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Goodilin Eugene Alekseevich

Publications in Math-Net.Ru

  1. Synergistic effect of ionic liquid and methylammonium chloride in crystallization of hybrid haloplumbate for perovskite solar cells

    Mendeleev Commun., 34:6 (2024),  840–843
  2. Key features of perovskite solar cells operando stabilization with ionic liquid choline cinnamate

    Mendeleev Commun., 34:5 (2024),  660–663
  3. Symmetry relationships between hybrid lead halide perovskite-derived phases: vacancy ordering as a key classification factor

    Mendeleev Commun., 34:5 (2024),  650–652
  4. Aerogels based on reduced graphite oxide and cobalt oxide nanoparticles (rGO@Co3O4) as sorbents of antibiotics and dyes from aqueous solutions

    Mendeleev Commun., 34:3 (2024),  376–378
  5. Theoretical assessment of chloride ion influence on grain growth of hybrid perovskites

    Mendeleev Commun., 34:3 (2024),  321–324
  6. Enhancing perovskite solar cells efficiency via bulk passivation of light absorbing material with L-cysteine hydrochloride

    Mendeleev Commun., 33:5 (2023),  679–681
  7. Facile method for synthesis of mixed-cation halide perovskites by mild equilibrium conversion via iodine-mediated transport reaction in inert liquid media

    Mendeleev Commun., 33:3 (2023),  311–313
  8. Nanostructured silver octahedra co-modified with amine and aryl-anchored groups for synergistic surface-enhanced Raman spectroscopy

    Mendeleev Commun., 32:6 (2022),  750–753
  9. Theoretical assessment of metal ions doping of hybrid lead bromide perovskites

    Mendeleev Commun., 32:4 (2022),  514–516
  10. Methylammonium bromocuprate (MeNH3)2CuBr3 as a new self-absorption-free solution-processable X-ray scintillator

    Mendeleev Commun., 32:4 (2022),  495–497
  11. Relative distance from the center of mass – A new structural descriptor linking the structure of organic cations with inorganic framework distortions in layered hybrid halide perovskites

    Mendeleev Commun., 32:3 (2022),  315–316
  12. Solvate phases crystallizing from hybrid halide perovskite solutions: Chemical classification and structural relations

    Mendeleev Commun., 32:3 (2022),  311–314
  13. Sub- and supersolidus phase relations of formamidinium-cesium polyiodides

    Mendeleev Commun., 31:4 (2021),  451–453
  14. Iron oxide–silver patchy particles prepared by ultrasonic spray burning

    Mendeleev Commun., 31:3 (2021),  309–311
  15. Solvent-free deposition of hybrid halide perovskites onto thin films of copper iodide p-type conductor

    Mendeleev Commun., 31:2 (2021),  163–165
  16. Preparation, chemical features, structure and applications of membrane materials based on graphene oxide

    Mendeleev Commun., 31:2 (2021),  137–148
  17. Optical properties and electronic structure of methylammonium iodocuprate as an X-ray scintillator

    Mendeleev Commun., 31:1 (2021),  14–16
  18. Theoretical assessment of thermodynamic stability of 2D octane-1,8-diammonium lead halide perovskites

    Mendeleev Commun., 30:3 (2020),  279–281
  19. Probing lipids in biological membranes using SERS

    Mendeleev Commun., 29:6 (2019),  635–637
  20. Periodic table of elements and nanotechnology

    Mendeleev Commun., 29:5 (2019),  479–485
  21. Skeleton pseudomorphs of nanostructured silver for the surface-enhanced Raman spectroscopy

    Mendeleev Commun., 29:4 (2019),  395–397
  22. Hierarchical structure of SERS substrates possessing the silver ring morphology

    Mendeleev Commun., 29:3 (2019),  269–272
  23. Humic acid-stabilized superparamagnetic maghemite nanoparticles: surface charge and embryotoxicity evaluation

    Nanosystems: Physics, Chemistry, Mathematics, 10:2 (2019),  184–189
  24. New hierarchical titania-based structures for photocatalysis

    Mendeleev Commun., 28:5 (2018),  541–542
  25. Template synthesis of methylammonium lead iodide in the matrix of anodic titanium dioxide via the direct conversion of electrodeposited elemental lead

    Mendeleev Commun., 28:5 (2018),  487–489
  26. Electrodeposition of porous CuSCN layers as hole-conducting material for perovskite solar cells

    Mendeleev Commun., 28:4 (2018),  378–380
  27. Synthesis and crystal structure of a new hybrid methylammonium iodocuprate

    Mendeleev Commun., 28:3 (2018),  245–247
  28. Isolation of methylammonium room temperature reactive polyiodide melt into a new starch complex

    Mendeleev Commun., 28:3 (2018),  242–244
  29. Surface-enhanced Raman spectroscopy in modern chemical analysis: advances and prospects

    Usp. Khim., 87:8 (2018),  741–770
  30. Nanocomposites based on tubular and onion nanostructures of molybdenum and tungsten disulfides: inorganic design, functional properties and applications

    Usp. Khim., 87:3 (2018),  251–271
  31. Revisiting preparation routes of SERS materials

    Nanosystems: Physics, Chemistry, Mathematics, 8:5 (2017),  670–676
  32. Two facile routes for functionalization of WS$_2$ nanotubes with silver nanoparticles

    Nanosystems: Physics, Chemistry, Mathematics, 8:5 (2017),  628–634
  33. Vapor phase SERS sensor based on mesoporous silica decorated with silver nanoparticles

