Results 11 to 20 of about 2,214,190 (390)

Is enzyme immobilization a mature discipline? Some critical considerations to capitalize on the benefits of immobilization.

Chemical Society Reviews, 2022
Enzyme immobilization has been developing since the 1960s and although many industrial biocatalytic processes use the technology to improve enzyme performance, still today we are far from full exploitation of the field.
Juan M. Bolívar, J. Woodley, R. Fernández-Lafuente   +2 more
semanticscholar   +3 more sources

Protein Mediated Enzyme Immobilization.

Small, 2022
Enzyme immobilization is an essential technology for commercializing biocatalysis. It imparts stability, recoverability, and other valuable features that improve the effectiveness of biocatalysts.
Adam A. Caparco, Dylan R Dautel, J. Champion   +2 more
semanticscholar   +3 more sources

Enzyme Immobilization on Gold Nanoparticles for Electrochemical Glucose Biosensors. [PDF]

Nanomaterials (Basel), 2021
More than 50 years have passed since Clark and Lyon developed the concept of glucose biosensors. Extensive research about biosensors has been carried out up to this day, and an exponential trend in this topic can be observed.
Lipińska W, Grochowska K, Siuzdak K.
europepmc   +2 more sources

Importance of the Support Properties for Immobilization or Purification of Enzymes [PDF]

ChemCatChem, 2015
Immobilization and purification of enzymes are usual requirements for their industrial use. Both purification and immobilization have a common factor: they use a solid activated support.
Abaházi, Abian, Abian, Albayrak, Andrews, Ansari, Arica, Armisén, Bale Oenick, Barbosa, Barbosa, Barbosa, Barbosa, Barros De Genaro, Bayraktar, Bayramoglu, Begara-Morales, Bernal, Betancor, Bian, Biermann, Blanco, Blanco, Bodla, Bolivar, Bolivar, Bolivar, Bolivar, Bolivar, Boller, Boniello, Boniello, Bonomi, Bortone, Bourdillon, Brady, Bryjak, Byers, Cao, Carlsson, Cattorini, Chaga, Chaga, Charcosset, Chase, Cheung, Chhatre, Choi, Cipolatti, Clonis, Cowan, Cárdenas-Fernández, Davis, De Oliveira, Dicosimo, Dong, dos Santos, dos Santos, dos Santos, dos Santos, Feng, Fernandez-Lafuente, Fernandez-Lafuente, Fernandez-Lafuente, Fernandez-Lorente, Fernandez-Lorente, Ford, Freitag, Fuentes, Fuentes, Fuentes, Fuentes, Fuentes, Fuentes, Gaberc-Porekar, Garcia-Galan, Garcia-Galan, Gianfreda, Girelli, Grazu, Grazú, Grazú, Grazú, Gröger, Guisan, Gutiérrez, Hanefeld, Harm, Hartmann, Hartmeier, Hemdan, Hernandez, Hernandez, Hernandez, Hernandez, Hilterhaus, Hjertén, Hornsey, Huang, Hubert, Hudson, Hwang, Ibáñez-González, Irazoqui, Iyer, Johnson, Jung, Kapoor, Katchalski-Katzir, Kawai, Kim, Kim, Kim, Kircher, Klibanov, Klibanov, Kumar, Kurota, Labrou, Labus, Lai, Lam, Lee, Levison, Li, Lienqueo, Lopez-Gallego, Lopez-Jaramillo, Lortie, Luo, López-Gallego, Manoel, Mant, Martinek, Mateo, Mateo, Mateo, Mateo, Mateo, Mateo, Mateo, Mateo, Mateo, Mateo, Mateo, Mateo, Mateo, Medina-Castillo, Metzger, Migneault, Miranda, Monsan, Morales-Sanfrutos, Mozhaev, Murza, Narayanan, Nordborg, Ogawa, Ortega, Ortega-Muñoz, Palomo, Park, Pedroche, Peelen, Peng, Penzol, Pessela, Pessela, Pessela, Pessela, Pessela, Pessela, Pohl, Porath, Porath, Prikryl, Prince, Prlainović, Regnier, Rocha-Martin, Rodrigues, Rodrigues, Rodrigues, Rodrigues, Rodrigues, Romero, Romero, Rotticci, Rueda, Ruinatscha, Santos, Saxena, Schmeisser, Schyrr, Sevilla, Sheldon, Spieß, Stepankova, Stloukal, Subramanian, Suescun, Sun, Takahashi, Tartaj, Teixeira, Torrelo, Torres, Torres, Trevisan, Tsutsumi, Turková, Turner, Uth, Valencia, Valencia, Vinu, Wang, Wang, Weingarten, Wells, Wheatley, Wheatley, Windle, Wine, Woodley, Wu, Wu, Xiu, Zhang, Zhao, Zhao, Zucca   +231 more
core   +4 more sources

Metal-Organic Frameworks for Enzyme Immobilization: Beyond Host Matrix Materials. [PDF]

ACS Cent Sci, 2020
Enzyme immobilization in metal–organic frameworks (MOFs) as a promising strategy is attracting the interest of scientists from different disciplines with the expansion of MOFs’ development.
Wang X, Lan PC, Ma S.
europepmc   +2 more sources

The Science of Enzyme Immobilization.

Methods in molecular biology, 2020
Protocols for simple immobilization of unstable enzymes are plenty, but the vast majority of them, unfortunately, have not reached their massive implementation for the preparation of improved heterogeneous biocatalyst. In this context, the science of enzyme immobilization demands new protocols capable of fabricating heterogeneous biocatalysts with ...
J. Guisán, F. López‐Gallego, Juan M. Bolívar, J. Rocha-Martín, G. Fernandez-Lorente   +4 more
semanticscholar   +4 more sources

Biocatalytic membrane: Go far beyond enzyme immobilization. [PDF]

Eng Life Sci, 2020
Biocatalytic membrane takes advantages of reaction–separation integration as well as enzyme immobilization, which has attracted increasing attentions in online detection and biomanufacturing.
Luo J, Song S, Zhang H, Zhang H, Zhang J, Wan Y.   +5 more
europepmc   +2 more sources

Tunable Polymeric Scaffolds for Enzyme Immobilization. [PDF]

Front Bioeng Biotechnol, 2020
The number of methodologies for the immobilization of enzymes using polymeric supports is continuously growing due to the developments in the fields of biotechnology, polymer chemistry, and nanotechnology in the last years.
Rodriguez-Abetxuko A, Sánchez-deAlcázar D, Muñumer P, Beloqui A.   +3 more
europepmc   +2 more sources

Metal-Organic Frameworks: A Potential Platform for Enzyme Immobilization and Related Applications

Frontiers in Bioengineering and Biotechnology, 2020
Enzymes, as natural catalysts with remarkable catalytic activity and high region-selectivities, hold great promise in industrial catalysis. However, applications of enzymatic transformation are hampered by the fragility of enzymes in harsh conditions ...
Huan Xia, Na Li, Xue Zhong, Yanbin Jiang
doaj   +2 more sources

Enzyme Immobilization and Biocatalysis [PDF]

Catalysts, 2021
Enzymes are catalysts with outstanding properties [...]
Califano V., Costantini A.
openaire   +4 more sources