Скундин Александр Мордухаевич

Публикации в базе данных Math-Net.Ru

1. Effect of electrolyte composition upon the cycleability of Ge-Co-In anodes of lithium-ion batteries
   
   Mendeleev Commun., 35:5 (2025),  563–565
2. Composite cathodes containing $\gamma$-sulfur and reduced graphene oxide for lithium–sulfur batteries
   
   Mendeleev Commun., 35:5 (2025),  560–562
3. Electrochemical behavior of bridged 1,2,4-dioxazolidine derivative in acetonitrile medium on the smooth gold
   
   Mendeleev Commun., 35:4 (2025),  417–419
4. Composite cathode material based on sulfur and microporous carbon for Li–S batteries
   
   Mendeleev Commun., 34:4 (2024),  478–480
5. Electrochemical interaction of lithium and sodium with gallium phosphide
   
   Mendeleev Commun., 34:1 (2024),  88–89
6. NaFe_0.5Mn_0.5PO₄–Ge electrochemical system for sodium-ion batteries
   
   Mendeleev Commun., 33:3 (2023),  318–319
7. Cyclability enhancement and decreasing the irreversible capacity of anodes based on germanium nanowires for lithium-ion batteries
   
   Mendeleev Commun., 31:6 (2021),  842–843
8. A LiNi_0.8Co_0.15Al_0.05O₂/Ge electrochemical system for lithium-ion batteries
   
   Mendeleev Commun., 30:6 (2020),  775–776
9. Твердотельный литий-ионный аккумулятор: структура, технология и характеристики
   
   Письма в ЖТФ, 46:5 (2020),  15–18
10. Phosphorus sulfide as a functional material for sodium-ion batteries
    
    Mendeleev Commun., 29:5 (2019),  556–557
11. The possibility of electrochemical lithium intercalation into a nanodiamond
    
    Mendeleev Commun., 28:6 (2018),  666–667
12. Electrochemical insertion of sodium into nanostructured materials based on germanium
    
    Mendeleev Commun., 28:6 (2018),  659–660
13. Activation of NaFePO₄ with maricite structure for application as a cathode material in sodium-ion batteries
    
    Mendeleev Commun., 27:3 (2017),  263–264
14. New high-capacity anode materials based on gallium-doped lithium titanate
    
    Mendeleev Commun., 26:3 (2016),  238–239
15. An improvement in the ionic conductivity and electrochemical characteristics of LiFePO₄ by heterogeneous doping with NASICON-type phosphate
    
    Mendeleev Commun., 25:3 (2015),  207–208
16. Электродные наноматериалы для литий-ионных аккумуляторов
    
    Усп. хим., 84:8 (2015),  826–852
17. Lithium intercalation and deintercalation into lithium–iron phosphates doped with cobalt
    
    Mendeleev Commun., 23:5 (2013),  251–252
18. Трансформация структуры анодов из макропористого кремния в результате процессов циклического литирования
    
    Физика и техника полупроводников, 47:9 (2013),  1288–1294
19. Кремнийсодержащий нанокомпозит для тонкопленочного литий-ионного аккумулятора
    
    Письма в ЖТФ, 39:7 (2013),  73–78
20. Completely functional composite cathode material based on an aerogel of vanadium oxides
    
    Mendeleev Commun., 21:6 (2011),  315–317
21. Отрицательные электроды для литий-ионных аккумуляторов на основе пористого кремния
    
    Письма в ЖТФ, 37:15 (2011),  87–94
22. Impedance spectroscopy study of lithium ion diffusion in a new cathode material based on vanadium pentoxide
    
    Mendeleev Commun., 20:1 (2010),  12–14
23. Synthesis, chemical modification and electrochemical behaviour of layered sodium manganese dioxide
    
    Mendeleev Commun., 19:4 (2009),  187–189
24. Современное состояние и перспективы развития исследований литиевых аккумуляторов
    
    Усп. хим., 71:4 (2002),  378–398