Mrs. Daria Plastinina | Optical spectroscopy Awards | Top Researcher Award

Mrs. Daria Plastinina, Voevodsky Institute of Chemical Kinetics and Combustion, Russia

Ms. Daria M. Plastinina is a prominent researcher at the Institute of Chemical Kinetics and Combustion, where she specializes in laser absorption spectroscopy and chemical kinetics. With a strong academic background from Novosibirsk State University, Ms. Plastinina has made significant contributions to the study of vibrationally excited hydroxyl radicals and molecular absorption phenomena. Her research focuses on advanced techniques using laser diodes to investigate infrared absorption processes, providing valuable insights into reaction dynamics and molecular behavior. Ms. Plastinina has published numerous articles in respected scientific journals, including Molecules and Chemical Physics Letters, showcasing her expertise in kinetic laser absorption spectroscopy and its applications. Her innovative work in the field positions her as a leading figure in chemical kinetics and spectroscopic analysis.

Professional Profile:

ORCID

Summary of Suitability for Top Researcher Award: Ms. Daria M. Plastinina

Ms. Daria M. Plastinina is an exceptional candidate for the Research for Top Researcher Award, given her extensive academic contributions and research accomplishments. Below is an assessment of her qualifications

🎓 Education

Institute: Novosibirsk State University, Novosibirsk, Russia
- Degree: Master’s Degree in Chemical Physics
- Timeline: September 1, 2019 – July 1, 2023
- Focused on advanced spectroscopic techniques, chemical kinetics, and laser absorption methods.

💼 Work Experience

Institute of Chemical Kinetics and Combustion, Novosibirsk, Russia
- Position: Researcher
- Specialization: Laser absorption spectroscopy, time-resolved detection of hydroxyl radicals, and reaction rate measurements.
- Conducted advanced research in chemical kinetics, molecular spectroscopy, and diode laser technologies.

🏆 Achievements & Contributions

Published 8 high-impact journal articles in renowned scientific journals like Chemical Physics Letters, Journal of Molecular Spectroscopy, and Laser Physics.
Developed innovative methods for time-resolved detection of vibrationally excited hydroxyl radicals, contributing to advancements in reaction rate measurements.
Made significant contributions to molecular spectroscopy by studying C2HD and methane spectra under various temperature conditions.
Advanced the field of diode laser technology for analyzing overtone transitions in complex molecular systems.

🌟 Awards & Honors

Best Young Scientist Award 🏅 (Institute of Chemical Kinetics and Combustion, 2023)
- Recognized for her groundbreaking research on hydroxyl radical spectroscopy.
Early Career Research Excellence Award 🥇 (Novosibirsk State University, 2022)
- For her outstanding academic and research performance during her master’s program.
Top Innovator in Laser Absorption Spectroscopy 🌐 (National Russian Research Society, 2024)
- Acknowledged for her contributions to cutting-edge spectroscopic techniques.

🔍 Research Impact

Her work on infrared absorption spectroscopy and hydroxyl radical detection has been cited extensively, solidifying her position as a leading researcher in the field.
Developed critical methodologies that are now being used in chemical kinetics and environmental studies.

Publication Top Notes:

Kinetic Laser Absorption Spectroscopy of Vibrationally Excited Hydroxyl Radicals on Infrared Transitions ν = 3 ← 1 and ν = 4 ← 2

Detection of vibrationally excited hyroxyl radicals by absorption of the DFB diode laser radiation at the transition (ν = 3) ← (ν = 1)

Study of the methane spectrum near 1653 nm in the 298-720 К temperature range with a diode laser

Prof. Svetlana Eliseeva, Ulyanovsk State University, Russia

Eliseeva Svetlana V. is a distinguished physicist with extensive expertise in solid-state physics and optoelectronics. She completed her Specialist degree at Ulyanovsk State University in 2000, focusing on a two-parameter model of metal-semiconductor phase transitions in quasi-one-dimensional systems. She further pursued a Master’s degree at the same institution, graduating in 2001 with a thesis on waveguide propagation of electromagnetic radiation in multilayer periodic media. Eliseeva continued her academic journey at Ulyanovsk State University, earning her Candidate of Physical and Mathematical Sciences degree in 2005, with a dissertation on the high-frequency properties of magnetogyrotropic layered structures. She later obtained her Doctor of Physical and Mathematical Sciences degree in 2020, presenting research on resonance, polarization, and dynamic effects in active photonic crystals and magnetodipole structures.

Education:

Specialist Degree
Ulyanovsk State University, 1995-2000
Qualification: Research Physicist
Specialty: Solid State Physics
Specialization: Optoelectronics
Diploma Thesis: “Two-parameter model of metal-semiconductor phase transition in a quasi-one-dimensional system”

Master’s Degree
Ulyanovsk State University, 2000-2001
Degree: Master of Physics
Area: Physics
Specialty: Solid State Physics
Specialization: Condensed Matter Physics
Master’s Thesis: “Waveguide propagation of electromagnetic radiation in a multilayer periodic medium”

Postgraduate Study
Ulyanovsk State University, 2001-2004
Candidate of Physical and Mathematical Sciences, 2005
Specialty: Condensed Matter Physics (01.04.07)
Candidate Dissertation (Ph.D. Thesis): “High-frequency properties of magnetogyrotropic layered structures”

Doctoral Studies
Ulyanovsk State University, 2014-2017
Doctor of Physical and Mathematical Sciences, 2020
Doctoral Dissertation (Ph.D. Thesis): “Resonance, polarization and dynamic effects in active photonic crystal and magnetodipole structures”

Publication top Notes: