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52. Synthesis of silica-titania composite oxide via 'green' aqueous peroxo-route

Author

Ministerio de Economía y Competitividad (España), European Commission, Ministry of Education and Science of the Russian Federation, Russian Government, Krivtsov, I. V., Khainakov, Sergei, García, José R., Ministerio de Economía y Competitividad (España), European Commission, Ministry of Education and Science of the Russian Federation, Russian Government, Krivtsov, I. V., Khainakov, Sergei, and García, José R.

Abstract

The preparation procedure of silica-titania composite oxide using novel solution/sol single precursor containing titanium peroxocomplex and silicic acid has been described. Pechini-type sol-gel process has been used to prepare oxides from the aqueous precursor. Some structural, morphological and textural characteristics of the prepared material have been presented. Composite SiO 2/TiO2 has high surface area (c.a. 300 m2/g), and it is composed of anatase nanoparticles with the mean diameter of 5 nm embedded in amorphous silica, then TiO2 prepared via similar method is presented as a mixture of anatase and rutile phases. The proposed synthetic procedure meets the requirements of "green chemistry". © 2013 Springer Science+Business Media New York.

Published
2013

56. Photoelectrochemical and EPR features of polymeric C 3 N 4 and O-modified C 3 N 4 employed for selective photocatalytic oxidation of alcohols to aldehydes

Author

Vlasta Brezová, Leonardo Palmisano, Igor Krivtsov, Francesca Rita Pomilla, Giuseppe Marcì, Zuzana Barbieriková, Andrea Zaffora, Monica Santamaria, Marina Ilkaeva, Elisa I. García-López, Marci, G, Garcia-Lopez, E, Pomilla, F, Palmisano, L, Zaffora, A, Santamaria, M, Krivtsov, I, Ilkaeva, M, Barbierikova, Z, Brezova, V, Marci G., Garcia-Lopez E.I., Pomilla F.R., Palmisano L., Zaffora A., Santamaria M., Krivtsov I., Ilkaeva M., Barbierikova Z., and Brezova V.

Subjects
O-modified C, 02 engineering and technology, 010402 general chemistry, Photochemistry, 01 natural sciences, Peroxide, Catalysis, C3N4, chemistry.chemical_compound, Photocatalytic partial oxidation, Aromatic alcohol, Partial oxidation, carbon nitride, 5-hydroxymethylfurfural, Chemistry, 5-hydroxymethylfurfural, Aromatic alcohol, C3N4, carbon nitride, EPR, O-modified C3N4, Photocatalytic partial oxidation, Selective photo-oxidation, Photoconductivity, O-modified C3N4, Prepared Material, General Chemistry, 021001 nanoscience & nanotechnology, Selective photo-oxidation, 0104 chemical sciences, Alcohol oxidation, Photocatalysis, Settore CHIM/07 - Fondamenti Chimici Delle Tecnologie, EPR, 0210 nano-technology, Selectivity
Abstract

Four different C 3 N 4 specimens have been prepared, a bulk one (MCN), a thermally etched (MCN-TE), a solid prepared by hydrothermally treating MCN with H 2 O 2 (MCN-H 2 O 2 ) and a polymeric carbon nitride-hydrogen peroxide adduct (MCN-TE-H 2 O 2 ). The principal aim of this work was to correlate the capability of the prepared material to generate reactive oxygen species (ROS), under irradiation, with their photocatalytic activities in terms of conversion and selectivity for partial oxidation reactions. Photoelectrochemical studies revealed that MCN-TE represented the best material in terms of photoconductivity, whereas MCN-H 2 O 2 was defective and evidenced a poor mobility of carriers. EPR studies showed a maximum generation of reactive oxygen species irradiating the MCN-TE sample. The photocatalytic activity of these materials in the selective oxidation of three different alcohols to the corresponding aldehydes, both under UV and natural solar light, showed that the highest conversion was obtained in the presence of the MCN-TE sample, whereas the most selective one was MCN-TE-H 2 O 2 . Under solar light irradiation the performances of the powders were generally better than those under UV light. The characterization of the C 3 N 4 -based materials well justified their photocatalytic activity. The pristine C 3 N 4 materials were more active but less selective than those prepared in the presence of H 2 O 2 .

Published
2019

57. Heteropolyacids supported on boron nitride and carbon nitride for catalytic and catalytic photo-assisted alcohol dehydration

Author

Elisa I. García-López, Francesca Rita Pomilla, Leonarda F. Liotta, Giuseppe Marcì, Juan I. Paredes, Silvia Villar-Rodil, Aida Serrano, Igor Krivtsov, Ministerio de Economía y Competitividad (España), Principado de Asturias, Ministerio de Ciencia, Innovación y Universidades (España), Villar Rodil, Silvia [0000-0002-5832-9971], Paredes Nachón, Juan Ignacio [0000-0002-0044-9153], Villar Rodil, Silvia, Paredes Nachón, Juan Ignacio, Garcia-Lopez E.I., Pomilla F.R., Krivtsov I., Serrano A., Liotta L.F., Villar-Rodil S., Paredes J.I., and Marci' G.

