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Aminated Graphene Quantum Dots

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Aminated Graphene Quantum Dots‚ Solution‚ CAS NO.: 7440-44-0

Product Detail

CAS NO.: 7440-44-0

Graphene quantum dots (GQDs) are nanoscale fragments of single- or multilayer graphene. GQDs demonstrate a number of exciting properties that make them attractive for energy, biological, optical, and environmental applications. These properties include low toxicity, chemical stability, photoluminescent stability, high transparency, a high surface area, and pronounced quantum confinement effects. The presence of quantum confinement effects means that GQDs, unlike graphene, contain a bandgap, which increases their versatility. GQDs also have four quantum states at any given energy level; semiconductor quantum dots only have two. The additional quantum states open up the possibility for use of GQDs in quantum computing.

Aminated graphene quantum dots from ACS Material are produced via the hydrothermal method. They are one of many exciting and innovative graphene quantum dot products offered by ACS Material. All our advanced nanomaterials, including aminated GQDs, are produced to meet the highest standards of quality and consistency. Call today to speak to one of our experts for exact product details and specifications.

Types of Graphene Quantum Dots Products
Product No. Product Name Type Carrier Standard Concentration Maximum Concentration Size
GNQD0101 Blue Luminescent GQDs Solution Water 1 mg/ml 20 mg/ml 100ml
GNQD0131 Eth
GNQD0151 Blue Luminescent GQDs Powder Powder - - - 100mg
GNQD0201 Aminated GQDs Solution Water 1 mg/ml 20 mg/ml 100ml
GNQD0221 Aminated GQDs Powder Powder - - - 100mg
GNQD0301 Carboxylated GQDs Solution Water 1 mg/ml 20 mg/ml 100ml
GNQD0701 Carboxylated GQDs Powder Powder - - - 100mg
GNQD0401 Chlorine Functionalized GQDs Solution Water 1 mg/ml 2 mg/ml 100ml
GNQD0511 Green GQDs Solution Eth 1 mg/ml 10 mg/ml 100ml
GNQD0501 Green GQDs Solution Water 1 mg/ml 10 mg/ml 100ml
GNQD0601 Hydroxylated GQDs Solution Water 1 mg/ml 2 mg/ml 100ml
GQDW0101 Imidazole-Modified GQDs Solution Water 1 mg/ml 10 mg/ml 100ml
GQD001A1 Imidazole-Modified GQDs Powder Powder - - - 100mg
GQD001A5 500mg
GQD00101 1g

-- New added product!

* Shelf life

  • Carboxylated and Green GQDs: ~ 3 months;
  • the rest of GQDs products:~ 6 months;
  • recommand to use them as soon as possible after open the bottle.

Please contact us if you need products other than the standard concentration and carriers listed in the table.

Preparation Method

Hydrothermal method

Characterizations

Composition:

Aminated Graphene Quantum Dots

Appearance:

Colorless solution

PL peak:

440 nm (reference only, actual value may vary)

Particle Size:

<5 nm

Concentration:

1 mg/ml (available up to 20mg/ml)

Solution:  

Water

Purity:

>80%

Emission Photos (1) of ACS Material Aminated Graphene Quantum Dots Excited

by Natural Light (left) and UV Light (right)

TEM Image (2) of ACS Material Aminated Graphene Quantum Dots

Size Distribution (3) of ACS Material Aminated Graphene Quantum Dots

Application Fields

Graphene quantum dots exhibit unique optical and electronic properties due to their quantum confinement and edge effects‚ and have a variety of novel applications‚ such as low-toxicity and photostable fluorescence probes for cell imaging and biosensing‚ low-cost acceptors for organic photovoltaic cells and light emitting diodes‚ a metal-free platform for surface-enhanced Raman scattering‚ and an upconverted sensitizer for modifying rutile TiO2 nanocrystals as a composite visible-light photocatalyst.

Conditions for Safe Storage

Please use it as soon as possible and store at 4-24 oC in a tightly sealed container. Store in same type of container (glass/plastic) as shipped. Do not freeze.

Disclaimer: ACS Material LLC believes that the information on our website is accurate and represents the best and most current information available to us. ACS Material makes no representations or warranties either express or implied, regarding the suitability of the material for any purpose or the accuracy of the information listed here. Accordingly, ACS Material will not be responsible for damages resulting from use of or reliance upon this information.

FAQ

1. Are the Aminated Graphene Quantum Dots positively or negatively charged on the surface?

Aminated Graphene Quantum Dots have negative charges. Aminated Graphene Quantum Dots are modified on the surface to provide positive charge. However, the surface contains not only amino groups, but also carboxyl and hydroxyl groups. These negative charged groups do not fully participate in the reaction, so the surface indicates a negative charge.

