Your search keyword '"Zvereva, Irina A."' showing total 10 results

1. Hydrothermally Synthesized ZnCr- and NiCr-Layered Double Hydroxides as Hydrogen Evolution Photocatalysts.

Author

Kurnosenko, Sergei A., Silyukov, Oleg I., Rodionov, Ivan A., Baeva, Anna S., Burov, Andrei A., Kulagina, Alina V., Novikov, Silvestr S., and Zvereva, Irina A.

Subjects

PHOTOCATALYSTS, LAYERED double hydroxides, HETEROGENEOUS catalysis, HYDROGEN evolution reactions, INTERSTITIAL hydrogen generation, HYDROTHERMAL synthesis

Abstract

The layered double hydroxides (LDHs) of transition metals are of great interest as building blocks for the creation of composite photocatalytic materials for hydrogen production, environmental remediation and other applications. However, the synthesis of most LDHs is reported only by the conventional coprecipitation method, which makes it difficult to control the catalyst's crystallinity. In the present study, ZnCr- and NiCr-LDHs have been successfully prepared using a facile hydrothermal approach. Varying the hydrothermal synthesis conditions allowed us to obtain target products with a controllable crystallite size in the range of 2–26 nm and a specific surface area of 45–83 m2∙g−1. The LDHs synthesized were investigated as photocatalysts of hydrogen generation from aqueous methanol. It was revealed that the photocatalytic activity of ZnCr-LDH samples grows monotonically with the increase in their average crystallite size, while that of NiCr-LDH ones reaches a maximum with intermediate-sized crystallites and then decreases due to the specific surface area reduction. The concentration dependence of the hydrogen evolution activity is generally consistent with the standard Langmuir–Hinshelwood model for heterogeneous catalysis. At a methanol content of 50 mol. %, the rate of hydrogen generation over ZnCr- and NiCr-LDHs reaches 88 and 41 μmol∙h−1∙g−1, respectively. The hydrothermally synthesized LDHs with enhanced crystallinity may be of interest for further fabrication of their nanosheets being promising components of new composite photocatalysts. [ABSTRACT FROM AUTHOR]

Published

2024

2. 1D/2D Electrospun Polyvinylidene Fluoride Nanofibers/Carbon Flakes Hybrid Nonmetal Polymeric Photo‐ and Piezocatalyst.

Author

Orudzhev, Farid, Selimov, Daud, Rabadanova, Alina, Shuaibov, Abdulatip, Abdurakhamanov, Magomed, Gulakhmedov, Rashid, Papež, Nikola, Ramazanov, Shikhgasan, Zvereva, Irina, and Částková, Klara

Subjects

POLYVINYLIDENE fluoride, NONMETALS, POLYMERIC membranes, SMART materials, PHOTOCATALYSTS, NANOFIBERS

Abstract

Currently, one of the priority tasks is the development of intelligent materials that are sensitive to stimuli and can be used in catalytic applications for efficient decomposition of organic pollutants. Particularly relevant in this regard is the development of inexpensive non‐metallic hybrid polymer photocatalysts, and the explanation of the mechanism of using light energy in such systems is still the subject of open discussions. In this work, hybrid polymer fiber membranes based on polyvinylidene fluoride (PVDF) with graphite flakes were obtained by electrospinning. The morphology of the obtained samples was investigated using SEM microscopy methods, and their crystalline structure was analysed using XRD, Raman, and FTIR methods. Using RFE spectroscopy, it was shown that the addition of graphite leads to ion‐dipole interaction between the carbon surface and the polymer dipoles, changing the ratio of covalent and semi‐ionic bonds on the surface. The catalytic properties investigated during the decomposition of the organic dye methylene blue (MB) demonstrated high piezocatalytic activity of doped membranes and high photocatalytic activity of PVDF/C0.5. It was established that the photocatalytic activity is due to excitonic excitation. [ABSTRACT FROM AUTHOR]

Published

2023

3. Photocatalytic Activity and Stability of Organically Modified Layered Perovskite-like Titanates HLnTiO 4 (Ln = La, Nd) in the Reaction of Hydrogen Evolution from Aqueous Methanol.