Subjects
Materials science, Photo assisted, Alcohol, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Catalysis, 2-Propanol dehydration, Boron nitride, Carbon nitride, Heteropolyacid, Keggin, Photocatalysis, Wells-Dawson, chemistry.chemical_compound, Heteropolyacid | Keggin, Wells-Dawson, medicine, 2-Propanol dehydration, Dehydration, Photocatalysis, Carbon nitride, General Chemistry, Carbon nitrides, 021001 nanoscience & nanotechnology, medicine.disease, 0104 chemical sciences, Boron nitride, Keggin Wells-Dawson Heteropolyacid Boron nitride Carbon nitride 2-Propanol dehydration Photocatalysis, chemistry, Settore CHIM/07 - Fondamenti Chimici Delle Tecnologie, Methanol, 0210 nano-technology, Nuclear chemistry
Abstract

Keggin H3PW12O40 (PW12) and Wells-Dawson H6P2W18O60 (P2W18) heteropolyacids (HPAs) are photo(catalysts) for various acid-promoted and redox catalytic reactions. Their activity increases if they are deposited on certain supports as metal oxides or carbon materials. Although the surface area and acid-base interactions of the HPAs with supports are considered as key factors for the performance of the binary material, the role of the local structure changes in the HPAs upon their immobilization on solids must be also of primary importance, directly affecting both acidity and photoredox properties. Here, the (photo)catalytic performance of Keggin and Wells-Dawson heteropolytungstates supported on boron nitride (BN) and two types of carbon nitride (C3N4) in the gas-solid 2-propanol dehydration to propene has been studied. Apart from characterizing the materials by a set of conventional laboratory-scale structural and physical-chemical techniques, an insight into the variations of the local structure of supported HPAs is provided by means of X-ray absorption spectroscopy (XAS), and their influence on the supported HPAs (photo)catalytic activity is discussed. The irradiation with UV light increased the activity of both heteropolytungstates with respect to the catalytic experiments. The apparent activation energy calculated for the photo-assisted process resulted always lower with respect to that obtained for the catalytic one alone. Moreover, the materials that showed the highest apparent turnover frequency (TOF) were those in which the HPAs were impregnated on graphitic C3N4 or on BN and, in particular, the highest TOF values were observed at the highest temperature for the PW12/BN and P2W18/BN samples. Interestingly, the highest activity of HPAs supported on BN seems to be due to the stabilization of the W octahedral coordination, according to the XAS data., LFL is grateful to progetto di Ricerca ARS01_00637 Energie per l’Ambiente-TARANTO (PNR 2015-2020) for financial support. IK acknowledges support by Spanish MINECO (MAT2016-78155-C2-1-R), Gobierno del Principado de Asturias (GRUPIN-ID2018-170) and the Alexander von Humboldt Foundation through the Humboldt Research Fellowship. S.V.-R. and J.I.P. acknowledge financial support from the Spanish Ministerio de Ciencia, Innovación y Universidades (MCIU), the Spanish Agencia Estatal de Investigación and European Regional Development Fund (ERDF) through project RTI2018-100832B-I00, and partial funding by Plan de Ciencia, Tecnología e Innovación (PCTI) 2013-2017 del Principado de Asturias and the ERDF (project IDI/2018/000233). A.S acknowledges financial support from the MCIU through the projects MAT2017-86540-C4-1-R and RTI2018-095303-A-C52 and from the Comunidad de Madrid for an “Atracción de Talento Investigador” contract (No. 2017t2/IND5395). The European Synchrotron (ESRF), MCIU and Consejo Superior de Investigaciones Científicas (CSIC) are also acknowledged for the provision of synchrotron radiation facilities. We also thank the BM25-SpLine staff for the technical support beyond their duties.

Published
2021
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58. Selective photocatalytic oxidation of 5-hydroxymethylfurfural to 2,5-furandicarboxaldehyde by polymeric carbon nitride-hydrogen peroxide adduct

Author

Leonardo Palmisano, Eva Díaz, Salvador Ordóñez, Giuseppe Marcì, José R. García, Olena Khainakova, Marina Ilkaeva, Elisa I. García-López, Igor Krivtsov, Ilkaeva, M., Krivtsov, I., García-López, E.I., Marcì, G., Khainakova, O., García, J.R., Palmisano, L., Díaz, E., and Ordóñez, S.

