An overview of cellulase immobilization strategies for biofuel production
V Narisetty, A Tarafdar, N Bachan, A Madhavan… - BioEnergy …, 2023 - Springer
The use of agricultural residue as a substrate and implementation of nanomaterials for
cellulase immobilization can improve the efficiency at higher temperature and will lead to …
cellulase immobilization can improve the efficiency at higher temperature and will lead to …
An Overview of Cellulase Immobilization Strategies for Biofuel Production
R Reshmy, V Narisetty, A Tarafdar… - Bioenergy …, 2023 - scholars.cityu.edu.hk
The use of agricultural residue as a substrate and implementation of nanomaterials for
cellulase immobilization can improve the efficiency at higher temperature and will lead to …
cellulase immobilization can improve the efficiency at higher temperature and will lead to …
An Overview of Cellulase Immobilization Strategies for Biofuel Production
R Reshmy, V Narisetty, A Tarafdar… - Bioenergy …, 2023 - search.proquest.com
The use of agricultural residue as a substrate and implementation of nanomaterials for
cellulase immobilization can improve the efficiency at higher temperature and will lead to …
cellulase immobilization can improve the efficiency at higher temperature and will lead to …
[引用][C] An Overview of Cellulase Immobilization Strategies for Biofuel Production
R Reshmy, V Narisetty, A Tarafdar… - BioEnergy …, 2023 - ui.adsabs.harvard.edu
An Overview of Cellulase Immobilization Strategies for Biofuel Production - NASA/ADS Now on
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An Overview of Cellulase Immobilization Strategies for Biofuel Production.
V Narisetty, A Tarafdar, N Bachan… - BioEnergy …, 2023 - search.ebscohost.com
The use of agricultural residue as a substrate and implementation of nanomaterials for
cellulase immobilization can improve the efficiency at higher temperature and will lead to …
cellulase immobilization can improve the efficiency at higher temperature and will lead to …
[PDF][PDF] An Overview of Cellulase Immobilization Strategies for Biofuel Production
R Reshmy, V Narisetty, A Tarafdar, N Bachan… - researchgate.net
The use of agricultural residue as a substrate and implementation of nanomaterials for
cellulase immobilization can improve the efficiency at higher temperature and will lead to …
cellulase immobilization can improve the efficiency at higher temperature and will lead to …
An overview of cellulase immobilization strategies for biofuel production.
R Reshmy, V Narisetty, A Tarafdar, N Bachan… - 2022 - cabidigitallibrary.org
The use of agricultural residue as a substrate and implementation of nanomaterials for
cellulase immobilization can improve the efficiency at higher temperature and will lead to …
cellulase immobilization can improve the efficiency at higher temperature and will lead to …
[PDF][PDF] An Overview of Cellulase Immobilization Strategies for Biofuel Production
R Reshmy, V Narisetty, A Tarafdar, N Bachan… - researchgate.net
The use of agricultural residue as a substrate and implementation of nanomaterials for
cellulase immobilization can improve the efficiency at higher temperature and will lead to …
cellulase immobilization can improve the efficiency at higher temperature and will lead to …