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Biography and Research Information
OverviewAI-generated summary
My Ni Van's research focuses on the development and application of biosensors, particularly for the detection of biologically relevant molecules. Van has investigated the use of nanocomposite materials and recombinant enzymes, such as manganese peroxidase from corn, in creating amperometric biosensors. These sensors are designed for high sensitivity and are often cross-linked to electrodes like gold. Publications detail the electrocatalytic effects of these enzymes and the development of novel biosensor platforms for detecting substances like glucose.
Van's work involves collaborations with researchers within Arkansas State University, including Anahita Izadyar, Elizabeth E. Hood, and Ilwoo Seok, as well as Kayleigh Amber Rodriguez from the University of Arkansas for Medical Sciences. With a h-index of 3 and 29 citations across 4 publications, Van's recent activity indicates ongoing research in this area.
Metrics
- h-index: 3
- Publications: 4
- Citations: 29
Selected Publications
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Electrocatalytic effect of recombinant Mn peroxidase from corn on microbiosensors to detect glucose (2022)
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Development of a highly sensitive glucose nanocomposite biosensor based on recombinant enzyme from corn (2022)
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A bienzymatic amperometric glucose biosensor based on using a novel recombinant Mn peroxidase from corn and glucose oxidase with a Nafion membrane (2021)
Collaboration Network
Top Collaborators
Anahita Izadyar
Arkansas State University
4 shared publications
In database
- A bienzymatic amperometric glucose biosensor based on using a novel recombinant Mn peroxidase from corn and glucose oxidase with a Nafion membrane
- Electrocatalytic effect of recombinant Mn peroxidase from corn on microbiosensors to detect glucose
- Development of a highly sensitive glucose nanocomposite biosensor based on recombinant enzyme from corn
- Amperometric Biosensor for Glucose Determination Based on a Recombinant Mn Peroxidase from Corn Cross-linked to a Gold Electrode
Elizabeth E. Hood
Arkansas State University
4 shared publications
In database
- A bienzymatic amperometric glucose biosensor based on using a novel recombinant Mn peroxidase from corn and glucose oxidase with a Nafion membrane
- Electrocatalytic effect of recombinant Mn peroxidase from corn on microbiosensors to detect glucose
- Development of a highly sensitive glucose nanocomposite biosensor based on recombinant enzyme from corn
- Amperometric Biosensor for Glucose Determination Based on a Recombinant Mn Peroxidase from Corn Cross-linked to a Gold Electrode
Ilwoo Seok
Arkansas State University (US)
3 shared publications
- A bienzymatic amperometric glucose biosensor based on using a novel recombinant Mn peroxidase from corn and glucose oxidase with a Nafion membrane
- Development of a highly sensitive glucose nanocomposite biosensor based on recombinant enzyme from corn
- Amperometric Biosensor for Glucose Determination Based on a Recombinant Mn Peroxidase from Corn Cross-linked to a Gold Electrode
Kayleigh Amber Rodriguez
Arkansas State University
2 shared publications
In database
- A bienzymatic amperometric glucose biosensor based on using a novel recombinant Mn peroxidase from corn and glucose oxidase with a Nafion membrane
- Amperometric Biosensor for Glucose Determination Based on a Recombinant Mn Peroxidase from Corn Cross-linked to a Gold Electrode
Marcela Miranda
Arkansas State University
2 shared publications
In database
- Electrocatalytic effect of recombinant Mn peroxidase from corn on microbiosensors to detect glucose
- Development of a highly sensitive glucose nanocomposite biosensor based on recombinant enzyme from corn
Scout Weatherford
Arkansas State University
2 shared publications
In database
- Electrocatalytic effect of recombinant Mn peroxidase from corn on microbiosensors to detect glucose
- Development of a highly sensitive glucose nanocomposite biosensor based on recombinant enzyme from corn
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