Subjects
Heptazine, Carbon nitride, chemistry.chemical_element, 02 engineering and technology, 010402 general chemistry, Photochemistry, 01 natural sciences, Peroxide, Catalysis, Catalysi, Adduct, chemistry.chemical_compound, Photocatalysi, Physical and Theoretical Chemistry, Hydrogen peroxide, 5-Hydroxymethylfurfural, 021001 nanoscience & nanotechnology, Selective photo-oxidation, 0104 chemical sciences, chemistry, 2,5-Furandicarboxaldehyde, Photocatalysis, Settore CHIM/07 - Fondamenti Chimici Delle Tecnologie, 0210 nano-technology, Carbon
Abstract

Polymeric carbon nitride-hydrogen peroxide adduct (PCN-H2O2) has been prepared, thoroughly characterised and its application for selective photocatalytic conversion of 5-hydroxymethylfurfural (HMF) to 2,5-furandicarboxaldehyde (FDC) in aqueous suspension has been studied. The PCN-H2O2 adduct is stable in aqueous suspension under UV and solar irradiation up to 100 °C. It is also stable up to 200 °C if heated in air, while at temperatures close to 300 °C its decomposition takes place. Based on the obtained characterisation data it has been proposed that H2O2 attaches to the non-polymerised carbon nitride species and to the heptazine nitrogen atoms, thus producing strong hydrogen bonding within the PCN-H2O2 adduct. The blockage of the surface amino-groups in PCN-H2O2 by H2O2 hinders the interaction of HMF with these sites, which are responsible for unselective substrate conversion. PCN-H2O2, although being less active, possesses a superior selectivity in natural solar light assisted oxidation of HMF to FDC reaching 80% with respect to its thermally etched PCN counterpart, which gives rise to a 40–50% selectivity. We believe that the exceptional performance of the applied photocatalyst in the selective photocatalytic conversion of HMF to a high added value FDC in a green solvent under natural illumination makes a significant contribution to the development of environmentally friendly technologies for biomass valorisation.

Published
2018
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59. Local Structure of Supported Keggin and Wells-Dawson Heteropolyacids and Its Influence on the Catalytic Activity

Author

Jorge Casado Espina, Leonarda F. Liotta, Igor Krivtsov, Aida Serrano, Giuseppe Marcì, Elisa I. García-López, Garcia-Lopez E.I., Marci G., Krivtsov I., Casado Espina J., Liotta L.F., Serrano A., Ministerio de Economía y Competitividad (España), Principado de Asturias, Ministry of Education and Science of the Russian Federation, and European Synchrotron Radiation Facility

Subjects
X-ray photoelectron spectroscopy, X-ray absorption near edge spectroscopy, Cluster chemistry, Chemistry, Oxides, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Local structure, 0104 chemical sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Catalysis, Crystallography, General Energy, Settore CHIM/03 - Chimica Generale E Inorganica, Supported Keggin and Wells-Dawson Heteropolyacids, Settore CHIM/07 - Fondamenti Chimici Delle Tecnologie, Physical and Theoretical Chemistry, heteropolyacids, Keggin, Wells-Dawson, catalysis, polyoxometalates, EXAFS, 0210 nano-technology, Materials
Abstract

[EN] Keggin [PW12O40]3– and Wells–Dawson [P2W18O62]6– heteropolyanions are nanosized transition-metal-oxygen clusters belonging to the heteropolyacids (HPAs) family. They are widely used as catalysts due to their high Brønsted acidity, and their dispersion on solid supports favors the accessibility to their acid sites generally increasing the catalytic activity. A series of binary materials composed of Keggin or Wells–Dawson HPAs and SiO2, TiO2, and ZrO2 have been prepared by impregnation or solvothermal methods. Remarkable differences have been found in the catalytic activities among the unsupported and supported HPAs. These differences have been correlated in the past to the structural changes of the HPAs due to the cluster–support interaction, which is different depending on preparation methodologies of the binary material. In the present work, the modes of interaction between the two types of HPA, Keggin and Wells–Dawson, and various supports have been studied by X-ray absorption spectroscopy. The obtained data have been compared to the characterization of the same materials reported before by using different bulk and surface physicochemical techniques. The characterization results were then used to correlate the interaction modes between the HPAs and the supports with the catalytic performances reported for 2-propanol dehydration to propene and for propene hydration to 2-propanol. The results reveal that the deposition of HPA by impregnation or solvothermal treatment may cause distortions in the H3PW12O40 cluster structure depending on the presence of stronger (TiO2 and ZrO2) or weaker (SiO2) basic sites in the support, respectively. Moreover, the type of preparation method affects the structure and acidic properties of the supported HPAs. In particular, during the preparation of TiO2 and ZrO2 with HPA by in situ solvothermal method, the reaction of the HPA with the products of metal alkoxides hydrolysis occurs with consequent destruction of the Keggin structure. Therefore, the catalytic activity of such materials is poor. These modifications, in addition to the bulk and surface features of the supported HPAs, affected the catalytic 2-propanol dehydration to a significant extent. On the contrary, the propene hydration was less influenced, probably, due to the propene nonpolar nature., I.K. acknowledges the financial support from Spanish MINECO (MAT2016-78155-C2-1-R), Gobierno del Principado de Asturias (GRUPIN-ID2018-170), and Ministry of Education and Science of the Russian Federation (grant No. 4.9722.2017/8.9). L.F.L. is grateful to progetto di Ricerca ARS01_00637 Energie per l′Ambiente-TARANTO (PNR 2015-2020) for financial support. The authors acknowledge The European Synchrotron (The ESRF), MINECO, and CSIC for the provision of measurements using the BM25-SpLine beamline. They also thank the BM25-SpLine staff for the technical support beyond their duties.

Published
2019
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60. Effect of Substituents on Partial Photocatalytic Oxidation of Aromatic Alcohols Assisted by Polymeric C3N4

Author

Salvador Ordóñez, Marina Ilkaeva, Ekaterina V. Bartashevich, Ksenia Matveeva, Ekaterina Grigoreva, Elisa I. García-López, Leonardo Palmisano, Eva Díaz, Giuseppe Marcì, Igor Krivtsov, Krivtsov I., Ilkaeva M., Garcia-Lopez E.I., Marci G., Palmisano L., Bartashevich E., Grigoreva E., Matveeva K., Diaz E., and Ordonez S.

Subjects
Organic Chemistry, Photochemistry, selective oxidation, Catalysis, Inorganic Chemistry, photocatalysi, chemistry.chemical_compound, chemistry, Benzyl alcohol, Photocatalysis, Settore CHIM/07 - Fondamenti Chimici Delle Tecnologie, carbon nitride, Physical and Theoretical Chemistry, Hydrogen peroxide, Carbon nitride, substituent effect, benzyl alcohol
Abstract

In the present work we scrutinize the effect of substituents in the phenyl ring of the benzyl alcohol on its photo-oxidation to the corresponding benzaldehyde driven by polymeric carbon nitride photocatalyst in aqueous medium. It has been established that electron donating (ED) substituents in para- and ortho-position with respect to the CH2OH-group promote the reactivity of the substrate without compromising the selectivity towards benzaldehyde formation, maintaining it in the range of 84–98 %, if compared to the unsubstituted molecule. The same observation is true for meta-substituted benzyl alcohol with an electron withdrawing (EW) group. On the other hand, the presence of ED-group in meta-position or EW-group in para-position with respect to the CH2OH-group reduces the reactivity as well as the selectivity towards the aldehyde production, resulting in the values of selectivity ranging from 40 to 80 %. Quantum chemical calculations have allowed to establish that the reactivity correlates with the positive charge on the benzylic carbon in benzyl alcohol cation intermediate, while the selectivity, most probably, is conditioned by a negative charge on the carbon atoms in the phenyl ring being a target for an electrophile attack. The modification of the polymeric C3N4 photocatalyst with H2O2 reduces the unselective benzyl alcohol oxidation, thus favouring the higher selectivity towards benzaldehyde production.

Published
2019

61. Water-soluble ionic carbon nitride as unconventional stabilizer for highly catalytically active ultrafine gold nanoparticles.

Author

Elnagar MM, Liessem J, Im C, Mitoraj D, Kibler LA, Neumann C, Turchanin A, Leiter R, Kaiser U, Jacob T, Krivtsov I, and Beranek R

Abstract

Ultrafine metal nanoparticles (NPs) hold promise for applications in many fields, including catalysis. However, ultrasmall NPs are typically prone to aggregation, which often leads to performance losses, such as severe deactivation in catalysis. Conventional stabilization strategies ( e.g. , immobilization, embedding, or surface modification by capping agents) are typically only partly effective and often lead to loss of catalytic activity. Herein, a novel type of stabilizers based on water-soluble ionic (K + and Na + containing) polymeric carbon nitride ( i.e. , K,Na-poly(heptazine imide) = K,Na-PHI) is reported that enables effective stabilization of highly catalytically active ultrafine (size of ∼2-3 nm) gold NPs. Experimental and theoretical comparative studies using different structural units of K,Na-PHI ( i.e. , cyanurate, melonate, cyamelurate) indicate that the presence of functionalized heptazine moieties is crucial for the synthesis and stabilization of small Au NPs. The K,Na-PHI-stabilized Au NPs exhibit remarkable dispersibility and outstanding stability even in solutions of high ionic strength, which is ascribed to more effective charge delocalization in the large heptazine units, resulting in more effective electrostatic stabilization of Au NPs. The outstanding catalytic performance of Au NPs stabilized by K,Na-PHI is demonstrated using the selective reduction of 4-nitrophenol to 4-aminophenol by NaBH 4 as a model reaction, in which they outperform even the benchmark "naked" Au NPs electrostatically stabilized by excess NaBH 4 . This work thus establishes ionic carbon nitrides (PHI) as alternative capping agents enabling effective stabilization without compromising surface catalysis, and opens up a route for further developments in utilizing PHI-based stabilizers for the synthesis of high-performance nanocatalysts.

