Our Products
For order, Contact us at zaved.khan@just.edu.bd name.lab.just@gmail.com
Gold Nanoparticle (AuNP)
To prepare a high-quality gold conjugate, it is important to have particles with uniform size and highly adsorptive surfaces. Our gold nanoparticles are prepared according to unique production protocols. This provides for sol particles with the same narrow size distribution and adsorption properties as employed in the Conventional Immunogold Reagents.
Application: AuNP can be used for fabrication of sensor, electrochemical DNA biosensor, biosensor, nano-medicine, nano-drug delivery system and it can be used as a catalyst for water purification.
Properties:
Formula: Au; Molecular Weight: 196.97; Form: Suspension; Color: Pink; Purity: 99.9%.
Our reference paper: Khan et al., Scientific Report 9, 19041 (2019).
Silica Nanoparticle
Owing to our expertise in this domain, we are engaged in providing a supreme quality Silica Nano Particle to our esteemed clients. Under the strict vigilance of our chemical experts, the offered material is processed using high grade chemicals by our experts. Furthermore, our provided chemical is highly demanded by our clients for desired optical, electrical and structural properties.
Applications: Silica nanoparticles can be used for fabrication of sensor, biosensor, nano-medicine, nano-drug delivery system and it can be used as a catalyst for water purification.
Properties:
Formula: SiO2; Molecular Weight: 60.08; Form: Powder; Color: White; Purity: 99.9%
Our reference paper: Khan et al., Scientific Report 9, 19041 (2019).
Gold nanoflower (AuNF)
The flower like 3D gold (Au) nano-shape was prepared in our laboratory. To prepare AuNF, we chose chemical reduction process and here, we used Cetrimonium bromide (CTAB) as an reducing agent. In order to ensure its purity, our researcher team test this material against various quality parameters by our experts
Application: AuNF can be used for fabrication of sensor, nano-medicine, nano-drug delivery system, food-packing and it can be used as a catalyst for water purification.
Properties:
Formula: Au; Molecular Weight: 196.97; Form: Suspension; Color: Pink; Purity: 99.9%.
Our reference paper: Khan et al., RSC Adv., 2021,11, 15565.
Gold nanocube (AuNC)
The cube like 3D gold (Au) nano-shape was prepared in our laboratory. To prepare AuNF, we chose chemical reduction process and here, we used ascorbic acid as an reducing agent.
Application: AuNC can be used for fabrication of sensor, electrochemical DNA biosensor, biosensor, nano-medicine, nano-drug delivery system and it can be used as a catalyst for water purification.
Properties:
Formula: Au; Molecular Weight: 196.97; Form: Suspension; Color: Pink; Purity: 99.9%.
Our reference paper: Khan et al., Biosensors and Bioelectronics, Volume 188, 2021, 113338. https://doi.org/10.1016/j.bios.2021.113338
Zinc Nanoball
Zinc oxide, ZnO is a multi-function metal oxide with unique physio-chemical properties, which includes high chemical stability, broad range absorption spectra and high electrochemical characteristics.
Application: ZnO nanoball can be used for fabrication of sensor, electrochemical DNA biosensor, biosensor, nano-medicine, nano-drug delivery system and it can be used as a catalyst for water purification.
Properties:
Formula: ZnO; Molecular Weight: 81.39; Form: Powder; Color: White; Purity: 99.9%.
Our reference paper: Liu et al., International Journal of Biological Macromolecules Volume 121, January 2019, 1029-1036. https://doi.org/10.1016/j.ijbiomac.2018.10.068
Zinc Oxide (ZnO) nano hollow sphere
The sphere like hollow shape ZnO was prepared through environmental friendly hydrothermal process. To prepare ZnO nano hollow sphere, we used trisodium citrate as an reducing agent.
Application: ZnO nano hollow sphere can be used for designing of nano-drug delivery system, food-packing materials, developing biosensor and it can be used as a catalyst for water purification.
Properties:
Formula: ZnO; Molecular Weight: 81.39; Form: Powder; Color: White; Purity: 99.9%.
Our reference paper: Khan et al., Scientific Reports (2021) 11:15565.
Iron oxide nanotube (Fe3O4)
Nano shape Iron oxide nanotubes was prepared through chemical reduction process. To prepare Fe3O4, we used NH4H2PO4 as an reducing agent.
