Your search keyword '"Optoacoustic spectroscopy"' showing total 6 results

1. Absorption spectra of nanodiamond aqueous dispersions by optical absorption and optoacoustic spectroscopies

Author

Mikhail V. Korobov, Vladimir P. Zharov, Mikhail A. Proskurnin, Dmitry A. Nedosekin, L.O. Usoltseva, and Dmitry S. Volkov

Subjects

Materials science, Absorption spectroscopy, lcsh:QC221-246, Analytical chemistry, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Spectral line, Nanodiamonds, Optoacoustic spectroscopy, Phase (matter), Nanodiamond aqueous dispersions, Nanodiamond fractionation, lcsh:QC350-467, Radiology, Nuclear Medicine and imaging, Nanodiamond, Absorption (electromagnetic radiation), Range (particle radiation), Optically dense samples, Aqueous solution, 021001 nanoscience & nanotechnology, lcsh:QC1-999, Atomic and Molecular Physics, and Optics, 0104 chemical sciences, Multispectral optoacoustic spectroscopy, lcsh:Acoustics. Sound, Particle size, 0210 nano-technology, lcsh:Physics, lcsh:Optics. Light, Research Article

Abstract

The multispectral modality and technique for optically dense samples of optoacoustic spectroscopy were applied to measure spectra and high absorbances of concentrated aqueous dispersions of undoped nanodiamonds. The data from optoacoustic and optical transmission measurements and DSC data of the mean particle size by the Gibbs–Kelvin equation are compared to estimate the difference in composition of various nanodiamond trademarks. Optoacoustic spectra confirm the contribution of surface dimer chains into the absorption of nanodiamonds in the long wavelength range. Optoacoustic and conventional absorption spectra of aqueous solutions of nanodiamond fractions after centrifugation (15300g) and ultracentrifugation (130000g) revealed a separation of a highly absorbing non-diamond sp2 phase. The two-step separation by ultracentrifugation followed by extra centrifugation made it possible to isolate a highly absorbing and soluble nanodiamond phase with the particle size of 3.6 nm, showing a change in spectra compared to the starting nanodiamond material. Keywords: Optoacoustic spectroscopy, Multispectral optoacoustic spectroscopy, Optically dense samples, Nanodiamonds, Nanodiamond aqueous dispersions, Nanodiamond fractionation

Published

2018

2. Photoacoustic and photothermal methods in spectroscopy and characterization of soils and soil organic matter

Author

Olga B. Rogova, Dmitry S. Volkov, and Mikhail A. Proskurnin

Subjects

Materials science, Photothermal spectroscopy, lcsh:QC221-246, Analytical chemistry, Photoacoustic imaging in biomedicine, 02 engineering and technology, 01 natural sciences, 010309 optics, Soil, Optoacoustic spectroscopy, VSI: ICPPP-20, 0103 physical sciences, Probe microspectroscopy, lcsh:QC350-467, Radiology, Nuclear Medicine and imaging, Spectroscopy, Photoacoustic spectroscopy, Soil organic matter, Photothermal therapy, 021001 nanoscience & nanotechnology, lcsh:QC1-999, Atomic and Molecular Physics, and Optics, Characterization (materials science), lcsh:Acoustics. Sound, Soil water, 0210 nano-technology, Dispersed organic matter, lcsh:Physics, lcsh:Optics. Light

Abstract

Review sums up the application of photoacoustic and photothermal spectroscopies for the analysis and characterization of soils and soil organic matter and discusses the outlooks in this area. Keywords: Photoacoustic spectroscopy, Optoacoustic spectroscopy, Photothermal spectroscopy, Probe microspectroscopy, Soil, Soil organic matter, Dispersed organic matter

Published

2019

3. Photoacoustic and photothermal methods in spectroscopy and characterization of soils and soil organic matter.

Author

Volkov DS, Rogova OB, and Proskurnin MA

Abstract

Review sums up the application of photoacoustic and photothermal spectroscopies for the analysis and characterization of soils and soil organic matter and discusses the outlooks in this area., Competing Interests: No competing interests., (© 2019 The Author(s).)