Published
2023
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62. Enhancing Photocatalysis: Understanding the Mechanistic Diversity in Photocatalysts Modified with Single-Atom Catalytic Sites.

Author

Kruczała K, Neubert S, Dhaka K, Mitoraj D, Jánošíková P, Adler C, Krivtsov I, Patzsch J, Bloh J, Biskupek J, Kaiser U, Hocking RK, Caspary Toroker M, and Beranek R

Abstract

Surface modification of heterogeneous photocatalysts with single-atom catalysts (SACs) is an attractive approach for achieving enhanced photocatalytic performance. However, there is limited knowledge of the mechanism of photocatalytic enhancement in SAC-modified photocatalysts, which makes the rational design of high-performance SAC-based photocatalysts challenging. Herein, a series of photocatalysts for the aerobic degradation of pollutants based on anatase TiO 2 modified with various low-cost, non-noble SACs (vanadate, Cu, and Fe ions) is reported. The most active SAC-modified photocatalysts outperform TiO 2 modified with the corresponding metal oxide nanoparticles and state-of-the-art benchmark photocatalysts such as platinized TiO 2 and commercial P25 powders. A combination of in situ electron paramagnetic resonance spectroscopy and theoretical calculations reveal that the best-performing photocatalysts modified with Cu(II) and vanadate SACs exhibit significant differences in the mechanism of activity enhancement, particularly with respect to the rate of oxygen reduction. The superior performance of vanadate SAC-modified TiO 2 is found to be related to the shallow character of the SAC-induced intragap states, which allows for both the effective extraction of photogenerated electrons and fast catalytic turnover in the reduction of dioxygen, which translates directly into diminished recombination. These results provide essential guidelines for developing efficient SAC-based photocatalysts., (© 2023 The Authors. Advanced Science published by Wiley-VCH GmbH.)

Published
2023
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64. A Study in Red: The Overlooked Role of Azo-Moieties in Polymeric Carbon Nitride Photocatalysts with Strongly Extended Optical Absorption.

Author

Mitoraj D, Krivtsov I, Li C, Rajagopal A, Im C, Adler C, Köble K, Khainakova O, Hniopek J, Neumann C, Turchanin A, da Silva I, Schmitt M, Leiter R, Lehnert T, Popp J, Kaiser U, Jacob T, Streb C, Dietzek B, and Beranek R

Abstract

The unique optical and photoredox properties of heptazine-based polymeric carbon nitride (PCN) materials make them promising semiconductors for driving various productive photocatalytic conversions. However, their typical absorption onset at ca. 430-450 nm is still far from optimum for efficient sunlight harvesting. Despite many reports of successful attempts to extend the light absorption range of PCNs, the determination of the structural features responsible for the red shift of the light absorption edge beyond 450 nm has often been obstructed by the highly disordered structure of PCNs and/or low content of the moieties responsible for changes in optical and electronic properties. In this work, we implement a high-temperature (900 °C) treatment procedure for turning the conventional melamine-derived yellow PCN into a red carbon nitride. This approach preserves the typical PCN structure but incorporates a new functionality that promotes visible light absorption. A detailed characterization of the prepared material reveals that partial heptazine fragmentation accompanied by de-ammonification leads to the formation of azo-groups in the red PCN, a chromophore moiety whose role in shifting the optical absorption edge of PCNs has been overlooked so far. These azo moieties can be activated under visible-light (470 nm) for H 2 evolution even without any additional co-catalyst, but are also responsible for enhanced charge-trapping and radiative recombination, as shown by spectroscopic studies., (© 2021 The Authors. Chemistry - A European Journal published by Wiley-VCH GmbH.)

Published
2021
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66. Anatase-Wrapped Rutile Nanorods as an Effective Electron Collector in Hybrid Photoanodes for Visible Light-Driven Oxygen Evolution.

