(151a) Carbon Nanotube Photoluminescence Solvatochromism in Biomedicine: Spectroscopy, Imaging, and Modulation
AIChE Annual Meeting
2019
2019 AIChE Annual Meeting
Nanoscale Science and Engineering Forum
Nanobiotechnology for Sensors and Imaging II
Monday, November 11, 2019 - 12:30pm to 1:00pm
We found that nanotube solvatochromism extends to variations of local electrostatic charge, induced by adsorption/desorption of polyelectrolytes on the nanotube surface, such as proteins and nucleic acids. We also found that dielectric and charge-mediated solvatochromism can be compounded to exacerbate the response. Upon triggered desorption of a polyelectrolyte, such as upon desorption of RNA upon hybridization, for instance, amphiphilic molecules can adsorb to the recently-uncovered nanotube surface. The adsorption displaces water to result in hypsochromic shifting, which can be additive, as polyelectrolyte desorption will also cause a hypsochromic shift. We found that the amphiphile may be a surfactant but, recently, we found that proteins can result in a similar response, facilitating the detection of viruses.
We also developed tools to image changes in nanotube emission in live cells (near-infrared hyperspectral microscopy) and, recently, live animals (preclinical, near-infrared hyperspectral imaging). Carbon nanotube solvatochromism-based sensors, in combination with spectral imaging tools, allow measurements of biomarkers, drugs, and metabolites in live cells and organisms, facilitating improvements in disease detection, drug development, and biomedical research.