Production Method
Top-down method (by Carbon fiber)
Applications
Nanocomposite materials
Graphene based field effect transistor (GFET)
Energy conversion & storage
Chemical reaction catalyst
Drug delivery carrier
Tissue engineering
Measurement data
Photograph under UV light |
|||
Photoluminescence (PL) spectra |
|||
Figure 3. TEM and AFM images of GOQDs (A, B), 5 h reduced GQDs (C, D), and 10 h reduced GQDs (E, F), respectively. The AFM scan ranges are 3㎛ X 3㎛. | |||
(e) TEM image of monolayer graphene supported by holely carbon grids. (f, g) Low and high-resolution TEM images of N-GQSs on a graphene-supported grid. |
Figure 1. Schematic of device, and TEM and AFM images of GQDs. Schematic of OPV device with a GQD-incorporated PEDOT:PSS layer, and TEM images of the GQDs. The scale bar is 20nm on the TEM image, and 5nm on the inset image. AFM image of GQDs (5㎛ by 5㎛) and height distribution from A to B.
Reference
(1) J. Moon et al. One-Step Synthesis of N-Doped Graphene Quantum Sheets from Monolayer Graphene by Nitrogen Plasma. Adv. Mater. 26, 3501?3505 (2014).
(2) Jung Kyu Kim*, Sangjin Kim* et al. Graphene Quantum Dots Incorporated Hole Extraction Layer for Efficient Organic Photovoltaics. Sci. Rep. 5, 14276
Nature Nanotechnology 2010 cover image.
Coverage at above 95%, low residue. Most optimized R&D environment.
Vacuum packaged, nitrogen filled. Easy to handle.
We give advice and make suggestions to the beginners in graphene research. Offer Graphene on various and unique substrates.
We promise to deliver a level of quality unmatched and to our customers’ satisfaction.
Understanding of the whole process from the graphene synthesis, transfer, proper packaging with sound research is our key to success.
Order process | Customer order and payment confirmation | Produce graphene | Packaging | Delivery |
---|---|---|---|---|
Status | Review and confirm customer order | Produce and inspect for high quality product | Expert and protective packaging for S&H | Estimated time of delivery is three business days Detailed shipment tracking on fedex.com |
I would like to know Graphene Square’s graphene synthesis and transfer process.
1) Graphene synthesis process by Thermal CVD equipment
2) PMMA coating
3) Back side etching (using RIE)
4) Cu foil etching using APS solution
5) Rinse using DIW water
6) Transfer onto substrate, dry by baking on hot plate
7) Remove PMMA by dipping in Acetone
8) Quality check (Optical microscope, Raman spectroscope)
9) Vacuum package, shipping
Are you able to offer CVD Graphene on Cu foil in sizes besides what is currently being offered?
Currently, the smallest size we offer [TCVD Graphene on Cu foil] is 50x50mm while the larger size offered is 80x80mm. If you are in need of smaller sizes then what we offer, we suggest that you purchase a 50x50mm and cut into required sizes. If you need sizes larger then 80x80mm, then you can send and email to below email address. info@graphenesq.com
I am handling graphene for the first time and I am trying to start with graphene on substrates (SiO2/Si wafer, glass, PET,,,). Please advise.
It may be possible to purchase graphene on Cu foil and do the transfer process even as a beginner, however, there may be multiple trial and error processes. As a result, we would suggest purchasing our graphene transferred on substrates or if you are in need of our graphene transfer service, we can provide such service customers’ substrate as well. < Custom Made Order link >
For Stacked graphene, is the transfer process done after PMMA coating of each layer? If not, what is the transfer process for Stacked graphene?
For multiple layers, we use graphene on Cu foil to initiate and perform overlapping process. The basic process is as follows: take [Graphene/Cu foil] and scoop from underneath [PMMA/Graphene] using DI water bath resulting in [PMMA/Graphene/Graphene/Cu foil]. Afterwards, Cu foil can be etched away and the above process can be repeated to make multiple layers of graphene.
Can graphene be mixed and used to make products using product molds or presses?
As you may know, graphene can be acquired in two methods. 1) Top down: mechanically exfoliating carbon from graphite to make graphene powder or graphene oxide, 2) Bottom up: since carbon is composed of gas (ex. CH4, C2H4,,,) graphene film can be synthesized at high temperature through the CVD method. One of the options can be considered depending on the research goals. Due to graphene’s characteristics, the theoretical prices and actual sample prices can vary and the characteristics of graphene powder and graphene film differ as well. As a result, when mixing graphene with other materials, graphene powder may be more appropriate. You would have to perform tests to find the right mixture ratios, but generally, mixing graphene powder with other materials to further manufacture products using molds or presses are possible.
How can I make graphene samples on substrates using dry transfer method?
For dry transfer, there are two main options: 1) Thermal release tape [TRT], 2) Pressure Sensitive Adhesive Film [PSAF]. The common requirement is that both methods require pressure using a laminator.
1) TRT: apply TRT with level pressure and temperature (100~110℃) simultaneously so that graphene can be released from the base surface of TRT onto the target substrate [based upon long period of experience and know-how, TRT is the suggested option versus PSAF].
2) PSAF: apply PSAF with level pressure from the base surface of PSAF onto the target substrate.
I would like to know Graphene Square’s graphene synthesis and transfer process.
