Natural Sciences Department Faculty Research Nathan Green
Dr. Nathan Green
Ph.D. in Organic Chemistry
University of Oklahoma
Phone: 918-449-6477
Office: BASC 225
Lab: BASC 210
Email: green66@nsuok.edu
Dr. Green Lab Website: https://greennanolab.wixsite.com/nsuok
Research interests:
Research areas: Synthesis, Nanotechnology
Assembly of engineered nanoparticles utilizing top down and bottom up techniques to explore photophysical properties of dye doped silica nanoparticles and gold nanorod aggregates for applications in biomedical sensing and light harvesting. Current research is focused on designing and optimally producing each of the components of the system before exploring assembly regimes involving DNA mediated scaffolding.
Publications:
Nathaniel S. Green, Phi H. Q. Pham, Daniel Crow, Peter J. Burke, Michael L. Norton. Layered Graphene-mica Substrates Induce Melting of DNA Origami . Materials Research Express. 5, 2018, 045035.
Masudur Rahman, David Neff, Nathaniel S. Green, and Michael L. Norton. DNA Origami Reorganizes upon Interaction with Graphite: Implications for High-Resolution DNA Directed Protein Patterning . Nanomaterials. 6, 2016, 196.
Elliott R. Brown, Weidong Zhang, Leamon Viveros, David Neff, Nathaniel S. Green, Michael L. Norton, Phi H. Q. Pham, and Peter J. Burke. Detection of DNA by Graphene-on-Silicon FET Structures Simultaneously at DC and 101 GHz. Sensing and Biosensing Res. 5, 2015, 19-23.
Nathaniel S. Green, Michael L. Norton. Sensing Applications and Interactions of DNA and Graphene Field-Effect Transistors: A Review. Anal. Chim. Acta. 2015, 853, 127-142.
Kalani B. Gunawardana, Nathaniel S. Green, Lloyd A. Bumm, Ronald L. Halterman. Metal Enhanced Fluorescence of Dye-Doped Silica Nanoparticles. J. Fluoresc. 2015 25(2) 311-317.
NSU researchers attended the 2016 Arkansas IDeA Network for Biomedical Research Excellence (INBRE) Conference at the University of Arkansas. Pictured from left to right: Cody Poe, Yuliya Kunz, Casey Eddington, Brandy Fultz, Dr. Ratnakar Deole, and Dr. Nathan Green.
NSU milled onto a hair using the Focused Ion Beam (FIB) of the TU Nano-lab.