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Highly Ordered Pyrolytic Graphite Sheet (HOPG, Thickness: 0.03mm, Purity: 99.9%)

Highly Ordered Pyrolytic Graphite Sheet
Product No NRE-46008
CAS NA
Purity NA
Hardness 85 shore A
Density 1.5 g/cm³
Structure NA
Color Dark Grey
Thickness 0.03mm
Thermal Resistance 0.07 °C –in2/w
Thermal Conductivity 700w/m.k (X-Y axis)

Highly Ordered Pyrolytic Graphite Sheet

Introduction:

Highly Ordered Pyrolytic Graphite sheet are advanced materials characterized by their exceptional crystallinity and uniform structure. Produced through the pyrolysis of carbon-rich precursors, HOPG exhibits outstanding thermal and electrical conductivity, highly mechanical strength, and excellent thermal stability. These properties make it ideal for a wide range of applications in various industries.

Applications

Electronics:

Heat Sinks: Used in electronic devices to dissipate heat efficiently from components, helping maintain optimal operating temperatures.

Conductive Layers: Serves as conductive layers in devices such as touch screens and sensors, where highly conductivity and low resistance are critical.

Scientific Research:

Sample Holder in TEM: Commonly employed as substrates in transmission electron microscopy (TEM) for studying nanomaterials, due to its flatness and thermal stability.

Graphene Research: Used as a substrate for the growth of graphene and other two-dimensional materials, facilitating research in nanotechnology and materials science.

Battery Technologies:

Electrodes: Incorporated into lithium-ion batteries and supercapacitors as electrode materials, where highly conductivity and surface area enhance performance.

Thermal Management:

Thermal Interface Materials: Employed as thermal interface materials in various applications, improving heat transfer between components.

Aerospace and Defense:

Used in aerospace applications for thermal protection and as part of lightweight structural components, where strength-to-weight ratio is crucial.

Nuclear Applications:

Utilized as neutron reflectors or moderators in nuclear reactors due to its low neutron absorption cross-section.

Medical Devices:

Applied in certain medical equipment and imaging devices for its electrical properties and stability at highly temperatures.

 

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