Author

Gong R, Mitoraj D, Leiter R, Mundszinger M, Mengele AK, Krivtsov I, Biskupek J, Kaiser U, Beranek R, and Rau S

Abstract

Arrays of single crystal TiO 2 rutile nanorods (RNRs) appear highly promising as electron-collecting substrates in hybrid photoanodes as the RNRs offer direct charge carriers transport pathways, contrary to the conventional electrodes prepared from TiO 2 powders that suffer from the numerous charge traps at the grain boundaries. However, the specific surface area of the nanorods is highly limited by their smooth morphology, which might be detrimental in view of utilizing the RNR as a substrate for immobilizing other functional materials. In this study, we developed a novel anatase-wrapped RNR (ARNR) material fabricated by a facile seed layer-free hydrothermal method. The ARNR comprises polycrystalline anatase nanoparticles formed on the surface of RNR, resulting in a large surface area that provides more deposition sites compared to the bare nanorods. Herein, we functionalize ARNR and RNR electrodes with polymeric carbon nitride (CN x ) coupled with a CoO(OH) x cocatalyst for dioxygen evolution. The anatase wrapping of the rutile nanorod scaffold is found to be crucial for effective deposition of CN x and for improved photoanode operation in visible light-driven ( λ > 420 nm) oxygen evolution, yielding a significant enhancement of photocurrent (by the factor of ∼3.7 at 1.23 V vs . RHE) and faradaic efficiency of oxygen evolution (by the factor of ∼2) as compared to photoanodes without anatase interlayer. This study thus highlights the importance of careful interfacial engineering in constructing photoelectrocatalytic systems for solar energy conversion and paves the way for the use of ARNR-based electron collectors in further hybrid and composite photochemical architectures for solar fuel production., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Gong, Mitoraj, Leiter, Mundszinger, Mengele, Krivtsov, Biskupek, Kaiser, Beranek and Rau.)

Published
2021
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67. Sol-Gel Processing of Water-Soluble Carbon Nitride Enables High-Performance Photoanodes*.

Author

Adler C, Krivtsov I, Mitoraj D, Dos Santos-Gómez L, García-Granda S, Neumann C, Kund J, Kranz C, Mizaikoff B, Turchanin A, and Beranek R

Abstract

In spite of the enormous promise that polymeric carbon nitride (PCN) materials hold for various applications, the fabrication of high-quality, binder-free PCN films and electrodes has been a largely elusive goal to date. Here, we tackle this challenge by devising, for the first time, a water-based sol-gel approach that enables facile preparation of thin films based on poly(heptazine imide) (PHI), a polymer belonging to the PCN family. The sol-gel process capitalizes on the use of a water-soluble PHI precursor that allows formation of a non-covalent hydrogel. The hydrogel can be deposited on conductive substrates, resulting in formation of mechanically stable polymeric thin layers. The resulting photoanodes exhibit unprecedented photoelectrochemical (PEC) performance in alcohol reforming and highly selective (∼100 %) conversions with very high photocurrents (>0.25 mA cm -2 under 2 sun) down to <0 V vs. RHE. This enables even effective PEC operation under zero-bias conditions and represents the very first example of a 'soft matter'-based PEC system capable of bias-free photoreforming. The robust binder-free films derived from sol-gel processing of water-soluble PCN thus constitute a new paradigm for high-performance 'soft matter' photoelectrocatalytic systems and pave the way for further applications in which high-quality PCN films are required., (© 2021 The Authors. ChemSusChem published by Wiley-VCH GmbH.)

Published
2021
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68. Photodriven Charge Accumulation and Carrier Dynamics in a Water-Soluble Carbon Nitride Photocatalyst.

Author

Li C, Hofmeister E, Krivtsov I, Mitoraj D, Adler C, Beranek R, and Dietzek B

Abstract

Charge accumulation in photoactive molecules and materials holds great promise in solar energy conversion as it allows for decoupling solar-driven charging from (dark) redox reactions. In this contribution, light-driven charge accumulation was investigated for a recently reported novel water-soluble carbon nitride [K,Na-poly(heptazine imide); K,Na-PHI] photocatalyst, which exhibits excellent activity and stability in highly selective photocatalytic oxidation of alcohols and concurrent reduction of dioxygen to H 2 O 2 under quasi-homogeneous conditions. An excellent charge storage ability of the K,Na-PHI material was demonstrated, showing an optimal density of accumulated electrons (32.2 μmol of electrons per gram) in the presence of 10 vol % MeOH as a sacrificial electron donor. The long-lived electrons accumulated under anaerobic conditions as K,Na-PHI .- radical ions were utilized in interfacial electron transfer to O 2 or methyl viologen in a subsequent dark reaction. Ultrafast time-resolved spectroscopy was employed to reveal the kinetics of charge-carrier recombination and methanol oxidation. Geminate recombination of electrons and holes within approximately 100 ps was followed by trap-assisted recombination. The presence of methanol as a sacrificial electron donor accelerated the decay of the transient absorption signal when a static sample was used. This behavior was ascribed to the faster charge recombination in the presence of the radical anions generated after hole extraction. The work suggests that photodriven electron storage in the water-soluble carbon nitride is enabled by localized trap states, and highlights the importance of the effective electron donor for creating long-lived photo-generated carbon nitride radicals., (© 2021 The Authors. ChemSusChem published by Wiley-VCH GmbH.)

