O. K. Alekseeva scite author profile

The review is devoted to current and promising areas of application of graphene and materials based on it for generating environmentally friendly hydrogen energy. Analysis of the results of theoretical and experimental studies of hydrogen accumulation in graphene materials confirms the possibility of creating on their basis systems for reversible hydrogen storage, which combine high capacity, stability, and the possibility of rapid hydrogen evolution under conditions acceptable for practical use. Recent advances in the development of chemically and heat-resistant graphene-based membrane materials make it possible to create new gas separation membranes that provide high permeability and selectivity and are promising for hydrogen purification in processes of its production from natural gas. The characteristics of polymer membranes that are currently used in industry for the most part can be significantly improved with small additions of graphene materials. The use of graphene-like materials as a support of nanoparticles or as functional additives in the composition of the electrocatalytic layer in polymer electrolyte membrane fuel cells makes it possible to improve their characteristics and to increase the activity and stability of the electrocatalyst in the reaction of oxygen evolution.

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Methodological, applied and thermodynamic aspects of hydrogen sorption by graphite and related carbon nanostructures

Nechaev¹,

Alekseeva²

2004

Russ. Chem. Rev.

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We have investigated the damage induced by irradiation in Y 1 Ba 2 Cu 3 O 7−x silver added samples. The samples were prepared with 0 and 6.5 wt% of silver and irradiated by high-energy γ irradiation (50-150 Mrad). The roles of silver and dosage irradiation are discussed in terms of their effects on microstructure, crystallinity, critical temperature (T c ) and zero-resistance temperature (T 0 ). After irradiation, T c decreased while the room-temperature electrical resistance increased by a factor of 8 for some of the samples. The difference in T 0 between irradiated and non-irradiated YBCO samples was of the order of 10 K. We have found that the difference is bigger for silver-added samples. We have also observed several changes in diffraction patterns of YBCO and YBCO-silver samples. SEM images, EDS and XPS analysis showed that silver resided inside the grains as single atoms and as metallic clusters. The relative concentrations of the elements in samples were quantified by Auger electron spectroscopy. The J c values showed a gradual increase for radiation doses ranging between 0 and 100 Mrad. For doses up to 100 Mrad, J c decreased because of the weak-link breakage induced by high doses of γ rays.

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New physical technologies for catalyst synthesis and anticorrosion protection

Фатеев

Alekseeva

Lutikova

et al. 2016

International Journal of Hydrogen Energy

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The influence of preparation conditions and small amounts of SnSe on annihilation characteristics of As-Se glass

Alekseeva

Chernov

Михайлов

et al. 1980

Phys. Stat. Sol. (a)

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O. K. Alekseeva

Positron annihilation in point defects of the glassy As-Se system

Graphene and Graphene-Like Materials for Hydrogen Energy

Methodological, applied and thermodynamic aspects of hydrogen sorption by graphite and related carbon nanostructures

New physical technologies for catalyst synthesis and anticorrosion protection

The influence of preparation conditions and small amounts of SnSe on annihilation characteristics of As-Se glass

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