2005
DOI: 10.1002/anie.200502995
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Preparation of a Magnetically Switchable Bio‐electrocatalytic System Employing Cross‐linked Enzyme Aggregates in Magnetic Mesocellular Carbon Foam

Abstract: Nanostructured magnetic materials (NMMs) [1] have attracted much attention recently because of their broad biotechnological applications including support matrices for enzyme immobilization, [2] immunoassays, [3] drug delivery, [4] and biosensors.[5]

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Cited by 140 publications
(64 citation statements)
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“…After the immobilization of enzymes (glucose oxidase) these particles can be used as magnetically switchable bio-electrocatalytic systems. [197] Hyeon and co-workers have also tried to synthesize monodisperse magnetite nanocrystals and CdSe/ ZnS quantum dots both embedded in mesoporous silica spheres. These mesoporous silica spheres were applied to the uptake and controlled release of ibuprofen drugs.…”
Section: Applications In Catalysis and Biotechnologymentioning
confidence: 98%
“…After the immobilization of enzymes (glucose oxidase) these particles can be used as magnetically switchable bio-electrocatalytic systems. [197] Hyeon and co-workers have also tried to synthesize monodisperse magnetite nanocrystals and CdSe/ ZnS quantum dots both embedded in mesoporous silica spheres. These mesoporous silica spheres were applied to the uptake and controlled release of ibuprofen drugs.…”
Section: Applications In Catalysis and Biotechnologymentioning
confidence: 98%
“…To prevent leaching of the enzyme during a reaction, it can be crosslinked within the pore structure, a procedure that led to an effective bio-electrocatalyst based on glucose oxidase supported in mesocellular carbon foam. [247] …”
Section: Catalysismentioning
confidence: 97%
“…[163] A similar nanocasting procedure was used to prepare mesoporous carbon foam with well-dispersed a-Fe and Fe 3 O 4 nanoparticles. [247] After the pores of the magnetic composite were loaded with the enzyme glucose oxidase, the material could be employed as a magnetically switchable bio-electrocatalytic system. During cyclic-voltammetric experiments, the current produced by the enzyme-catalyzed oxidation of glucose was controlled by magnetically positioning the composite particles near or away from the electrode surface.…”
Section: Magnetic Materialsmentioning
confidence: 99%
“…Similarly, inclusion of glucose oxidase CLEAs in magnetic mesocellular carbon foam was used to construct a magnetically switchable bioelectrocatalytic system. [122] The preparation of CLEAs from CO 2 expanded micellar solutions afforded dendritic CLEAs with tunable nanometer dimensions (7-38 nm). [123] 6 Combi-CLEAs and Catalytic Cascade Processes…”
Section: Cross-linked Enzyme Aggregatesa C H T U N G T R E N N U N G mentioning
confidence: 99%