Published
2021
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70. On the importance of catalysis in photocatalysis: Triggering of photocatalysis at well-defined anatase TiO 2 crystals through facet-specific deposition of oxygen reduction cocatalyst.

Author

Adler C, Mitoraj D, Krivtsov I, and Beranek R

Abstract

Well-defined anatase TiO 2 crystals with co-exposed {101} and {001} facets represent a promising platform for fundamental studies in photocatalysis and for the development of novel photocatalytic systems exhibiting higher than usual quantum efficiencies. Herein, we present protocols enabling the photoreductive deposition of Pt nanoparticles onto anatase TiO 2 micro-sized (1-3 µm) crystals prepared by hydrothermal growth in fluoride-containing solutions to be carried out either facet-selectively (on {101} facets only) or facet-non-selectively (on both {101} and {001} facets). The photocatalytic behavior of the resulting photocatalysts is studied using investigations of oxidative photodegradation of a test pollutant [4-chlorophenol (4-CP)], photocurrent measurements, and kinetic analysis of the open-circuit photopotential decay. We demonstrate that the deposition of Pt nanoparticles effectively triggers the photocatalytic degradation of 4-CP at anatase crystals that are otherwise completely inactive. The role of Pt in triggering the photocatalysis is demonstrated to consist chiefly in the catalytic enhancement of the reaction rate of oxygen reduction by the photogenerated electrons. Only the platinized {101} facets contribute to photocatalysis, whereas the {001} facets, in the literature often referred to as "highly reactive", are even after platinization completely inactive, most likely due to (1 × 4) surface reconstruction upon the heat treatment necessary to decrease the amount of surface fluorides. Based on our results, we highlight the eminent role of efficient surface catalysis for effective charge separation and provide specific design rules for further development of photocatalysts with high quantum efficiencies.

Published
2020
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71. Water-Soluble Polymeric Carbon Nitride Colloidal Nanoparticles for Highly Selective Quasi-Homogeneous Photocatalysis.

Author

Krivtsov I, Mitoraj D, Adler C, Ilkaeva M, Sardo M, Mafra L, Neumann C, Turchanin A, Li C, Dietzek B, Leiter R, Biskupek J, Kaiser U, Im C, Kirchhoff B, Jacob T, and Beranek R

Abstract

Heptazine-based polymeric carbon nitrides (PCN) are promising photocatalysts for light-driven redox transformations. However, their activity is hampered by low surface area resulting in low concentration of accessible active sites. Herein, we report a bottom-up preparation of PCN nanoparticles with a narrow size distribution (ca. 10±3 nm), which are fully soluble in water showing no gelation or precipitation over several months. They allow photocatalysis to be carried out under quasi-homogeneous conditions. The superior performance of water-soluble PCN, compared to conventional solid PCN, is shown in photocatalytic H 2 O 2 production via reduction of oxygen accompanied by highly selective photooxidation of 4-methoxybenzyl alcohol and benzyl alcohol or lignocellulose-derived feedstock (ethanol, glycerol, glucose). The dissolved photocatalyst can be easily recovered and re-dissolved by simple modulation of the ionic strength of the medium, without any loss of activity and selectivity., (© 2019 The Authors. Published by Wiley-VCH Verlag GmbH & Co. KGaA.)

Published
2020
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72. Adsorption of Native Amino Acids on Nanocrystalline TiO 2 : Physical Chemistry, QSPR, and Theoretical Modeling.

Author

Shchelokov A, Palko N, Potemkin V, Grishina M, Morozov R, Korina E, Uchaev D, Krivtsov I, and Bol'shakov O

Subjects
Adsorption, Quantitative Structure-Activity Relationship, Temperature, Thermodynamics, Amino Acids chemistry, Titanium chemistry
Abstract

The affinity of biomolecules, such as peptides and proteins, with inorganic surfaces, is a fundamental topic in biotechnology and bionanotechnology. Amino acids are often used as "model" bits of peptides or proteins for studying their properties in different environments and/or developing functional surfaces. Despite great demand for knowledge about amino acid interactions with metal oxide surfaces, studies on the issue represent a fragmentary picture. In this paper, we describe amino acid adsorption on nanocrystalline anatase systematically at uniform conditions. Analysis of the Gibbs free adsorption energy indicated how the aliphatic, aromatic, polar, and charged side chain groups affect the binding affinity of the amino acids. Thermodynamic features of the l-amino acid adsorption receive thorough interpretation with calculated molecular descriptors. Theoretical modeling shows that amino acids complex with TiO 2 nanoparticles as zwitterions via ammonium group.

