Publications by authors named "E V Petrov"
Cancer is a major global health problem. The type of malignant neoplasm and the potency of the immune response against tumors are two of the key factors influencing the outcome of the disease. The degree of tumor infiltration by lymphocytes plays an important role in antitumor response development, generally correlating with a favorable prognosis of treatment for certain cancers.
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- A model was created to explain how electron transfer in a molecular junction works, focusing on the roles of π and π* orbitals of a fluorophore in generating current and electroluminescence (EL).
- The study showed that current and EL change in steps near a critical voltage, influenced by both electron transfer processes and transitions within the molecule.
- By analyzing the behavior of current and EL and comparing it with experimental data from a ZnPc-based junction, researchers gained insights into the physical mechanisms at play and determined energy values for the molecule's frontier orbitals and states involved in the optoelectronic processes.
Using relativistic spin-polarized density functional theory calculations we investigate magnetism, electronic structure and topology of the ternary thallium gadolinium dichalcogenides TlGdZ2 (Z= Se and Te) as well as superlattices on their basis. We find TlGdZ2 to have an antiferromagnetic exchange coupling both within and between the Gd layers, which leads to frustration and a complex magnetic structure. The electronic structure calculations reveal both TlGdSe2 and TlGdTe2 to be topologically trivial semiconductors.
View Article and Find Full Text PDFA simple, mild and general method has been developed for the preparation of alkyl nitramines bearing a halogenoalkoxylic moiety. From these reactive halogen intermediates, a few azidoalkoxyl alkyl nitramines have been produced as energetic plasticizers. This simple protocol allows azidonitramino ether plasticizers to be obtained from available precursors in high yields, as it is safe and viable for large-scale operations.
View Article and Find Full Text PDFIntrinsic Magnetic Topological Insulator State Induced by the Jahn-Teller Effect.
J Phys Chem Lett
September 2021
The Jahn-Teller effect is a geometrical distortion which lowers the system symmetry and lifts orbital degeneracy in molecules and solids. It affects a wide range of properties, including magnetic and band structures. In this work we propose a family of Cr-containing intrinsic magnetic topological insulator materials which are subjected to a pseudo-Jahn-Teller effect-CrBiSe, CrBiTeSe, and CrBiTe.
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