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920118

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CVD graphene on silicon wafer, R2R Monolayer small grain

4 in diameter, avg. no. of layers, 1

Synonym(s):

Roll-to-Roll graphene

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About This Item

UNSPSC Code:
12352103
NACRES:
NA.23

product name

R2R Monolayer small grain CVD graphene on silicon wafer, 4 in diameter, avg. no. of layers, 1

Quality Level

description

Growth method: roll-to-roll CVD
Wafer: SiO2 (300nm) Si
Number of layer: Monolayer
Raman intensity 2D/G: ≥1.5

feature

avg. no. of layers 1

sheet resistance

240 Ω/sq ±10%

size

5 μm × 5 μm ± 10%, grain size

surface coverage

surface coverage >98%

transmittance

>97%

semiconductor properties

(mobility>1500 cm2/V·s) (Hall effect measurements)

General description

Be cautious not to drop
Keep away from contamination, heat, dust and flame etc.
Roll-to-roll, high-quality, monolayer CVD graphene with small grain size (∼5μm2) on silicon wafer, 4 inch diameter.

Application

Our Roll-to-Roll CVD graphene products are true monolayer high quality graphene, fabricated inside a Cleanroom, heavily monitored and QC to assure high reproducibility.
The roll-to-roll process allows continuous, large scale graphene production.

This small grain size product is made by transferring roll-to-roll CVD graphene onto silicon wafer. It is ready-to-use with low sheet resistance, and would enable unmatched reproducibility and allow high performance for CVD graphene based cell culture scaffold, biosensors and chemically gated sensors.

Storage and Stability

Avoid direct sun light, avoid high temperature, avoid high humidity, and avoid dust.

Legal Information

Product of LG Electronics, R&D use only

Storage Class Code

11 - Combustible Solids

WGK

WGK 3


Certificates of Analysis (COA)

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Jinglei Ping et al.
ACS nano, 10(9), 8700-8704 (2016-08-18)
Scalable production of all-electronic DNA biosensors with high sensitivity and selectivity is a critical enabling step for research and applications associated with detection of DNA hybridization. We have developed a scalable and very reproducible (>90% yield) fabrication process for label-free
Omid Akhavan
Journal of materials chemistry. B, 4(19), 3169-3190 (2016-05-21)
Although graphene/stem cell-based tissue engineering has recently emerged and has promisingly and progressively been utilized for developing one of the most effective regenerative nanomedicines, it suffers from low differentiation efficiency, low hybridization after transplantation and lack of appropriate scaffolds required
Bing Deng et al.
Advanced materials (Deerfield Beach, Fla.), 31(9), e1800996-e1800996 (2018-10-03)
Chemical vapor deposition (CVD) is considered to be an efficient method for fabricating large-area and high-quality graphene films due to its excellent controllability and scalability. Great efforts have been made to control the growth of graphene to achieve large domain

Articles

Dr. Xiang’s and Maruyama’s review presents the most recent research activities on 1D vdWHs, including the candidate materials, the synthetic techniques, and characterization methods. The optoelectronic applications are discussed in detail for different constructions of the 1D vdWHs-based devices (FETs, sensors, LEDs, photovoltaic devices, and light detection). Some challenges and perspectives for future development and applications of 1D vdWHs are also proposed to conclude the review.

Our team of scientists has experience in all areas of research including Life Science, Material Science, Chemical Synthesis, Chromatography, Analytical and many others.

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