āļ‚āđ‰āļēāļĄāđ„āļ›āļĒāļąāļ‡āđ€āļ™āļ·āđ‰āļ­āļŦāļē
Merck

āđ€āļ­āļāļŠāļēāļĢāļŠāļģāļ„āļąāļ

āļ”āļđāđ€āļ­āļāļŠāļēāļĢāļ—āļąāđ‰āļ‡āļŦāļĄāļ”

900445

Graphene, monolayer film

greener alternative

1 in x 1 in on copper foil, with PMMA coating, avg. no. of layers, 1

Synonym(s):

PMMA/Graphene/Cu

āđ€āļ‚āđ‰āļēāļŠāļđāđˆāļĢāļ°āļšāļš āđ€āļžāļ·āđˆāļ­āļ”āļđāļĢāļēāļ„āļēāļŠāļģāļŦāļĢāļąāļšāļ­āļ‡āļ„āđŒāļāļĢāđāļĨāļ°āļŠāļąāļāļāļē

āđ€āļĨāļ·āļ­āļāļ‚āļ™āļēāļ”

āđ€āļ›āļĨāļĩāđˆāļĒāļ™āļāļēāļĢāļ”āļđ

āđ€āļāļĩāđˆāļĒāļ§āļāļąāļšāļŠāļīāļ™āļ„āđ‰āļēāļ™āļĩāđ‰

UNSPSC Code:
12141908
NACRES:
NA.23
āļšāļĢāļīāļāļēāļĢāļ—āļēāļ‡āđ€āļ—āļ„āļ™āļīāļ„
āļ•āđ‰āļ­āļ‡āļāļēāļĢāļ„āļ§āļēāļĄāļŠāđˆāļ§āļĒāđ€āļŦāļĨāļ·āļ­āļŦāļĢāļ·āļ­āđ„āļĄāđˆÂ āļ—āļĩāļĄāļ™āļąāļāļ§āļīāļ—āļĒāļēāļĻāļēāļŠāļ•āļĢāđŒāļ—āļĩāđˆāļĄāļĩāļ›āļĢāļ°āļŠāļšāļāļēāļĢāļ“āđŒāļ‚āļ­āļ‡āđ€āļĢāļēāļ­āļĒāļđāđˆāļ—āļĩāđˆāļ™āļĩāđˆāđ€āļžāļ·āđˆāļ­āļ„āļļāļ“
āđƒāļŦāđ‰āđ€āļĢāļēāļŠāđˆāļ§āļĒāđ€āļŦāļĨāļ·āļ­

āļŠāļ·āđˆāļ­āļŠāļīāļ™āļ„āđ‰āļē

Monolayer graphene film, 1 in x 1 in on copper foil, with PMMA coating, avg. no. of layers, 1

description

Film Coverage: >98%, Monolayer coverage: ≥92% (optical)

form

film

quality

Raman analysis-monolayer

feature

avg. no. of layers 1

greener alternative product characteristics

Design for Energy Efficiency
Learn more about the Principles of Green Chemistry.

sustainability

Greener Alternative Product

impurities

<2% (optical)

greener alternative category

Enabling

General description

We are committed to bringing you Greener Alternative Products that adhere to one of the four categories of Greener Alternatives. This enabling product synthesizes 2D materials with thin layers and high purity, enhancing applications in energy generation, transport, and storage while promoting sustainable practices. Click here for more information.
A single-layer graphene film on a copper substrate.
This product is provided with a PMMA coating on top of the graphene in order to ease the transfer process and to avoid contamination. Itâ€ēs a high quality product with great homogeneity.

Graphene film
  • Growth method: CVD synthesis
  • Appearance: Transparent film
  • Transparency: > 97%
  • Coverage: > 95%
  • Number of graphene layers: 1
  • Thickness (theoretical): 0.345 nm
  • FET Electron Mobility on Al2O3: 2000 cm2/Vs
  • FET Electron Mobility on SiO2/Si: 4000 cm2/Vs
  • Sheet Resistance on SiO2/Si: 450Âą40 ÎĐ/sq (1cm x1cm)
  • Grain size: Up to 10 Ξm

Substrate Cu Foil
  • Thickness: 18 Ξm
  • Pre-treated for easier bottom layer removal: monolayer graphene on the back side of copper is partially removed, but not completely. Therefore, an additional treatment like RIE is needed before transfer to eliminate the bottom layer totally.

PMMA Coating
  • Spin coated for high homogeneity
  • Molecular weight: 495k
  • Thickness: <100 nm
  • PMMA model: 495K, A2

Application

  • Graphene research
  • Flexible batteries
  • Electronics
  • Aerospace industry
  • MEMS and NEMS
  • Micro actuators
  • Conductive coatings

āļĒāļąāļ‡āđ„āļĄāđˆāļžāļšāļŠāļīāļ™āļ„āđ‰āļēāļ—āļĩāđˆāđƒāļŠāđˆāđƒāļŠāđˆāļŦāļĢāļ·āļ­āđ„āļĄāđˆ?

