Förster Resonance Energy Transfer Study of the Improved Biocatalytic Conversion of CO2 to Formaldehyde by Coimmobilization of Enzymes in Siliceous Mesostructured Cellular Foams
Nabavi Zadeh, Pegah Sadat, Zezzi Do Valle Gomes, Milene, Åkerman, Björn, Palmqvist, Anders
Published in ACS catalysis (03.08.2018)
Published in ACS catalysis (03.08.2018)
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Measuring viscosity inside mesoporous silica using protein-bound molecular rotor probeElectronic supplementary information (ESI) available. See DOI: 10.1039/c8cp01063c
Nabavi Zadeh, Pegah S, Zezzi do Valle Gomes, Milene, Abrahamsson, Maria, Palmqvist, Anders E. C, Åkerman, Björn
Year of Publication 19.09.2018
Year of Publication 19.09.2018
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Journal Article
Förster Resonance Energy Transfer Study of the Improved Biocatalytic Conversion of CO 2 to Formaldehyde by Coimmobilization of Enzymes in Siliceous Mesostructured Cellular Foams
Nabavi Zadeh, Pegah S., Zezzi do Valle Gomes, Milene, Åkerman, Björn, Palmqvist, Anders E. C.
Published in ACS catalysis (03.08.2018)
Published in ACS catalysis (03.08.2018)
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Monitoring the Kinetics of Enzyme Immobilization into Mesoporous Silica by Real Time Fluorescence
Nabavi Zadeh, Pegah Sadat, Carlsson, Nils, Abdel Mallak, Kassam, Åkerman, Björn
Published in Biophysical journal (2014)
Published in Biophysical journal (2014)
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Förster Resonance Energy Transfer Study of the Improved Biocatalytic Conversion of CO2 to Formaldehyde by Coimmobilization of Enzymes in Siliceous Mesostructured Cellular Foams
Nabavi Zadeh, Pegah S, Zezzi do Valle Gomes, Milene, Åkerman, Björn, Palmqvist, Anders E. C
Published in ACS catalysis (03.08.2018)
Published in ACS catalysis (03.08.2018)
Get full text
Journal Article