Author

Kurnosenko, Sergei A., Voytovich, Vladimir V., Silyukov, Oleg I., Rodionov, Ivan A., and Zvereva, Irina A.

Subjects

HYDROGEN evolution reactions, INTERSTITIAL hydrogen generation, TITANATES, PHOTOCATALYSTS, HYBRID materials, QUANTUM efficiency, PEROVSKITE, METHANOL

Abstract

Two series of hybrid inorganic–organic materials, prepared via interlayer organic modification of protonated Ruddlesden–Popper phases HLnTiO4 (Ln = La, Nd) with n-alkylamines and n-alkoxy groups of various lengths, have been systematically studied with respect to photocatalytic hydrogen evolution from aqueous methanol under near-ultraviolet irradiation for the first time. Photocatalytic measurements were organized in such a way as to control a wide range of parameters, including the hydrogen generation rate, quantum efficiency of the reaction, potential dark activity of the sample, its actual volume concentration in the suspension, pH of the medium and stability of the photocatalytic material under the operating conditions. The insertion of the organic modifiers into the interlayer space of the titanates allowed obtaining new, more efficient photocatalytic materials, being up to 68 and 29 times superior in the activity in comparison with the initial unmodified compounds HLnTiO4 and a reference photocatalyst TiO2 P25 Degussa, respectively. The hydrogen evolution rate over the samples correlates with the extent of their interlayer hydration, as in the case of the inorganic–organic derivatives of other layered perovskites reported earlier. However, the HLnTiO4-based samples demonstrate increased stability with regard to the photodegradation of the interlayer organic components as compared with related H2Ln2Ti3O10-based hybrid materials. [ABSTRACT FROM AUTHOR]

Published

2023

4. Influence of HB 2 Nb 3 O 10 -Based Nanosheet Photocatalysts (B = Ca, Sr) Preparation Method on Hydrogen Production Efficiency.

Author

Kurnosenko, Sergei A., Voytovich, Vladimir V., Silyukov, Oleg I., Rodionov, Ivan A., Malygina, Ekaterina N., and Zvereva, Irina A.

Subjects

HYDROGEN production, PHOTOCATALYSTS, QUANTUM efficiency, HYDROGEN evolution reactions, PRODUCTION methods, FORMYLATION, INTERSTITIAL hydrogen generation, SURFACE reactions

Abstract

Photocatalytic activity of HB2Nb3O10 perovskite nanosheets (B = Ca, Sr) has been systematically investigated in the reactions of hydrogen production, depending on the method of the photocatalyst preparation: using the pristine nanosheets in the parent suspension without reassembly, filtered nanosheets as well as nanosheets restacked by hydrochloric acid. Photocatalytic measurements were organized in such a way as to control a wide range of parameters, including the hydrogen generation rate, quantum efficiency of the reaction, potential dark activity of the sample as well as stability and pH of the reaction suspension. Exfoliation of the niobates into nanosheets allowed obtaining efficient photocatalysts surpassing the initial bulk materials in the activity up to 55 times and providing apparent quantum efficiency up to 20.8% after surface decoration with a Pt cocatalyst. Among the reassembled samples, greater hydrogen evolution activity was exhibited by simply filtered nanosheets that, unlike the HCl-restacked ones, were found to possess much lower specific surface area in a dry state but contain a perceptible amount of tetrabutylammonium cations on the surface. The activity difference, potentially, is associated with the fact that the filtered nanosheets undergo ultrasonic disaggregation before photocatalytic tests much easier than their HCl-restacked counterparts and, thanks to this, have greater active surface in the reaction suspension. In addition, the enhanced activity of the filtered nanosheets may be due to the presence of tetrabutylammonium as an organic modifier on their surface, which is consistent with the high photocatalytic performance of organically modified layered perovskites considered in our previous reports. [ABSTRACT FROM AUTHOR]

Published

2023

5. Photocatalytic Hydrogen Generation from Aqueous Methanol Solution over n -Butylamine-Intercalated Layered Titanate H 2 La 2 Ti 3 O 10 : Activity and Stability of the Hybrid Photocatalyst.

