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Graphene Facilitated Removal of Labetalol in Laccase-ABTS System: Reaction Efficiency, Pathways and Mechanism

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Graphene Facilitated Removal of Labetalol in Laccase-ABTS System: Reaction Efficiency, Pathways and Mechanism
Liang MAO, Professor (Associate), Ph D.
Graphene Facilitated Removal of Labetalol in Laccase-ABTS System: Reaction Efficiency, Pathways and Mechanism
Frontiers Lignin Biodegradation with Laccase-Mediator Systems
Graphene Facilitated Removal of Labetalol in Laccase-ABTS System: Reaction Efficiency, Pathways and Mechanism
Graphene Facilitated Removal of Labetalol in Laccase-ABTS System
Graphene Facilitated Removal of Labetalol in Laccase-ABTS System: Reaction Efficiency, Pathways and Mechanism
Fermentation, Free Full-Text
Graphene Facilitated Removal of Labetalol in Laccase-ABTS System: Reaction Efficiency, Pathways and Mechanism
Frontiers Lignin Biodegradation with Laccase-Mediator Systems
Graphene Facilitated Removal of Labetalol in Laccase-ABTS System: Reaction Efficiency, Pathways and Mechanism
Life, Free Full-Text
Graphene Facilitated Removal of Labetalol in Laccase-ABTS System: Reaction Efficiency, Pathways and Mechanism
Huifang Xiao's research works Nanjing University, Nanjing (NJU
Graphene Facilitated Removal of Labetalol in Laccase-ABTS System: Reaction Efficiency, Pathways and Mechanism
PDF) Graphene Facilitated Removal of Labetalol in Laccase-ABTS
Graphene Facilitated Removal of Labetalol in Laccase-ABTS System: Reaction Efficiency, Pathways and Mechanism
PDF) Reappraising a Controversy: Formation and Role of the
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