Published

2019

4. Optoacoustic spectroscopy for real-time monitoring of strongly light-absorbing solutions in applications to analytical chemistry

Author

Mikhail A. Proskurnin, Dmitry S. Volkov, Ivan Pelivanov, and Tatyana A. Filimonova

Subjects

medicine.diagnostic_test, Analytical chemistry, Photometric reactions, Kinetic energy, Fluence, Signal, Atomic and Molecular Physics, and Optics, chemistry.chemical_compound, chemistry, Optoacoustic spectroscopy, Spectrophotometry, Ferroin, Wide-band piezo-detection, medicine, Radiology, Nuclear Medicine and imaging, Ultrasonic sensor, Light absorption, Absorption (electromagnetic radiation), Spectroscopy, Highly concentrated solutions, Reaction monitoring, Research Article

Abstract

An optoacoustic technique for solutions of strongly light-absorbing analytes at 0.1-0.01 mol l(-1) is proposed. The technique is based on the wide-band forward mode detection of temporal profiles of laser-generated ultrasonic pulses (optoacoustic signals). The leading edge of the signal repeats the distribution of the laser fluence in the medium, which makes it possible to determine its optical absorption and investigate its dynamics during a reaction. The range of light-absorption coefficients starts from 1 to 5 and reaches 10(4) to 10(5) cm(-1). The determination of iron(II) as ferroin shows the possibility of probing 0.1 mol l(-1) of iron(II), which was not previously achieved for this reaction by optical spectroscopy. To further prove the concept, kinetic measurements for ferroin decomposition at the level of 0.1 mol l(-1) and at high pHs are performed. The results are compared with spectrophotometry at lower concentrations and show good reproducibility and accuracy of kinetic constants.

Published

2013

5. Absorption spectra of nanodiamond aqueous dispersions by optical absorption and optoacoustic spectroscopies.

Author

Usoltseva LO, Volkov DS, Nedosekin DA, Korobov MV, Proskurnin MA, and Zharov VP

Abstract

The multispectral modality and technique for optically dense samples of optoacoustic spectroscopy were applied to measure spectra and high absorbances of concentrated aqueous dispersions of undoped nanodiamonds. The data from optoacoustic and optical transmission measurements and DSC data of the mean particle size by the Gibbs-Kelvin equation are compared to estimate the difference in composition of various nanodiamond trademarks. Optoacoustic spectra confirm the contribution of surface dimer chains into the absorption of nanodiamonds in the long wavelength range. Optoacoustic and conventional absorption spectra of aqueous solutions of nanodiamond fractions after centrifugation (15300 g ) and ultracentrifugation (130000 g ) revealed a separation of a highly absorbing non-diamond sp 2 phase. The two-step separation by ultracentrifugation followed by extra centrifugation made it possible to isolate a highly absorbing and soluble nanodiamond phase with the particle size of 3.6 nm, showing a change in spectra compared to the starting nanodiamond material.

Published

2018

6. Optoacoustic spectroscopy for real-time monitoring of strongly light-absorbing solutions in applications to analytical chemistry.

Author

Filimonova TA, Volkov DS, Proskurnin MA, and Pelivanov IM

Abstract

An optoacoustic technique for solutions of strongly light-absorbing analytes at 0.1-0.01 mol l(-1) is proposed. The technique is based on the wide-band forward mode detection of temporal profiles of laser-generated ultrasonic pulses (optoacoustic signals). The leading edge of the signal repeats the distribution of the laser fluence in the medium, which makes it possible to determine its optical absorption and investigate its dynamics during a reaction. The range of light-absorption coefficients starts from 1 to 5 and reaches 10(4) to 10(5) cm(-1). The determination of iron(II) as ferroin shows the possibility of probing 0.1 mol l(-1) of iron(II), which was not previously achieved for this reaction by optical spectroscopy. To further prove the concept, kinetic measurements for ferroin decomposition at the level of 0.1 mol l(-1) and at high pHs are performed. The results are compared with spectrophotometry at lower concentrations and show good reproducibility and accuracy of kinetic constants.

Published

2013