Author

Rodionov, Ivan A., Gruzdeva, Ekaterina O., Mazur, Anton S., Kurnosenko, Sergei A., Silyukov, Oleg I., and Zvereva, Irina A.

Subjects

INTERSTITIAL hydrogen generation, TITANATES, AQUEOUS solutions, QUANTUM efficiency, HYDROGEN production, OXIDATION of methanol, OXIDATION states, METHANOL

Abstract

The stability of platinized n-butylamine-intercalated layered titanate H2La2Ti3O10 during the process of photocatalytic hydrogen production from aqueous methanol under UV irradiation has been thoroughly investigated by means of XRD, CHN, TG, 13C NMR, BET, SEM and GC-MS analysis. It was revealed that n-butylamine completely abandons the interlayer space and transforms into n-butyraldehyde within 3 h of the reaction, while the particle morphology and specific surface area of the photocatalyst are preserved. The resulting solid phase contains carbon in at least two different oxidation states, which are attributed to the intermediate products of methanol oxidation bound to the perovskite matrix. The activity of the photocatalyst formed in this way is stable in time and strongly depends on the medium pH, which is not typical of either the parent H2La2Ti3O10 or TiO2. An approximate linear equation φ ≈ 29−2∙pH holds for the apparent quantum efficiency of hydrogen production in the 220–340 nm range at 1 mol. % methanol concentration. In the acidic medium, the photocatalyst under study outperforms the platinized H2La2Ti3O10 by more than one order of magnitude. The variation in methanol concentration allowed a maximum quantum efficiency of hydrogen production of 44% at 10 mol. % to be reached. [ABSTRACT FROM AUTHOR]

Published

2022

6. Protonation and Photocatalytic Activity of the Rb2La2Ti3O10 Layered Oxide in the Reaction of Hydrogen Production.

Author

Rodionov, Ivan A., Sokolova, Iuliia P., Silyukov, Oleg I., Burovikhina, Alena A., Fateev, Sergey A., and Zvereva, Irina A.

Subjects

PROTON transfer reactions, CATALYTIC activity, PHOTOCATALYSIS, RUBIDIUM, TITANIUM dioxide, HYDROGEN production

Abstract

The Rb2La2Ti3O10 layered oxide was synthesized by the solid-state method. Three phases with different protonation degrees and intercalated water contents were obtained from the initial compound by the treatment with distilled water and hydrochloric acid. The obtained samples were characterized by powder X-ray diffraction, SEM, X-ray microanalysis, BET, DRS, and TG. It was found that the complete ion exchange of Rb+ for H+ in the layered oxide Rb2La2Ti3O10 proceeds through the formation of two metastable intermediate phases with average protonation degrees of 0.5 and 0.75, which successively transform from one to another. Each of these phase transformations is accompanied not only by the contraction of the interlayer distance but also by the displacement of adjacent perovskite layers by 1/2 of the cell parameter which results in the change in the space group. The photocatalytic activity of obtained samples decreases with the increase in the protonation degree, which correlates with the decrease in the intercalated water content. [ABSTRACT FROM AUTHOR]

Published

2017

7. Photocatalytic Activity of n -Alkylamine and n -Alkoxy Derivatives of Layered Perovskite-like Titanates H 2 Ln 2 Ti 3 O 10 (Ln = La, Nd) in the Reaction of Hydrogen Production from an Aqueous Solution of Methanol.

Author

Kurnosenko, Sergei A., Voytovich, Vladimir V., Silyukov, Oleg I., Rodionov, Ivan A., Kirichenko, Sergei O., Minich, Iana A., Malygina, Ekaterina N., Khramova, Alina D., and Zvereva, Irina A.

