2018 - Member of Academia Europaea
Her primary areas of investigation include Crystallography, Phase transition, Hydrogen bond, Polymorphism and Intermolecular force. Her work in the fields of Crystallography, such as Crystal structure and Monoclinic crystal system, overlaps with other areas such as Hydrostatic pressure. Her Crystal structure research is multidisciplinary, incorporating elements of Crystal, Stereochemistry and Isomerization.
Her biological study spans a wide range of topics, including Phase and Analytical chemistry. Her work carried out in the field of Hydrogen bond brings together such families of science as Bond length, Diffraction and Anisotropy. Her work deals with themes such as Computational chemistry, Intramolecular force and Nanotechnology, which intersect with Intermolecular force.
Elena V. Boldyreva mostly deals with Crystallography, Crystal structure, Hydrogen bond, Phase transition and Stereochemistry. The study incorporates disciplines such as X-ray crystallography, Molecule and Raman spectroscopy in addition to Crystallography. Her Crystal structure research includes elements of Ion, Crystal, Oxalate and Anisotropy.
The various areas that Elena V. Boldyreva examines in her Hydrogen bond study include Amino acid, Crystallization, Intermolecular force, Polymorphism and Infrared spectroscopy. Her work in Phase transition tackles topics such as Atmospheric temperature range which are related to areas like Calorimetry. Her Monoclinic crystal system study integrates concerns from other disciplines, such as Orthorhombic crystal system, Tetragonal crystal system and Diamond anvil cell.
Elena V. Boldyreva mainly investigates Crystallography, Crystal structure, Hydrogen bond, Crystal and Phase transition. Her Crystallography research incorporates themes from Covalent bond, Cocrystal, Hydrate, Ion and Radical. Her study explores the link between Crystal structure and topics such as Single crystal that cross with problems in A diamond and Optoelectronics.
Her Hydrogen bond study combines topics in areas such as Orthorhombic crystal system, Crystallization, Infrared spectroscopy and Monoclinic crystal system. Her Crystal research incorporates elements of Chemical physics, Deformation, Diffraction, Benzoic acid and Isomerization. The Phase transition study combines topics in areas such as Anisotropy, Atmospheric temperature range, Compressibility and Intermolecular force.
Crystal, Chemical physics, Phase transition, Intermolecular force and Chemical engineering are her primary areas of study. Her Crystal study combines topics from a wide range of disciplines, such as Nucleation, Inorganic chemistry, Chemical composition, Diffraction and Anisotropy. Elena V. Boldyreva combines subjects such as Condensed matter physics, Crystal structure and Transition point with her study of Anisotropy.
Within one scientific family, Elena V. Boldyreva focuses on topics pertaining to Deformation under Chemical physics, and may sometimes address concerns connected to Liquid crystal, Single crystal and Elastomer. Her studies in Phase transition integrate themes in fields like Compressibility and Equation of state. Her Intermolecular force research is multidisciplinary, relying on both Phase, Plastic crystal, Hydrogen bond, Thermal expansion and Engineering physics.
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Mechanochemistry of inorganic and organic systems: what is similar, what is different?
Chemical Society Reviews (2013)
Mechanically Responsive Molecular Crystals
Panče Naumov;Stanislav Chizhik;Manas K. Panda;Naba K. Nath.
Chemical Reviews (2015)
High-pressure diffraction studies of molecular organic solids. A personal view
Elena V. Boldyreva.
Acta Crystallographica Section A (2008)
Effect of High Pressure on the Polymorphs of Paracetamol
E. V. Boldyreva;T. P. Shakhtshneider;H. Ahsbahs;H. Sowa.
Journal of Thermal Analysis and Calorimetry (2002)
Polymorphism of glycine thermodynamic aspects. Part I. Relative stability of the polymorphs
E. V. Boldyreva;V. A. Drebushchak;T. N. Drebushchak;I. E. Paukov.
Journal of Thermal Analysis and Calorimetry (2003)
Dynamic single crystals: kinematic analysis of photoinduced crystal jumping (the photosalient effect).
Panče Naumov;Subash Chandra Sahoo;Boris A. Zakharov;Boris A. Zakharov;Elena V. Boldyreva;Elena V. Boldyreva.
Angewandte Chemie (2013)
A reversible pressure-induced phase transition in β-glycine at 0.76 GPa
S.V. Goryainov;E.N. Kolesnik;E.V. Boldyreva.
Physica B-condensed Matter (2005)
Raman observation of a new (ζ) polymorph of glycine
S.V. Goryainov;E.V. Boldyreva;E.N. Kolesnik.
Chemical Physics Letters (2006)
Effect of hydrostatic pressure on the γ-polymorph of glycine 1. A polymorphic transition into a new δ-form
Elena V. Boldyreva;Svetlana N. Ivashevskaya;Heidrun Sowa;Hans Ahsbahs.
Zeitschrift Fur Kristallographie (2005)
High-pressure-induced structural changes in molecular crystals preserving the space group symmetry: anisotropic distortion/isosymmetric polymorphism
Elena V. Boldyreva.
Crystal Engineering (2003)
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