Covalent binding, immobilization

Clarke and Shannon also supported copper bis(oxazoline) complexes onto the surfaces of inorganic mesoporous materials, such as MCM-41 and MCM-48, through the covalent binding of the ligand, modified by alkoxysilane functionalities [59]. The immobilized catalysts allowed the cyclopropanation of styrene with ethyldiazoacetate to be performed as for the corresponding homogeneous case, and were reused once with almost no loss of activity or selectivity. 

Immobilized lipase Covalent binding on poly- Olive oil hydrolysis... 

At present, a wide range of solid substrates are available for protein immobilization. According to the protein attachment strategies, namely, adsorption, affinity binding, and covalent binding, all these substrates can be separated into three main parts. Surfaces like ploy(vinylidene fluoride) (PVDF), poly(dimethylsiloxane) (PDMS), nitrocellulose, polystyrene, and poly-1-lysine coated glass can adsorb proteins by electrostatic or hydrophobic forces. A potential drawback of such substrates is the difficulty... 

Methods of indicator immobilization in sol-gels include physical and chemical (covalent binding) doping by incorporation of an indicator or reagent during formation of the sol-gel glass. 

Immobilization method Covalent binding Adsorption Ion pair formation Entrapment or ship-in-a-bottle ... 

Enzymes can be immobilized by matrix entrapment, by microencapsulation, by physical or ionic adsorption, by covalent binding to organic or inorganic polymer-carriers, or by whole cell immobilization (5 ). Particularly impressive is the great number of chemical reactions developed for the covalent binding of enzymes to inorganic carriers such as glass, to natural polymers such as cellulose or Sepharose, and to synthetic polymers such as nylon, polyacrylamide, and other vinyl polymers and... 

There have been many reports in which the immobilization method was covalent binding. In fact, many pH indicators used in above reports own at least one active amino or carboxyl group so that they can be covalently bound relatively easily to a solid substrate [165,166], Kostov et al. had discussed the immobilizing process of Congo red, neutral red and phenol... 

In summary, enzyme immobilization is extremely important in the scale-up of many biocatalytic processes. The preferred method for pharmaceutical production involves covalent binding through cross-linking or attachment to a support. Noncovalent attachment is less attractive, but it is heavily utihzed owing to the commercial availabihty of industrial quantities of some enzymes immobilized using this technique. 

Fig. 10 a Scheme of dendrimer generation 4 and b description of surface activation to fix the dendrimers and immobilization method for covalent binding of NAs on the activated glass surface [42]... 

Chitosan (Fig. 16) is an amino-modified natural polysaccharide that canbe also used as a polymeric gel for the covalent binding of OND probes [61]. Chitosan offers several advantages for NA immobilization. Its pH responsive properties allow it to be easily immobilized onto glass slides for the construction of arrays. Specifically, chitosan is soluble at low pH, when its amine groups are protonated, but becomes insoluble when the pH is raised above its pKa 6.3). 

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