Subjects

PHOTOCATALYSTS, TITANATES, HYDROGEN production, AQUEOUS solutions, QUANTUM efficiency, METHANOL, PHTHALIC acid

Abstract

Two series of hybrid inorganic-organic derivatives, obtained via the modification of protonated Ruddlesden–Popper phases H2Ln2Ti3O10 (Ln = La, Nd) with intercalated n-alkylamines and grafted n-alkoxy groups, have been systematically investigated in relation to photocatalytic hydrogen production from a model of 1 mol % aqueous solution of methanol for the first time. Photocatalytic measurements were performed both for bare samples and for their composites with Pt nanoparticles as a cocatalyst using an advanced scheme, including dark stages, monitoring of the volume concentration of the sample in the reaction suspension during the experiment, shifts of its pH and possible exfoliation of layered compounds into nanolayers. It was found that the incorporation of organic components into the interlayer space of the titanates increases their photocatalytic activity up to 117 times compared with that of the initial compounds. Additional platinization of the hybrid samples' surface allowed for achieving apparent quantum efficiency of hydrogen evolution of more than 40%. It was established that the photocatalytic activity of the hybrid samples correlates with the hydration degree of their interlayer space, which is considered a separate reaction zone in photocatalysis, and that hydrogen indeed generates from the aqueous methanol solution rather than from organic components of the derivatives. [ABSTRACT FROM AUTHOR]

Published

2021

8. Synthesis of n -Alkoxy Derivatives of Layered Perovskite-Like Niobate HCa 2 Nb 3 O 10 and Study of Their Photocatalytic Activity for Hydrogen Production from an Aqueous Solution of Methanol.

Author

Voytovich, Vladimir V., Kurnosenko, Sergey A., Silyukov, Oleg I., Rodionov, Ivan A., Bugrov, Alexander N., Minich, Iana A., Malygina, Ekaterina N., and Zvereva, Irina A.

Subjects

PHOTOCATALYSTS, HYDROGEN production, AQUEOUS solutions, QUANTUM efficiency, INTERSTITIAL hydrogen generation, PHTHALIC acid, ETHANOL

Abstract

A series of hybrid inorganic–organic niobates HCa2Nb3O10×ROH, containing n-alkoxy groups of primary alcohols (R = Me, Et, Pr, Bu, Hx, and Dc) grafted in the interlayer space, has been studied for the first time in relation to photocatalytic hydrogen generation from a model 1 mol % aqueous solution of methanol under ultraviolet irradiation. Photocatalytic activity was measured both for bare samples and for their composites with Pt nanoparticles as a cocatalyst. The advanced measurement scheme allowed monitoring the volume concentration of a sample in a suspension during the experiment, its pH, and possible exfoliation of layered compounds into nanolayers. In the series of n-alkoxy derivatives, the maximum rate of hydrogen evolution was achieved over a Pt-loaded ethoxy derivative HCa2Nb3O10×EtOH/Pt. Its apparent quantum efficiency of 20.6% in the 220–350 nm range was found not to be caused by changes in the light absorption region or specific surface area upon ethanol grafting. Moreover, the amounts of hydrogen released during the measurements significantly exceeded those of interlayer organic components, indicating that hydrogen is generated from the reaction solution rather than from the hybrid material. [ABSTRACT FROM AUTHOR]

Published

2021

9. Phase transformations during HLnTiO{sub 4} (Ln=La, Nd) thermolysis and photocatalytic activity of obtained compounds

Author

Zvereva, Irina

Published

2015

10. Phase transformations during HLnTiO4 (Ln=La, Nd) thermolysis and photocatalytic activity of obtained compounds.

Author

Silyukov, Oleg I., Abdulaeva, Liliia D., Burovikhina, Alena A., Rodionov, Ivan A., and Zvereva, Irina A.

Subjects

*ISOPROPYL alcohol, *PHASE transitions, *THERMOLYSIS, *PHOTOCATALYSIS, *PEROVSKITE

Abstract

Layered H Ln TiO 4 ( Ln =La, Nd) compounds belonging to Ruddlesden–Popper phases were found to form partially hydrated compounds Ln 2 Ti 2 O 7 · x H 2 O during thermal dehydration as well as defect oxides Ln 2 □Ti 2 O 7 as final products. Further heating of metastable defect Ln 2 □Ti 2 O 7 substances leads to the formation of pyrochlore-type oxides Ln 2 Ti 2 O 7 ( p ) , with subsequent transformation under higher temperatures to stable layered 110-type perovskites Ln 2 Ti 2 O 7 . The occurring structure transformations lead to an increase of photocatalytic activity in the order of H Ln TiO 4

Published

2015