalline nickel
Chemical Name Carbon (C) on Nickel (Ni)
Main Material High purity carbon film on nickel mesh
Molecular Weight C: 12.01 g/mol, Ni: 58.69 g/mol
Application TEM support, electron microscopy analysis, materials science research
Boiling point Nickel ~2913C, Carbon sublimes ~3642C
Classification Non-toxic, safe for laboratory use
Poisonous Yes
Refractive Rate Not applicable (grid material)
Usage Microscopy sample preparation, biological and materials imaging
EINECS No 231-153-3 (Nickel), 231-955-3 (Carbon)
Melting Point Nickel ~1455C, Carbon sublime ~3642C
Molecular Formula C (carbon), Ni (nickel)
Standard Meets international EM grid specifications
Smell Odorless

Carbon films on Nickel Grids Trade Information

Payment Terms Telegraphic Transfer (T/T), Paypal, Cash in Advance (CID), Cheque
Main Domestic Market All India

Product Description

Carbon films on nickel grids are thin and highly transparent to electrons, offering fine grain and low contrast that does not interfere with specimen structure.

Supplied as packs of 25 or 50 grids in a grid box.

Carbon support films can be applied to other grid sizes, material or type. Further details available on request.

Exceptional Support for Electron Microscopy

Designed for use in TEM, STEM, and SEM, these nickel grids with ultra-thin carbon films offer a stable and smooth support layer that enhances sample visibility and reduces background noise. Their robust thermal and electrical properties enable advanced imaging and analytical techniques, essential for materials science and biological research.

High Purity and Structural Integrity

Crafted from research-grade carbon and nickel, the grids ensure contamination-free imaging and maintain uniform thickness. Their non-toxic nature and RoHS compliance make them safe for all laboratory environments, while their amorphous carbon on crystalline nickel composition provides excellent mechanical and conductive properties.

Reliable and Long-Lasting Storage

Supplied in specialized grid boxes, these grids are protected from physical damage and contamination. With an indefinite shelf life when stored in clean, dry conditions, researchers benefit from easy handling, repeatable results, and confidence in the longevity of their microscopy supplies.

FAQs of Carbon films on Nickel Grids:

Q: How should carbon films on nickel grids be stored to maintain quality?

A: Store the grids in a clean, dry environment using the provided protective grid boxes. Avoid exposure to moisture and contamination to ensure optimal performance and indefinite shelf life.

Q: What process is used to prepare these nickel grids with carbon films for microscopy application?

A: Nickel grids are coated with a continuous, ultra-thin film of high-purity carbon, resulting in a smooth and defect-free surface. This structure provides mechanical stability and excellent electron transparency for TEM, STEM, or SEM analyses.

Q: Where can these carbon-coated nickel grids be used?

A: These grids are suitable for laboratories conducting transmission electron microscopy (TEM), scanning transmission electron microscopy (STEM), and scanning electron microscopy (SEM), and are often used in research for biological and materials science sample preparation.

Q: What are the main benefits of using carbon films on nickel grids in electron microscopy?

A: Benefits include high electrical conductivity, thermal stability, a smooth imaging surface, robust support for ultra-thin samples, and non-toxic, RoHS-compliant materials, improving image clarity and sample handling.

Q: When is sterilization necessary, and how can these grids be sterilized?

A: Sterilization is recommended before imaging biological specimens. The grids can be easily sterilized using plasma or ethanol without affecting the integrity of the carbon or nickel components.

Q: Why is thickness uniformity important for electron microscopy grids?

A: Thickness uniformity of the carbon film ensures consistent imaging conditions, minimizes background noise, and enables accurate analysis of sample features across the entire mesh grid.

Q: What makes these grids advantageous for high-vacuum environments?

A: The grids high thermal stability and insolubility in water or common solvents ensure they perform reliably in high-vacuum settings, maintaining their structural integrity and sample support throughout rigorous analytical procedures.

Tell us about your requirement

Price:

Quantity

Select Unit

50
100
200
250
500
1000+

Additional detail

Mobile number

Other Products in 'Speciality Chemicals & Materials' category

Formvar on 3mm 100 Mesh Ni Grids (Pack of 25) Grade : Other, Laboratory/Research grade Storage : Other, Store in a dry, dustfree container at room temperature Form : Other, Solid, mesh grid with film Application : Other, Support film for Transmission Electron Microscopy (TEM) specimen preparation Smell : Other, Odorless Purity : High purity nickel grid, ultraclean Formvar film Type : Precoated TEM grids Shape : Other, Circular grid with square mesh openings Density : 8.90 Gram per cubic centimeter(g/cm3) Ph Level : Neutral (Formvar) / Not applicable for grid CAS No : 9002895 (Formvar polymer) / 7440020 (Nickel) Main Material : Nickel (Ni) grid with Formvar film coating Chemical Name : Polyvinyl Formal (Formvar) on Nickel grid Other Names : Formvarcoated Nickel grid HS Code : 70179090 Solubility : Insoluble in water, soluble in organic solvents like chloroform and acetone Structural Formula : Polyvinyl formal polymer structure for Formvar Usage : Holds ultrathin sections or particles for electron microscopy imaging Melting Point : Fastens onto grid at approx. 180C Classification : Other, Microscopy grid, Consumable Molecular Weight : Formvar: Variable / Nickel: 58.69 g/mol Poisonous : Yes Molecular Formula : Formvar: (C2H4O)n / Nickel: Ni Standard : Meets international TEM grid specifications

Send Inquiry

Formvar on 3mm 100 Mesh Au Grids (Pack of 25) Grade : Other, Electron microscopy grade Storage : Other, Store in cool, dry environment, avoid humidity Form : Other, Solid grid with thin polymer film Application : Other, TEM support film, electron microscopy, particle support Smell : Other, Odorless Purity : Gold grids: 99.9% Au; Formvar: high purity Type : 100 mesh gold grid with Formvar film Shape : Other, Round grid Density : 1.25 Gram per cubic centimeter(g/cm3) Ph Level : Neutral CAS No : 63148652 (Formvar film) Main Material : Formvar (polyvinyl formal) on Gold (Au) grid Chemical Name : Polyvinyl formal (embedded as Formvar) Other Names : Formvarcoated gold grids HS Code : 81059010 Solubility : Insoluble in water, soluble in aromatic and chlorinated hydrocarbons Structural Formula : Polyvinyl formal repeating units Usage : Sample mounting for transmission electron microscopy Melting Point : No clear melting point (thermoplastic polymer, softens 150200C) Classification : Other, Support film on gold mesh grid Molecular Weight : Variable (Formvar: depends on polymerization) Poisonous : Yes Molecular Formula : [C2H3O]n (Formvar film), Au (grid) Standard : Electron microscopy consumable standard

Send Inquiry

INDIUM TIN OXIDE COATED GLASS (ITO) Grade : Industrial Grade Storage : Room Temperature Form : Other Application : Industrial Smell : Other

Send Inquiry

3D Graphene on Nickel/Copper Foam Price : 650 INR/Bottle Minimum Order Quantity : 1

Send Inquiry

SEND INQUIRY CALL ME FREE