Immobilization of cellulase using porous polymer matrix

The preparation of porous substances immobilizing enzymes with polymer matrix having various properties have been studied by radiation polymerization method. The enzyme (cellulase) was immobilized on the surface parts of porous substances such as activated carbon, molecular sieve, silica gel, and co

## Abstract Barley β‐amlyase was immobilized on two polymeric materials; poly(acrylamide–acrylic acid) resin [P(AM‐AAc)] and poly(acrylamide–acrylic acid–diallylamine–HCl) resin [P(P(AM‐AAc‐DAA‐HCl) using two different methods: covalent and cross‐linking immobilization. Thionyl chloride, used to ac

Hydroxyapatite and fluoroapatite were crystallized by double diffusion of two aqueous solutions into a pellet of porous poly(hydroxyacetic acid) (polyglycolide). Distinct morphologies were observed for these calcium phosphate phases. This suggests specific interactions between the growing aggregates

## Abstract Thermolysin was immobilized by radiation polymerization of hydroxyalkyl acrylate and tetradecaethylene glycol dimethacrylate monomers at low temperatures in the presence of the enzyme, and the degree of interaction of the enzyme with the polymer matrix was studied by measuring the therm