Application: Fe3O4 can be used for developing electrochemical sensor, biosensor, PMC fuel cell, nanomembrane, nano-fish feed, nano-fertilizer, food-packing materials, drug delivery agent, conductive film and it can be used as a catalyst for water purification.
Properties:
Formula: Fe3O4; Molecular Weight: ; Form: 231.5326 Powder; Color: Reddish ; Purity: 99.9%.
Cupper Nano-flower (CuNF)
The 3D flower like nano shape copper particles was prepared through hydrothermal process in Teflon-lined stainless-steel autoclave reactor. To prepare CuNF, we used NaOH as an reducing agent.
Application: CuNF be used for developing electrochemical sensor, biosensor , PMC fuel cell, nanomembrane, food-packing materials, and it can be used as a catalyst for water purification.
Properties:
Formula: Cu; Molecular Weight: 63.546; Form: Powder; Color: Black; Purity: 99.9%.
Our reference paper: Khan et al., ACS Omega 2019, 4, 23, 20324–20329.
Cupper nano-cube (CuNC)
Nano sized cubic cupper particles was prepared through chemical reduction process. To prepare CuNC, we use ascorbic acid as an reducing agent.
Application: CuNC can be used for developing electrochemical sensor, biosensor, PMC fuel cell, nanomembrane, nano-fish feed, nano-fertilizer, food-packing materials, drug delivery agent, conductive film and it can be used as a catalyst for water purification.
Properties:
Formula: Cu; Molecular Weight: 63.546; Form: Powder; Color: Black; Purity: 99.9%.
Our reference paper: Khan et al., Journal of Nanomaterials Volume 2017, Article ID 5702838, https://doi.org/10.1155/2017/5702838
Sliver nanoparticle (AgNP)
Nano shape sliver particles was prepared through environmental friendly green synthesis process. To prepare AgNP, we used different leaf extracts as an reducing agent.
Application: AgNP can be used for developing electrochemical sensor, biosensor, PMC fuel cell, nanomembrane, food-packing materials, drug delivery agent, conductive film, antimicrobial film and it can be used as a catalyst for water purification.
Properties:
Formula: Ag; Molecular Weight:107.87; Form: Powder; Color: black ; Purity: 99.9%.
Our reference paper: : Khan et al., Environmental Technology & Innovation 22 (2021) 101537. https://doi.org/10.1016/j.eti.2021.101537
Titanium dioxide nanoparticle (TiO2)
Nano shape TiO2 was prepared through solvent assisted Hydrothermal process. Here, titanium (IV) isopropoxide (TTIP) was used as a precursor to prepare TiO2 nanoparticle.
Application: TiO2 can be used for developing electrochemical sensor, biosensor, PMC fuel cell, nanomembrane, nano-fish feed, nano-fertilizer, food-packing materials, drug delivery agent, conductive film and it can be used as a Photo catalyst for water purification.
Properties:
Formula: TiO2 ; Molecular Weight: 79.86 ; Form: Powder; Color: White ; Purity: 99.9%.
Our reference paper: Khan et al., Environmental Technology & Innovation 22 (2021) 101537.
Graphene Oxide (GO)
Nano sheet like GO was prepared through Modified Hammer Method. Here, graphite powder was used as a precursor to prepare GO.
Application: GO can be used for developing electrochemical sensor, biosensor, PMC fuel cell, nanomembrane, food-packing materials, drug delivery agent, conductive film and it can be used as a Photo catalyst for water purification.
Properties:
Formula: C140H42O20 ; Molecular Weight: 2043.8 (15-20 sheet) ; Form: Powder; Color: Black ; Purity: 99.9%.
Our reference paper: Khan et al., RSC Adv., 2021,11, 15565.
Multiwall carbon nanotube (MWCNT)
Nano tube shape like carbon was prepared through catalytic decomposition process. Here, Methene was used as a precursor to prepare carbon nanotube.
Application: MWCNT can be used for developing electrochemical sensor, biosensor, PMC fuel cell, nanomembrane, food-packing materials, drug delivery agent, conductive film and it can be used as a Photo catalyst for water purification.
Properties:
Formula: Form: Powder; Color: Black ; Purity: 99.9%.
Our reference paper: Khan et al., J Mater Sci (2021) 56:12803–12813.
https://doi.org/10.1007/s10853-021-06115-6