1-866-344-3954
Transferrin - 100nm Gold Conjugate (1ml)
Transferrin - 100nm Gold Conjugate (1ml)
Transferrin - 100nm Gold Conjugate (1ml)
Transferrin - 100nm Gold Conjugate (1ml)
Transferrin - 100nm Gold Conjugate (1ml)
Transferrin - 100nm Gold Conjugate (1ml)
(Click to see larger image and other views)
SKU: AC-100-07
Transferrin conjugated 100nm gold nanoparticles (1ml, OD3)
Price: $225.00
Product Details
Gold nanoparticle core size: 100nm
Optical density: 3OD (conc. 1.15E+10 particles/ml)
Conjugated protein: Holo-Transferrin
Supplied in: 0.01M PBS (pH 7.4), 20% glycerol (v/v), 1% BSA

Applications

Transferrin gold conjugates are suitable for use in cell uptake studies and can be detected using light microscopy (requires silver enhancement), darkfield microscopy, and electron microscopy. 

Advantages of Transferrin Gold Conjugates

  • Readily taken up by cells
  • Provides a permanent label

Storage/Stability

Store undiluted in storage buffer at 2-8oC. Stable for 4 months if stored as specified. 
Storage of conjugate at working dilution may result in performance loss.

Can't find the conjugate you need? Contact us and we would be happy to discuss your particular conjugate.



Transferrin gold nanoparticles bound to cells

Figure 1. Transferrin conjugated gold nanoparticles bound to A549 cells. Enhanced using Cytodiagnostics Silver Enhancement Kit for Microscopy for detection with light microscopy.



Transferrin gold nanoparticles bound to cells

Figure 1. Transferrin conjugated gold nanoparticles bound to A549 cells. Enhanced using Cytodiagnostics Silver Enhancement Kit for Microscopy for detection with light microscopy.

100nm-Gold-Nanoparticles-UV-VIS

Diameter

Peak SPR Wavelength (nm)

NPS/ml*

Wt. Conc (mg/ml)*

Molar Ext (M-1cm-1)

Size Dispersity (+/-nm)

Particle Volume (nm3)

Surface Area (nm2)

Surface/ Volume Ratio

Particle Mass (g)

Molar Mass (g/mol)

Molar Concentration*

100

572

1.15E+10

1.17E-01

1.57E+11

<10%

5.24E+05

3.14E+04

0.06

1.02E-14

6.11E+09

1.91E-11

*All concentrations as indicated at an optical density of 3 (OD=3)