Recent trends in metal‐organic frameworks mediated lipase immobilization: A state‐of‐the‐art review

Abstract: Immobilized lipase is a powerful biocatalytic system with numerous applications in industries, particularly in the energy, pharmaceutical, cosmetic, and food industries. Reusability, simple recovery, and high chemical and thermal stability make it an attractive alternative to traditional chemical catalysts in industrial applications. Novel methods and support materials for immobilizing lipases have recently attracted much attention. Metal‐organic frameworks (MOFs) are a promising class of materials for enzyme … Show more

“…Among the most popular enzymes, lipases (EC 3.1.1.3) have enormous biocatalytic potential in numerous areas of industrial microbiology and biotechnology and are today considered an integral part of a wide variety of industrial processes [1,2]. Lipase-catalyzed processes encompass esterification, inter-esterification, hydrolysis, alcholysis, acidolysis, and aminolysis [3].…”

“…Metal-organic frameworks (MOFs) are a type of structured crystalline solid that is created by linking metal ions or metal clusters with organic linkers [17,18]. In recent years, MOF materials have exhibited substantial promise in numerous areas of research, including catalysis, drug delivery, biosensing, gas storage and separation, food science, biodiesel synthesis, and many more [1,2]. Due to its substantial specific surface area, straightforward synthesis and modification process, and favorable physicochemical features, it has been regarded as a viable material for lipase immobilization [19,20].…”

Preparation of Proline-Modified UIO−66 Nanomaterials and Investigation of Their Potential in Lipase Immobilization

“…Among the most popular enzymes, lipases (EC 3.1.1.3) have enormous biocatalytic potential in numerous areas of industrial microbiology and biotechnology and are today considered an integral part of a wide variety of industrial processes [1,2]. Lipase-catalyzed processes encompass esterification, inter-esterification, hydrolysis, alcholysis, acidolysis, and aminolysis [3].…”

“…Metal-organic frameworks (MOFs) are a type of structured crystalline solid that is created by linking metal ions or metal clusters with organic linkers [17,18]. In recent years, MOF materials have exhibited substantial promise in numerous areas of research, including catalysis, drug delivery, biosensing, gas storage and separation, food science, biodiesel synthesis, and many more [1,2]. Due to its substantial specific surface area, straightforward synthesis and modification process, and favorable physicochemical features, it has been regarded as a viable material for lipase immobilization [19,20].…”

Preparation of Proline-Modified UIO−66 Nanomaterials and Investigation of Their Potential in Lipase Immobilization