    Nanosystems: Physics, Chemistry, Mathematics, 8:5 (2017),  579–585
  34. One-pot preparation of SERS nanocomposites of silver and graphene oxide with tunable properties

    Mendeleev Commun., 26:3 (2016),  231–234
  35. Nanostructured silver materials for noninvasive medical diagnostics by surface-enhanced Raman spectroscopy

    Mendeleev Commun., 26:3 (2016),  177–186
  36. Plasmonic properties of aged silver hydrosols

    Mendeleev Commun., 26:1 (2016),  32–34
  37. Polymer-coated substrates for surface enhanced Raman spectroscopy

    Mendeleev Commun., 25:6 (2015),  460–462
  38. Investigation of interactions of gaseous titanium tetrachloride with water aerosol by in-situ small-angle X-ray scattering using sincrotrone irradiation

    Nanosystems: Physics, Chemistry, Mathematics, 4:1 (2013),  139–147
  39. Synthesis of low-dimensional spin-peierls magnetic Cu$_{1-x}$Ni$_{x}$GeO$_{3}$

    Nanosystems: Physics, Chemistry, Mathematics, 4:1 (2013),  98–104
  40. Influence of silver hydrosols on structural integrity of erythrocytes

    Nanosystems: Physics, Chemistry, Mathematics, 4:1 (2013),  66–71
  41. Direct preparation of anion-free pure silver hydrosols

    Mendeleev Commun., 21:6 (2011),  312–314
  42. Silica microsphere decoration with silver nanoparticles by an impregnation and reduction technique

    Mendeleev Commun., 21:2 (2011),  77–79
  43. Modification of quantum dots with nucleic acids

    Usp. Khim., 80:12 (2011),  1263–1277
  44. FM-AFM crossover in vanadium oxide nanomaterials

    Pis'ma v Zh. Èksper. Teoret. Fiz., 91:1 (2010),  12–16
  45. Hydrothermal synthesis of a novel phase of vanadia-based nanowhiskers

    Mendeleev Commun., 20:3 (2010),  153–155
  46. Impedance spectroscopy study of lithium ion diffusion in a new cathode material based on vanadium pentoxide

    Mendeleev Commun., 20:1 (2010),  12–14
  47. Synthesis, chemical modification and electrochemical behaviour of layered sodium manganese dioxide

    Mendeleev Commun., 19:4 (2009),  187–189
  48. New environmental nontoxic agents for the preparation of core-shell magnetic nanoparticles

    Mendeleev Commun., 19:2 (2009),  72–74
  49. Soluble microcapsules for non-toxic magnetic fluids

    Mendeleev Commun., 19:1 (2009),  4–6
  50. Key trends in basic and application-oriented research on nanomaterials

    Usp. Khim., 78:9 (2009),  867–888
  51. Surfactants in the formation of vanadium oxide nanotubes

    Mendeleev Commun., 18:2 (2008),  71–72
  52. Sensor properties of vanadium oxide nanotubes

    Mendeleev Commun., 18:1 (2008),  6–7
  53. Mössbauer investigations of the CaMn$_7$O$_{12}$ double manganite with the nuclei of $^{57}$Fe probe atoms

    Pis'ma v Zh. Èksper. Teoret. Fiz., 85:9 (2007),  544–548
  54. Flexible cathode materials based on V2O5 xerogels reinforced with electroactive Ba6Mn24O48 whiskers

    Mendeleev Commun., 17:5 (2007),  255–257
  55. Nanostructured Ba6Mn24O48 whiskers

    Mendeleev Commun., 17:1 (2007),  16–17
  56. CaCuMn$_6$O$_{12}$ vs. CaCu$_2$Mn$_5$O$_{12}$: a comparative study

    Pis'ma v Zh. Èksper. Teoret. Fiz., 82:10 (2005),  724–727
  57. Nature of low-temperature phase transitions in CaMn7O12

    Pis'ma v Zh. Èksper. Teoret. Fiz., 82:7 (2005),  498–500
  58. Preparation and properties of electrochromic coatings based on nanoparticle tungsten oxide

    Mendeleev Commun., 15:5 (2005),  178–180
  59. Magnetoresistive ‘necked-grain’ CaCuMn6O12 ceramics prepared by ultrasonic aerosol spray pyrolysis

    Mendeleev Commun., 15:4 (2005),  131–133
  60. Thermal instability of a cation-disordered NdBa2Cu3O7 superconductor

    Mendeleev Commun., 14:4 (2004),  161–163
  61. Processing-dependent CMR properties of Ca(Cu,Mn)7O12 manganites

    Mendeleev Commun., 14:4 (2004),  153–155
  62. Crystallization of amino acids on substrates with superficial chiral reliefs

    Mendeleev Commun., 14:4 (2004),  150–152
  63. Structural and microstructural features of functional materials based on cuprates and manganites

    Usp. Khim., 73:9 (2004),  954–973
  64. Chemical principles of preparation of metal-oxide superconductors

    Usp. Khim., 69:1 (2000),  3–40

  65. Life in science of academician Yuriy Tretyakov

    Nanosystems: Physics, Chemistry, Mathematics, 4:1 (2013),  5–13
  66. Reply to the comment “Nature of low-temperature…”

    Pis'ma v Zh. Èksper. Teoret. Fiz., 83:5 (2006),  262–1


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