Comparison of covalent and in situ immobilization of Candida antarctica lipase A on a flexible nanoporous material

“…13 Surface attachment is the simplest enzyme immobilization method, and can maintain the catalytic activity of the fixed enzyme. 14 However, the integration of porous MOFs into many technologies can be limited by their rigid structures. 15 To overcome this shortcoming, there has been considerable research focus on the development of MOF@polymer hybrid materials based on the flexible, malleable and processable properties of polymers.…”

Design of enzyme@metal organic framework composites with thermo-responsivity for colourimetric detection of glucose

“…13 Surface attachment is the simplest enzyme immobilization method, and can maintain the catalytic activity of the fixed enzyme. 14 However, the integration of porous MOFs into many technologies can be limited by their rigid structures. 15 To overcome this shortcoming, there has been considerable research focus on the development of MOF@polymer hybrid materials based on the flexible, malleable and processable properties of polymers.…”

Design of enzyme@metal organic framework composites with thermo-responsivity for colourimetric detection of glucose