Two‐Dimensional Gold‐Tungsten Disulphide Bio‐Interface for High‐Throughput Electrocatalytic Nano‐Bioreactors | Zendy

Parlak Onur | Zendy; Seshadri Preethi | Zendy; Lundström Ingemar | Zendy; Turner Anthony P. F. | Zendy; Tiwari Ashutosh | Zendy

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Two‐Dimensional Gold‐Tungsten Disulphide Bio‐Interface for High‐Throughput Electrocatalytic Nano‐Bioreactors

Author(s) -

Parlak Onur,

Seshadri Preethi,

Lundström Ingemar,

Turner Anthony P. F.,

Tiwari Ashutosh

Publication year - 2014

Publication title -

advanced materials interfaces

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.671

H-Index - 65

ISSN - 2196-7350

DOI - 10.1002/admi.201400136

Subject(s) - bioreactor , throughput , nano , interface (matter) , materials science , nanotechnology , tungsten , computer science , service (business) , chemistry , metallurgy , organic chemistry , telecommunications , composite material , capillary number , capillary action , wireless , economy , economics

A high‐throughput electrocatalytic nano‐bioreactor on tungsten disulphide nanosheets is demonstrated for the first time. The fundamental goal of this research is to develop a higher surface area, resulting in a greater enzyme loading and thereby increasing bio‐catalytic activity within a nano‐confined volume. As a result, the nanobio‐system is capable of highly specific recognition of target bioanalytes, therefore, showing significant potentials in a range of bioreactor applications.

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