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Education
In 1983, Natalia Dubrovinskaia earned a Master of Science degree in geochemistry from Moscow State University and she received her PhD in crystallography and crystal physics at the same institution 6 years later. Working as a senior researcher fellow until 2007, she finished the Habilitation of crystallography and Umhabilitation the following year at University of Bayreuth, Germany. In 2011, she had worked as a staff scientist at the University of Heidelberg.

Personal Life
Natalia Dubrovinskaia is married to Leonid Dubrovinsky, a geoscientist at University of Bayreuth. Together both her and her husband have been working as a scientific couple for the past four decades.

Research
Throughout the career of Professor Dubrovinskaia, she has published over 222 papers cover a variety of topics but mostly focus on Crystallography, Diamond anvil cell, Analytical chemistry, Diffraction and Diamond. Her extensive research in the field of biology encompasses various subjects, such as X-ray crystallography, Bulk modulus, and Boron. Additionally, her investigation using Diamond anvil cell focuses on areas like Mineralogy, specifically related to Mantle and Stishovite, as well as Thermodynamics, which has connections to fields like Core. Her works in Analytical chemistry encompasses Ab initio quantum chemistry methods and Ambient pressure, while her Diffraction study integrates various areas including Elasticity, Phase transition, Single crystal, Synchrotron, and Isostructural. Her investigation delves into the correlation between Diamond and topics such as Chemical engineering, which intersect with challenges in Metal-related issues.

Dubrovinskaia and Dubrovinsky use high-pressure techniques to create innovative materials with unique features and to investigate physical and chemical events at extreme temperatures. They create novel apparatus to enable advanced in-house and synchrotron radiation facility experiments at high and ultra-high static pressures. During the last decade, they have concentrated their effort on developing high-pressure single-crystal x-ray diffraction method in a diamond anvil cell (DAC). Natalia and Leonid's work have increased the static pressure range feasible in a DAC to 1 terapascal (TPa), allowing single-crystal x-ray diffraction investigations at simultaneous high pressures of over 150 gigapascals (GPa) and temperature of thousands of degrees.

Publications
Natalia Dubrovinskaia as been an author and affiliate with the following publications: