C0052 Chitosan nanoparticles
Chitosan has high antibacterial activity and low toxicity, and it applied in pharmacy for time dependend release of drugs and in spray form for treatment of fruits and vegetables to extend their time storage life
C0166 Colloidal cobalt
Water soluble magnetic nanoparticles of cobalt. They are more stable to oxygen oxidation in comparison to iron nanoparticles.
C0165 Colloidal copper
Water soluble copper nanoparticles.
C0066 Colloidal gold nonconjugated
It is electron dense marker and has a wide application in electron microscopy, light microscopy, blotting procedures. Recently conjugates of antibodies with colloidal gold were applied for quantitative photometric determination of appropriate antigens. Colloidal gold conjugated with antibodies are applied widely also for qualitative determination of appropriate antigens in strips. Recently new ways for application of colloidal gold also were presented. Modified colloidal gold is able to bind DNA and to detect hybridization. Colloidal gold for various purposes is prepared with various sizes. We can supply the following sizes 3-5 nm, 13-15 nm, and 20 nm, 40 nm 50 nm that can be used in various research areas. Concentration: approximately 0.01% A520 =approximately 0.75.
1. Gheorghean WD et al Passive gold agglutination : an alternative to passive hemagglutination JIM 1980, v. 34, 11-21
2. Leuvering JHW Sol particle immunoassay J.Immunoassay 1980, v. 1, N 1, 77-91
3.Goodman SL et al Colloidal gold markers and probes for routine application in microscopy J.Microscopy 1981, v. 123, N 2, 201-213
4.Brada D et al Golden blot detection of polyclonal and monoclonal antibodies bound to antigen on nitrocellulose by protein A-gold complexes Anal Biochem 1984, v. 142, N 1, 79-83.
5. Moeremans M et al Sensitive colloid metal (gold or silver)staining of protein blots on nitrocellulose membranes Anal Biochem 1985, v. 145, 315-321.
6.Tomlinson S Detection of biotinilated nucleic acid hybrids by antibody-coated gold colloid Anal Biochem 1988, v. 171, N 1, 217-222.
7. Bain CD et al Formation of monolayers by the coadsorption of thiol on gold: variation in the head,group, tail group and solvent JACS 1989, v. 111, 7155.
C0116 Colloidal gold functionalized with amino groups
Functionalized with amino groups for consequent covalent binding of various ligands.
C0117 Colloidal gold functionalized with carboxy groups
Functionalized with carboxy groups for consequent covalent binding of various ligands.
C0118 Colloidal gold functionalized with hydroxy groups
Functionalized with hydroxy groups for consequent covalent binding of various ligands.
C0175 Colloidal gold covered with EDTA for special applications
C0168 Colloidal gold nanorods
Aspect ratio less than 5, Second plasmon resonance band less than 850 nm
C0119 Colloidal palladium
Water soluble palladium nanoparticles.
C0122 Colloidal silver nonconjugated
The preparation can be applied in immunoagglutination assays for detection of various antigens prepared from 1 mM of AgNO3
C0173 Colloidal silver (spherical) covered with EDTA
The preparation can be used in specific applications
C0127 Colloidal silver nonconjugated (concentrated)
Similar to C00122 but more concentrated and prepared from 3 mM of AgNO3
C0170 Colloidal silver functionalyzed with amino groups
Functionalyzed with amino groups for consequent covalent binding of various ligands
C0171 Colloidal silver functionalyzed with carboxyl groups
Functionalyzed with carboxyl groups for consequent covalent binding of various ligands
C0172 Colloidal silver functionalyzed with hydroxyl groups
Functionalyzed with hydroxyl groups for consequent covalent binding of various ligands
C0136 Colloidal silver (anisotropic)
These nanoparticles have unique optical properties. They have two bands of plasmon resonance. One of them is about 400 nm but other is tunable and can be in range from 580-680 nm. This band is sensitive to any border effect and such nanoparticles can be very useful in various biosensors.
C0174 Colloidal silver (anisotropic) covered with EDTA
Product can be used in specified applications.
S0167 Silver nanoparticle ink
The preparation can be used in screen printed processes.
M0161 Magnetic nanoparticles of iron
Stable water solution of nanoparticles with sizes between 10-50 nm.They can be applied for conjugation with various biomolecules for consequent bioassay with magnetic separation.
L.H Reddy, JL. Arias, J.Nicolas, P. Couvreur Magnetic Nanoparticles: Design and Characterization, Toxicity and Biocompatibility, Pharmaceutical and Biomedical Applications Chem Rev 2012, v 112, N 11, pp 5818–5878
Quantum dots (QDs) are inorganic semiconductor nanocrystals that have tunable fluorescence properties. QDs have high quantum yields, broad absorption spectra, narrow size-tunable emissions, and are resistant to photobleaching as well as to chemical degradation. Quantum dots (QDs) have the potential to become a new class of fluorescent probes for many biological and biomedical applications. Our quantum dots are water soluble and they can be applied directly for conjugation of biomolecules
Q0162 Ag2S quantum dot
Water soluble Ag2S quantum dots with a narrow band gap and low toxicity, nanoparticles of Ag2S are potential candidates as a visualization agents in in vivo researches
Q0163 Ag2Se quantum dot
Water soluble Ag2Se quantum dots with a narrow band gap and low toxicity, nanoparticles of Ag2Se are potential candidates as a visualization agents in in vivo researches
Q0120 Carbon quantum dot
Water soluble low toxicity carbon quantum dot. These nanoparticles have fluorescence in range from 450-470 nm by excitation at 380-390 nm
Q0140 CdSe quantum dot fluorescence band in range of 540-580nm
Water soluble CdSe Quantum dot. These nanoparticles have fluorescence in range from 540 to 590 nm