In our work we investigate the development of a novel electrochemical biosensor using graphene as transducer and electroactive membrane proteins as biological recognition elements. Graphene is used as transducer because of its unique properties, namely high surface area, electrical conductivity, ultra-high electron mobility, wide electrochemical potential window, low charge-transfer resistance, and reduction of overvoltage: all these properties are responsible for the enhancement of the direct electron transfer between graphene and the membrane proteins. Membrane proteins are the chosen biosensing element since they are the key factors in cell metabolism, e.g., in cell-cell interactions, signal transduction, and transport of ions and nutr...
Graphene has proved to be an excellent nanomaterial for applications in electrochemistry. We review ...
Graduation date:2018Atomically-thin graphene sheets have unprecedented characteristics for biosensin...
Exciting progress has been made in the use of graphene for bio- and chemical sensing applications. I...
In our work we investigate the development of a novel electrochemical biosensor using graphene as tr...
In our work we investigate the development of a novel electrochemical biosensor that integrates a gr...
In this work we investigate the use of graphene as transducer in a novel biosensor for biomedical us...
Graphene is an attractive material not only because of its electronic and optical properties, but al...
Since graphene (G) was first isolated by mechanical exfoliation, several methods have been explored ...
Graphene is one of the new materials which has shown a large impact on the electronic industry due t...
A biomimetic cell membrane bioelectronic transistor consisting of a supported phospholipid bilayer a...
Recent research trends now offer new opportunities for developing the next generations of label‐free...
Proteinaceous moieties are critical elements in most detection systems, including biosensing platfor...
Introduction: Lipid, an amphipilic molecules safe guarding cellular content and also assists transpo...
Biosensors are devices that detect biological elements and then transmit a readable signal. Biosenso...
© 2017 Dr. Hualin ZhanResearch of graphene for life science has attracted significant attention from...
Graphene has proved to be an excellent nanomaterial for applications in electrochemistry. We review ...
Graduation date:2018Atomically-thin graphene sheets have unprecedented characteristics for biosensin...
Exciting progress has been made in the use of graphene for bio- and chemical sensing applications. I...
In our work we investigate the development of a novel electrochemical biosensor using graphene as tr...
In our work we investigate the development of a novel electrochemical biosensor that integrates a gr...
In this work we investigate the use of graphene as transducer in a novel biosensor for biomedical us...
Graphene is an attractive material not only because of its electronic and optical properties, but al...
Since graphene (G) was first isolated by mechanical exfoliation, several methods have been explored ...
Graphene is one of the new materials which has shown a large impact on the electronic industry due t...
A biomimetic cell membrane bioelectronic transistor consisting of a supported phospholipid bilayer a...
Recent research trends now offer new opportunities for developing the next generations of label‐free...
Proteinaceous moieties are critical elements in most detection systems, including biosensing platfor...
Introduction: Lipid, an amphipilic molecules safe guarding cellular content and also assists transpo...
Biosensors are devices that detect biological elements and then transmit a readable signal. Biosenso...
© 2017 Dr. Hualin ZhanResearch of graphene for life science has attracted significant attention from...
Graphene has proved to be an excellent nanomaterial for applications in electrochemistry. We review ...
Graduation date:2018Atomically-thin graphene sheets have unprecedented characteristics for biosensin...
Exciting progress has been made in the use of graphene for bio- and chemical sensing applications. I...