Title :
Functionalized Silica Nanotubes As Affinity Matrices for Bilirubin Removal
Author :
Song, Cunfeng ; Zhang, Aifeng ; Shi, Wei ; Jiang, Hairong ; Ge, Dongtao
Author_Institution :
Dept. of Biomater., Xiamen Univ., Xiamen, China
fDate :
5/1/2011 12:00:00 AM
Abstract :
Arginine-immobilized silica nanotubes as affinity matrices were fabricated for bilirubin removal. The silica nanotubes were prepared by depositing silica within the alumina membrane through sol-gel method. Ligand arginine was immobilized on the inner and outer surfaces of silica nanotubes by activating with glutaraldehyde. The content of arginine of affinity matrices was ~20.1 mg/g nanotubes. Such arginine-immobilized affinity matrices were used to adsorb bilirubin from the bilirubin-phosphate solution and bilirubin-albumin solution. The effects of temperature, ionic strength, albumin concentration, and the adsorption mechanism were investigated by batch experiments. The results showed arginine-immobilized silica nanotubes achieved excellent adsorption capacity for bilirubin (~63.6 mg/g nanotubes).
Keywords :
adsorption; biomedical materials; blood; molecular biophysics; nanofabrication; nanomedicine; nanotubes; organic compounds; patient treatment; silicon compounds; sol-gel processing; SiO2; adsorption capacity; adsorption mechanism effects; albumin concentration effects; alumina membrane; arginine immobilisation; arginine immobilised affinity matrices; arginine immobilized silica nanotubes; bilirubin adsorption; bilirubin removal; bilirubin-albumin solution; bilirubin-phosphate solution; functionalized silica nanotubes; glutaraldehyde activation; ionic strength effects; silica deposition; sol-gel method; temperature effects; Amino acids; Biological materials; Biomembranes; Blood; Nanotubes; Plasmas; Proteins; Purification; Silicon compounds; Surface resistance; Affinity matrices; arginine; bilirubin; silica nanotubes;
Journal_Title :
Nanotechnology, IEEE Transactions on
DOI :
10.1109/TNANO.2010.2059037