1) Graphene synthesis process by Thermal CVD equipment
2) PMMA coating
3) Back side etching (using RIE)
4) Cu foil etching using APS solution
5) Rinse using DIW water
6) Transfer onto substrate, dry by baking on hot plate
7) Remove PMMA by dipping in Acetone
8) Quality check (Optical microscope, Raman spectroscope)
9) Vacuum package, shipping
Are you able to offer CVD Graphene on Cu foil in sizes besides what is currently being offered?
Currently, the smallest size we offer [TCVD Graphene on Cu foil] is 50x50mm while the larger size offered is 80x80mm. If you are in need of smaller sizes then what we offer, we suggest that you purchase a 50x50mm and cut into required sizes. If you need sizes larger then 80x80mm, then you can send an email request to below email address. info@graphenesq.com
I would like to know Graphene Square’s graphene synthesis and transfer process.
1) Graphene synthesis process by Thermal CVD equipment
2) PMMA coating
3) Back side etching (using RIE)
4) Cu foil etching using APS solution
5) Rinse using DIW water
6) Transfer onto substrate, dry by baking on hot plate
7) Remove PMMA by dipping in Acetone
8) Quality check (Optical microscope, Raman spectroscope)
9) Vacuum package, shipping
I am handling graphene for the first time and I am trying to start with graphene on substrates (SiO2/Si wafer, glass, PET,,,). Please advise.
It may be possible to purchase graphene on Cu foil and do the transfer process even as a beginner, however, there may be multiple trial and error processes. As a result, we would suggest purchasing our graphene transferred on substrates or if you are in need of our graphene transfer service, we provide such service on customers' substrates as well. < Custom Made Order link >
I would like to know Graphene Square’s graphene synthesis and transfer process.
1) Graphene synthesis process by Thermal CVD equipment
2) PMMA coating
3) Back side etching (using RIE)
4) Cu foil etching using APS solution
5) Rinse using DIW water
6) Transfer onto substrate, dry by baking on hot plate
7) Remove PMMA by dipping in Acetone
8) Quality check (Optical microscope, Raman spectroscope)
9) Vacuum package, shipping
Can graphene be mixed and used to make products using product molds or presses?
As you may know, graphene can be acquired in two methods. 1) Top down: mechanically exfoliating carbon from graphite to make graphene powder or graphene oxide, 2) Bottom up: since carbon is composed of gas (ex. CH4, C2H4,,,) graphene film can be synthesized at high temperature through the CVD method. One of the options can be considered depending on the research goals. Due to graphene’s characteristics, the theoretical prices and actual sample prices can vary and the characteristics of graphene powder and graphene film differ as well. As a result, when mixing graphene with other materials, graphene powder may be more appropriate. You would have to perform tests to find the right mixture ratios, but generally, mixing graphene powder with other materials to further manufacture products using molds or presses are possible.
I would like to know Graphene Square’s graphene synthesis and transfer process.
1) Graphene synthesis process by Thermal CVD equipment
2) PMMA coating
3) Back side etching (using RIE)
4) Cu foil etching using APS solution
5) Rinse using DIW water
6) Transfer onto substrate, dry by baking on hot plate
7) Remove PMMA by dipping in Acetone
8) Quality check (Optical microscope, Raman spectroscope)
9) Vacuum package, shipping
How can I make graphene samples on substrates using dry transfer method?
For dry transfer, there are two main options: 1) Thermal Release Tape [TRT], 2) Pressure Sensitive Adhesive Film [PSAF]. The common requirement is that both methods require pressure using a laminator.
1) TRT: apply TRT with level pressure and temperature (100~110℃) simultaneously so that graphene can be released from the base surface of TRT onto the target substrate [based upon long period of experience and know-how, TRT is the suggested option versus PSAF].
2) PSAF: apply PSAF with level pressure from the base surface of PSAF onto the target substrate.
For Stacked graphene, is the transfer process done after PMMA coating of each layer? If not, what is the transfer process for Stacked graphene?
For multiple layers, we use graphene on Cu foil to initiate and perform overlapping process. The basic process is as follows: take [Graphene/Cu foil] and scoop from underneath [PMMA/Graphene] using DI water bath resulting in [PMMA/Graphene/Graphene/Cu foil]. Afterwards, Cu foil can etched away and the above process can be repeated to make multiple layers of graphene.
Graphene Square Inc.
#407, Business Innovation Center for Advanced Technology, 77, Cheongam-ro, Nam-gu, Pohang-si, Gyeongsangbuk-do, Republic of Korea
TEL +82-31-548-2042
FAX +82-70-5080-0292
info@graphenesq.com
Graphene Square R&D Center
B-dong 1F, Advanced Institute of Convergence Technology,145, Gwanggyo-ro, Yeongtong-gu, Suwon-si, Gyeonggi-do, Republic of Korea
TEL +82-31-548-2042
FAX +82-70-5080-0292
info@graphenesq.com
Graphene Square Inc. (US) B555 West 5th Street, Los Angeles, California 90013,United States of America TEL +82-31-548-2042 FAX +82-70-5080-0292 info@graphenesq.com
R&D Sample/Equipment Inquiry Won Bae Lee TEL +82-31-548-2042 EMAIL wblee@graphenesq.com
Distributor/Dealership Inquiry Sales & Marketing Team TEL +82-31-548-2042 EMAIL sales.marketing@graphenesq.com
COPYRIGHT(R) GRAPHENE SQUARE INC. ALL RIGHTS RESERVED. Inquiry: info@graphenesq.com