Research Citations of ACS Material Products

  1. Li, Changzheng, and Yanan Yue. “Fluorescence spectroscopy of graphene quantum dots: temperature effect at different excitation wavelengths.” Nanotechnology, vol. 25, no. 43, Sept. 2014, p. 435703., doi:10.1088/0957-4484/25/43/435703.
  2. Bhatnagar, Deepika, et al. “Graphene quantum dots FRET based sensor for early detection of heart attack in human.” Biosensors and Bioelectronics, vol. 79, 2016, pp. 495–499., doi:10.1016/j.bios.2015.12.083.
  3. Liu, Yang, et al. “Electro-Optical switching of liquid crystals sandwiched between ion-Beam-Spurted graphene quantum dots-Doped PEDOT:PSS composite layers.” Optics Express, vol. 23, no. 26, 2015, p. 34071., doi:10.1364/oe.23.034071.
  4. Bhatnagar, Deepika, et al. “Ultrasensitive cardiac troponin I antibody based nanohybrid sensor for rapid detection of human heart attack.” International Journal of Biological Macromolecules, vol. 95, 2017, pp. 505–510., doi:10.1016/j.ijbiomac.2016.11.037.
  5. Nieto, Andy, et al. “Graphene reinforced metal and ceramic matrix composites: a review.” International Materials Reviews, vol. 62, no. 5, 2016, pp. 241–302., doi:10.1080/09506608.2016.1219481.
  6. Bok, Chang Han, et al. “Operating mechanisms of highly-Reproducible write-Once-Read-Many-Times memory devices based on graphene quantum dot:Poly(Methyl silsesquioxane) nanocomposites.” Applied Physics Letters, vol. 110, no. 1, Apr. 2017, p. 013301., doi:10.1063/1.4973358.
  7. Kim, Do Hyeong, et al. “Highly-Reproducible nonvolatile memristive devices based on polyvinylpyrrolidone: Graphene quantum-Dot nanocomposites.” Organic Electronics, vol. 51, 2017, pp. 156–161., doi:10.1016/j.orgel.2017.09.005.
  8. Gupta, Shagun, et al. “Ultrasensitive transglutaminase based nanosensor for early detection of celiac disease in human.” International Journal of Biological Macromolecules, vol. 105, 2017, pp. 905–911., doi:10.1016/j.ijbiomac.2017.07.126.
  9. Ooi, Poh Choon, et al. “Reduced graphene oxide preparation and its applications in solution-Processed write-Once-Read-Many-Times graphene-Based memory device.” Carbon, vol. 124, 2017, pp. 547–554., doi:10.1016/j.carbon.2017.09.004.
  10. Choi, Hwan Young, et al. “Organic electronic synapses with pinched hystereses based on graphene quantum-Dot nanocomposites.” NPG Asia Materials, vol. 9, no. 7, 2017, doi:10.1038/am.2017.133.
  11. Ooi, Poh Choon, et al. “Fabrication of transparent bistable switching memory device using plasmapolymerized hexamethyldisiloxane layers with embedded graphene quantum dots.” Thin Solid Films, vol. 645, 2018, pp. 45–50., doi:10.1016/j.tsf.2017.10.044.
  12. Wang, Changhong, et al. “Computing: Memristive Devices with Highly Repeatable Analog States Boosted by Graphene Quantum Dots.” Small, vol. 13, no. 20, 2017, doi:10.1002/smll.201770110.
  13. Bakar, Elyani Abu, Mohd Ambri Mohamed, Poh Choon Ooi, MF Mohd Razip Wee, Chang Fu Dee, and Burhanuddin Yeop Majlis. "Fabrication of indium-tin-oxide free, all-solution-processed flexible nanogenerator device using nanocomposite of barium titanate and graphene quantum dots in polyvinylidene fluoride polymer matrix." Organic Electronics 61 (2018): 289-295.
  14. Ooi, Poh Choon, MF Mohd Razip Wee, Chang Fu Dee, Chi Chin Yap, Muhammad Mat Salleh, and Burhanuddin Yeop Majlis. "Fabrication of transparent bistable switching memory device using plasmapolymerized hexamethyldisiloxane layers with embedded graphene quantum dots." Thin Solid Films 645 (2018): 45-50.
  15. Sung, Sihyun, Chaoxing Wu, Hyun Soo Jung, and Tae Whan Kim. "Highly-stable write-once-read-many-times switching behaviors of 1D–1R memristive devices based on graphene quantum dot nanocomposites." Scientific reports 8, no. 1 (2018): 12081.