āļŠāļģāļĢāļ§āļˆāļŠāļīāļ™āļ„āđ‰āļēāļ—āļąāđ‰āļ‡āļŦāļĄāļ”āļ‚āļ­āļ‡āđ€āļĢāļēāļ āļēāļĒāđƒāļ•āđ‰ Monolayer graphene film

āļ„āļĨāļēāļŠāļāļēāļĢāļˆāļąāļ”āđ€āļāđ‡āļš

13 - Non Combustible Solids

wgk

WGK 2

flash_point_f

Not applicable

flash_point_c

Not applicable

āđ€āļĨāļ·āļ­āļāļˆāļēāļāđ€āļ§āļ­āļĢāđŒāļŠāļąāļ™āļĨāđˆāļēāļŠāļļāļ”:

āđƒāļšāļĢāļąāļšāļĢāļ­āļ‡āļœāļĨāļāļēāļĢāļ§āļīāđ€āļ„āļĢāļēāļ°āļŦāđŒ (COA)

āļŦāļĄāļēāļĒāđ€āļĨāļ‚āļĨāđ‡āļ­āļ•/āļŠāļļāļ”
MKCP3010
MKCL7278

āđ„āļĄāđˆāđ€āļŦāđ‡āļ™āđ€āļ§āļ­āļĢāđŒāļŠāļąāļ™āļ—āļĩāđˆāļ–āļđāļāļ•āđ‰āļ­āļ‡āđƒāļŠāđˆāļŦāļĢāļ·āļ­āđ„āļĄāđˆ?

āļŦāļēāļāļ•āđ‰āļ­āļ‡āļāļēāļĢāđ€āļ§āļ­āļĢāđŒāļŠāļąāļ™āđ€āļ‰āļžāļēāļ° āļŠāļēāļĄāļēāļĢāļ–āļ„āđ‰āļ™āļŦāļēāđƒāļšāļĢāļąāļšāļĢāļ­āļ‡āđ€āļ‰āļžāļēāļ°āđ„āļ”āđ‰āđ‚āļ”āļĒāđƒāļŠāđ‰āļŦāļĄāļēāļĒāđ€āļĨāļ‚āļĨāđ‡āļ­āļ•āļŦāļĢāļ·āļ­āļŠāļļāļ”āļ‚āļ­āļ‡āļŠāļīāļ™āļ„āđ‰āļē

āļ„āđ‰āļ™āļŦāļē COA

āļĄāļĩāļœāļĨāļīāļ•āļ āļąāļ“āļ‘āđŒāļ™āļĩāđ‰āļ­āļĒāļđāđˆāđāļĨāđ‰āļ§āđƒāļŠāđˆāļŦāļĢāļ·āļ­āđ„āļĄāđˆ?

āļ„āđ‰āļ™āļŦāļēāđ€āļ­āļāļŠāļēāļĢāļ‚āđ‰āļ­āļĄāļđāļĨāļŠāļģāļŦāļĢāļąāļšāļœāļĨāļīāļ•āļ āļąāļ“āļ‘āđŒāļ—āļĩāđˆāļ„āļļāļ“āđ€āļžāļīāđˆāļ‡āļ‹āļ·āđ‰āļ­āđ„āļ”āđ‰āđƒāļ™āļ„āļĨāļąāļ‡āđ€āļ­āļāļŠāļēāļĢ

āļ”āļđāļŦāđ‰āļ­āļ‡āļŠāļĄāļļāļ”āđ€āļ­āļāļŠāļēāļĢ

āļšāļ—āļ„āļ§āļēāļĄ

2D Materials in Biosensing

Professors summarize recent 2D materials synthesis advancements and biosensing applications in various fields.

Recent Advances in Scalable Synthesis and Processing of Two-Dimensional Materials

Advances in scalable synthesis and processing of two-dimensional materials

Fabrication and Electrochemical Characterization of Single and Multi-Layer Graphene Anodes for Lithium-Ion Batteries.
Radhakrishnan G,et al.
Journal of the Electrochemical Society, 159(6), A752 - A761 (2012)
Ultrathin rechargeable all-solid-state batteries based on monolayer graphene.
Wei D, et al.
Journal of Material Chemistry A, 1, 3177-3181 (2013)
Xuesong Li et al.
Science (New York, N.Y.), 324(5932), 1312-1314 (2009-05-09)
Graphene has been attracting great interest because of its distinctive band structure and physical properties. Today, graphene is limited to small sizes because it is produced mostly by exfoliating graphite. We grew large-area graphene films of the order of centimeters