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Measurement Of Hydrogen Peroxide Influx Into Cells: Preparation For Measurement Using On-Chip Microelectrode Array, Hannah R. Kriscovich, Sarah M. Libring, Siddarth V. Sridharan, James K. Nolan, Jose F. Rivera, Jenna L. Rickus, David B. Janes
Measurement Of Hydrogen Peroxide Influx Into Cells: Preparation For Measurement Using On-Chip Microelectrode Array, Hannah R. Kriscovich, Sarah M. Libring, Siddarth V. Sridharan, James K. Nolan, Jose F. Rivera, Jenna L. Rickus, David B. Janes
The Summer Undergraduate Research Fellowship (SURF) Symposium
Hydrogen peroxide (H2O2) is commonly known as a toxic reactive oxidative species (ROS) for cells. Recent studies have found evidence that H2O2 is also an important cellular signalling molecule. Quantifying cellular influx of H2O2 will contribute to researchers’ understanding of the role H2O2 plays in healthy cells and cells involved in the progression of cancers and degenerative diseases. This work utilizes an assay kit and fluorescence techniques to evaluate cell lines and conditions to create a model biological system for measuring cellular H2O2 consumption. …
Cellular Model Of Hydrogen Peroxide Release: In Preparation For On-Chip Sensor Measurements, Sarah M. Libring, Hannah R. Kriscovich, James K. Nolan, Siddarth V. Sridharan, Jose F. Rivera, David B. Janes, Jenna L. Rickus
Cellular Model Of Hydrogen Peroxide Release: In Preparation For On-Chip Sensor Measurements, Sarah M. Libring, Hannah R. Kriscovich, James K. Nolan, Siddarth V. Sridharan, Jose F. Rivera, David B. Janes, Jenna L. Rickus
The Summer Undergraduate Research Fellowship (SURF) Symposium
Hydrogen peroxide is traditionally associated with cellular damage; however, recent studies show that low levels of H2O2 are released by cells as part of normal intercellular communication. The mechanisms of hydrogen peroxide transport, uptake and release, and biological effects are not yet well known but have important implications for cancer, stem cells, and aging. Standard H2O2 assays cannot make spatially or temporally resolved quantitative measurements at a cellular scale. Previously we developed a microelectrode array (MEA) and calibration methods for quantifying H2O2 gradients in space and time. The sensor was validated …
Silver Oxide-Graphene Sensor For Hydrogen Peroxide, Austin D. Scherbarth, L Stanciu
Silver Oxide-Graphene Sensor For Hydrogen Peroxide, Austin D. Scherbarth, L Stanciu
The Summer Undergraduate Research Fellowship (SURF) Symposium
A nonenzymatic, amperometric sensor for Hydrogen Peroxide (H2O2) was designed by drop coating glassy carbon electrodes (GCEs) with Silver Oxide (Ag2O). Combining Ag2O with Graphene Oxide and a polymer, PEDOT, was also attempted in order to increase stability and electrochemical properties. Using metal oxides along with Graphene Oxide for sensors has been done quite a bit, but Ag2O itself has not been research extensively. So, in order to produce the best H2O2 sensor, the configuration of all components had to be optimized. Three different Ag2O …