Abstract
Abstract
Molecular interactions in clusters have always been an important problem as to theoretical and experimental studies. In this paper, we describe a combination of spectrometric techniques for experimental analysis of molecular interactions and dynamics in clusters. We study different types of biological molecules (for instance, well-known albumin molecule) and metallic nanoparticles (for instance, Fe3O4) while their binding in solutions with help of laser correlation and absorption spectrometric techniques. Results of spectrometry of biomolecules interacting with metals show different degrees of association between different molecules and nanoparticles. This paper offers original data on spectrometry of such processes, which is useful both for medical and bioelectronics problems.
Subject
General Physics and Astronomy
Reference25 articles.
1. Self-assembled biomacromolecular films as a basis for nonlinear optical devices;Baranov,2018
2. The Sounding of Hydrogen Sulfide Molecules by the Raman Light Scattering Lidar Installed on a Flying Platform;Privalov;Optics and Spectroscopy,2018
3. Rapid screening of classic galactosemia patients: a proof-of-concept study using high-throughput FTIR analysis of plasma;Lacombe;Analyst,2015
4. The universal optical method for condition control of flowing medium;Grebenikova;Journal of Physics: Conference Series,2018
5. Features of monitoring the state of the liquid medium by refractometer;Grebenikova;Journal of Physics: Conference Series,2018