SCOPUS 정보 검색 플랫폼

Volumn 97, Issue 1, 2013, Pages 23-39

Nanobiotechnology as a novel paradigm for enzyme immobilisation and stabilisation with potential applications in biodiesel production

(3) Verma, Madan Lal a Barrow, Colin J a Puri, Munish a

a DEAKIN UNIVERSITY (Australia)

Author keywords

Analytical techniques; Biodiesel; Enzyme; Nanofibre; Nanoparticle; Nanoscaffold; Nanosheet; Nanotube; Reactor; Stabilisation

Indexed keywords

ANALYTICAL TECHNIQUES; BIO-ENERGY; BIODIESEL PRODUCTION; CATALYTIC POTENTIAL; ENVIRONMENTAL ISSUES; ENZYME LOADING; ENZYME REACTORS; GREEN ENERGY; HIGH-TENSILE STRENGTH; IMMOBILISATION; LARGE SURFACE AREA; MECHANICAL SHEAR; NANO-SCALE MATERIALS; NANOCARRIERS; NANOSCAFFOLDS; NANOSUPPORTS; OPTIMISATIONS; POTENTIAL APPLICATIONS; PROCESS PARAMETERS; REACTOR;

ALTERNATIVE FUELS; BIODIESEL; BIOSENSORS; ENZYMES; NANOFIBERS; NANOPARTICLES; NANOPORES; NANOSHEETS; NANOTUBES; STABILIZATION;

NANOBIOTECHNOLOGY;

BIODIESEL; BIOFUEL; MOLECULAR SCAFFOLD; MULTI WALLED NANOTUBE; NANOCOMPOSITE; NANOFIBER; NANOPARTICLE; SINGLE WALLED NANOTUBE; TRIACYLGLYCEROL LIPASE;

BIOENERGY; BIOFUEL; BIOREACTOR; ENZYME ACTIVITY; IMMOBILIZATION; NANOTECHNOLOGY; SENSOR; STABILIZATION;

ACYLATION; ALPHA HELIX; BIOCATALYSIS; BIOENERGY; BIOFUEL PRODUCTION; BIOREACTOR; BIOSENSOR; CONCENTRATION (PARAMETERS); COVALENT BOND; CROSS LINKING; ENANTIOSELECTIVITY; ENZYME ACTIVITY; ENZYME IMMOBILIZATION; ENZYME STABILITY; FEASIBILITY STUDY; FLOW RATE; HEAT TOLERANCE; HYDROGEN BOND; HYDROPHOBICITY; METHANOLYSIS; NANOBIOTECHNOLOGY; NANOCATALYSIS; NANOPORE; NONHUMAN; PARTICLE SIZE; PROCESS OPTIMIZATION; RESPONSE SURFACE METHOD; REVIEW; SHEAR STRESS; SURFACE PROPERTY; TENSILE STRENGTH; THERMOSTABILITY; TRANSESTERIFICATION;

BIOFUELS; BIOTECHNOLOGY; ENZYME STABILITY; ENZYMES, IMMOBILIZED; NANOTECHNOLOGY;

EID: 84872334138 PISSN: 01757598 EISSN: 14320614 Source Type: Journal
DOI: 10.1007/s00253-012-4535-9 Document Type: Review

Times cited : (228)

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