Published
2019
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73. Photocatalytic degradation of 2-(4-methylphenoxy)ethanol over TiO 2 spheres.

Author

Ilkaeva M, Krivtsov I, Díaz E, Amghouz Z, Patiño Y, Khainakov S, García JR, and Ordóñez S

Abstract

The photocatalytic TiO 2 -assisted decomposition of 2-(4-methylphenoxy)ethanol (MPET) in aqueous solution has been studied for the first time. The intermediate compounds of MPET photodegradation have been also determined. A toxic p-cresol is formed in significant quantities during the photocatalytic reaction. A solvent-exchange approach for a template-free preparation of spherical TiO 2 particles has been described, which is based solely on precipitation of hydrous titania from aqueous titanium peroxo complex by using organic solvents. The proposed method favours the formation of spherical titania particles with a mean size varying from 50 to 260nm depending on the choice of solvent. The procedure for converting nonporous titania spheres into mesoporous material maintaining the same spherical morphology has been developed. The synthesized TiO 2 spheres demonstrate a degree of MPET photo-degradation close to that of the commercial titania Aeroxide P25, besides being successfully recovered and reused for four reaction cycles without loss of photocatalytic activity. The effectiveness of the commercial Aeroxide P25 in MPET photodegradation, on the other hand, suffers 10-time drop during the third reaction cycle, which is attributed to its poor recoverability because the photocatalyst is composed of small particles of 20nm size., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published
2017
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74. A hydrothermal peroxo method for preparation of highly crystalline silica-titania photocatalysts.

Author

Krivtsov I, Ilkaeva M, Avdin V, Khainakov S, Garcìa JR, Ordòñez S, Dìaz E, and Faba L

Abstract

A new completely inorganic method of preparation of silica-titania photocatalyst has been described. It has been established that the addition of silica promotes crystallinity of TiO2 anatase phase. Relative crystallinity and TiO2 crystal size in the silica-titania particles increase with the silica content until SiO2/TiO2 molar ratio of 0.9, but at higher molar ratios they start to decrease. The single-source precursor containing peroxo titanic (PTA) and silicic acids has been proved to be responsible for high crystallinity of TiO2 encapsulated into amorphous silica. It has been proposed that peroxo groups enhance rapid formation of crystalline titania seeds, while silica controls their growth. It has been concluded from the TEM that the most morphologically uniform anatase crystallites covered with SiO2 particles are prepared at SiO2/TiO2 molar ratio of 0.4. This sample, according to (29)Si NMR, also shows the high content of hydroxylated silica Q(3) and Q(2) groups, and it is the most photocatalytically active in UV-assisted decomposition of methylene blue among the tested materials. It has been determined that the increase in the amount of the condensed Q(4) silica in the mixed oxides leads to the decrease in photocatalytic performance of the material, despite its better crystallinity. High crystallinity, low degree of incorporation of Ti atoms in SiO2 in the mixed oxide and adsorption of methylene blue in the vicinity of photoactive sites on the hydroxylated silica have been considered as the main factors determining the high degradation degree of methylene blue in the presence of silica-titania., (Copyright © 2014 Elsevier Inc. All rights reserved.)

Published
2015
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75. [Endovascular laser coagulation in the treatment of varicose disease the the lower extremities].

Author

Siplivyĭ VA, Khabusev VK, Chinilin AV, Kolin'ko AP, Petrenko GD, Menkus BV, and Krivtsov IIu

Subjects
Adult, Endovascular Procedures adverse effects, Endovascular Procedures instrumentation, Female, Humans, Laser Coagulation adverse effects, Laser Coagulation instrumentation, Male, Middle Aged, Treatment Outcome, Ultrasonography, Doppler, Duplex, Varicose Veins diagnostic imaging, Young Adult, Endovascular Procedures methods, Laser Coagulation methods, Varicose Veins surgery
Abstract

The experience of treatment of 55 patients, suffering varicose disease of the lower extremities, using endovascular laser coagulation in combination with crossectomy and operation according to Babcock method, was analyzed. Good and excellent results were achieved in 53 (96.4%) patients, complications have had occurred in 1 (1.8%).

Published
2011

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