kw.\*:("Enzyme immobilization")
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Porous polymer monoliths: An alternative to classical beadsSHAOFENG XIE; ALLINGTON, Robert W; FREHET, Jean M. J et al.Advances in biochemical engineering, biotechnology. 2002, Vol 76, pp 87-125, issn 0724-6145, 39 p.Article
Enzymes immobilized on carbon nanotubesWEI FENG; PEIJUN JI.Biotechnology advances. 2011, Vol 29, Num 6, pp 889-895, issn 0734-9750, 7 p.Article
Influence of acetylcholinesterase immobilization on the photoluminescence properties of mesoporous silicon surfaceSALEEM, Muhammad; RAFIQ, Muhammad; SEO, Sung-Yum et al.Applied surface science. 2014, Vol 308, pp 148-154, issn 0169-4332, 7 p.Article
Preparation and properties of thermoresponsive bioconjugates of trypsinRAGHAVA, Smita; MONDAL, Kalyani; GUPTA, Munishwar N et al.Artificial cells, blood substitutes, and biotechnology. 2006, Vol 34, Num 3, pp 323-336, 14 p.Article
Single-wall carbon manotubes as immobilization material for glucose biosensorHUAIGUO XUE; WEILIN SUN; BINGJING HE et al.Synthetic metals. 2003, Vol 135-36, pp 831-832, issn 0379-6779, 2 p.Conference Paper
Studies toward stereoselective bionanocatalysis on gold nanoparticlesJEDRZEJEWSKA, Hanna; OSTASZEWSKI, Ryszard.Journal of molecular catalysis. B, Enzymatic. 2013, Vol 90, pp 12-16, issn 1381-1177, 5 p.Article
Enzyme immobilization on electrospun polymer nanofibers : An overviewWANG, Zhen-Gang; WAN, Ling-Shu; LIU, Zhen-Mei et al.Journal of molecular catalysis. B, Enzymatic. 2009, Vol 56, Num 4, pp 189-195, issn 1381-1177, 7 p.Article
Self-organized highly ordered TiO2 nanotubes in organic aqueous systemJUN WAN; XIA YAN; JUNJIE DING et al.Materials characterization. 2009, Vol 60, Num 12, pp 1534-1540, issn 1044-5803, 7 p.Article
Non-porous magnetic micro-particles : Comparison to porous enzyme carriers for a diffusion rate-controlled enzymatic conversionMAGARIO, I; MA, X; NEUMANN, A et al.Journal of biotechnology. 2008, Vol 134, Num 1-2, pp 72-78, issn 0168-1656, 7 p.Article
Inhibiting the leaching of lipase from mesoporous supports by polymerization of grafted vinyl groupsJING HE; YAN XU; HUI MA et al.Microporous and mesoporous materials. 2006, Vol 94, Num 1-3, pp 29-33, issn 1387-1811, 5 p.Article
Application of chitin- and chitosan-based materials for enzyme immobilizations: a reviewKRAJEWSKA, Barbara.Enzyme and microbial technology. 2004, Vol 35, Num 2-3, pp 126-139, issn 0141-0229, 14 p.Article
Immobilization of an oxalate-degrading enzyme on silicone elastomerMALPASS, Charley A; MILLSAP, Kevin W; SIDHU, Harmeet et al.Journal of biomedical materials research. 2002, Vol 63, Num 6, pp 822-829, issn 0021-9304, 8 p.Article
Effects of pH and pore characters of mesoporous silicas on horseradish peroxidase immobilizationCHOUYYOK, Wilaiwan; PANPRANOT, Joongjai; THANACHAYANANT, Chanchana et al.Journal of molecular catalysis. B, Enzymatic. 2009, Vol 56, Num 4, pp 246-252, issn 1381-1177, 7 p.Article
Chitin-binding domain based immobilization of D-hydantoinaseCHERN, Jong-Tzer; CHAO, Yun-Peng.Journal of biotechnology. 2005, Vol 117, Num 3, pp 267-275, issn 0168-1656, 9 p.Article
Immobilization of pectinase on polyethyleneimine-coated pulp fiber for treatment of whitewater from papermakingRINA WU; BEIHAI HE; GUANGLEI ZHAO et al.Journal of molecular catalysis. B, Enzymatic. 2014, Vol 99, pp 163-168, issn 1381-1177, 6 p.Article
Amino-functionalized mesostructured cellular foams as carriers of glucose oxidaseJUN LI; GUANGFU YIN; YI DING et al.Journal of bioscience and bioengineering. 2013, Vol 116, Num 5, pp 555-561, issn 1389-1723, 7 p.Article
Enzymes immobilization on Fe3O4―gold nanoparticlesKALSKA-SZOSTKO, B; ROGOWSKA, M; DUBIS, A et al.Applied surface science. 2012, Vol 258, Num 7, pp 2783-2787, issn 0169-4332, 5 p.Article
Sorption-assisted surface conjugation: a way to stabilize laccase enzymeZIMMERMANN, Yannick-Serge; SHAHGALDIAN, Patrick; CORVINI, Philippe F. X et al.Applied microbiology and biotechnology. 2011, Vol 92, Num 1, pp 169-178, issn 0175-7598, 10 p.Article
Enzyme immobilization on amphiphilic polymer particles having grafted polyionic polymer chainsYASUDA, Masahiro; NIKAIDO, Hibiki; GLOMM, Wilhelm R et al.Biochemical engineering journal. 2010, Vol 48, Num 1, pp 6-12, issn 1369-703X, 7 p.Article
Immobilization of β-Galactosidase onto Magnetic BeadsSHENGTANG ZHANG; SUFANG GAO; GUOQIANG GAO et al.Applied biochemistry and biotechnology. 2010, Vol 160, Num 5, pp 1386-1393, issn 0273-2289, 8 p.Article
Permselective and enzyme-entrapping behaviours of an electropolymerized, non-conducting, poly(o-aminophenol) thin film-modified electrode : A critical studyGUERRIERI, Antonio; CIRIELLO, Rosanna; CENTONZE, Diego et al.Biosensors & bioelectronics. 2009, Vol 24, Num 6, pp 1550-1556, issn 0956-5663, 7 p.Article
Biosensors for phenolic compounds : The catechol as a substrate modelPORTACCIO, M; DI MARTINO, S; MAIURI, P et al.Journal of molecular catalysis. B, Enzymatic. 2006, Vol 41, Num 3-4, pp 97-102, issn 1381-1177, 6 p.Article
Direct quantification of immobilized enzymes by means of FTIR ATR spectroscopy - A process analytics tool for biotransformations applying non-porous magnetic enzyme carriersMORHARDT, Christian; KETTERER, Benedikt; HEISSLER, Stefan et al.Journal of molecular catalysis. B, Enzymatic. 2014, Vol 107, pp 55-63, issn 1381-1177, 9 p.Article
Understanding the pH-dependent immobilization efficacy of feruloyl esterase-C on mesoporous silica and its structure-activity changesTHÖRN, Christian; GUPTA UDATHA, D. B. R. K; HAO ZHOU et al.Journal of molecular catalysis. B, Enzymatic. 2013, Vol 93, pp 65-72, issn 1381-1177, 8 p.Article
Maltodextrin-powered enzymatic fuel cell through a non-natural enzymatic pathwayZHIGUANG ZHU; YIRAN WANG; MINTEER, Shelley D et al.Journal of power sources (Print). 2011, Vol 196, Num 18, pp 7505-7509, issn 0378-7753, 5 p.Article