Your search keyword '"faceted titania"' showing total 9 results

1. Development of Monodisperse Mesoporous Microballs Composed of Decahedral Anatase Nanocrystals.

Author

Chang, Ying, Jiang, Jiayi, Wei, Zhishun, and Kowalska, Ewa

Subjects

*POTASSIUM chloride, *TITANIUM dioxide, *NANOCRYSTALS, *HYSTERESIS loop, *PHOTOCATALYSTS, *INTERSTITIAL hydrogen generation

Abstract

Mesoporous monodisperse microballs of amorphous titania were prepared from solution of absolute ethanol, tetrabutyl titanate (TBOT) and potassium chloride via a sub-zero sol–gel route. The as-obtained microballs were used as the precursor in an alcohothermal (ethanol with a small amount of water) process to synthesize monodisperse mesoporous microballs built of decahedral anatase nanocrystals. FE-SEM observation and XRD analysis have confirmed that the formed decahedral anatase-rich powder retained the original spherical morphology of the precursor. Importantly, a hierarchical structure composed of faceted anatase has been achieved under "green" conditions, i.e., fluorine-free. Additionally, the hysteresis loops (BET results) have confirmed the existence of mesopores. Interestingly, faceted microballs show noticeable photocatalytic activity under UV/vis irradiation for hydrogen generation without any co-catalyst use, reaching almost forty times higher activity than that by famous commercial titania photocatalyst—P25. It has been proposed that enhanced photocatalytic performance is caused by mesoporous structure and co-existence of two kinds of facets, i.e., {001} and {101}, and thus hindered charge carriers' recombination. [ABSTRACT FROM AUTHOR]

Published

2022

2. Influence of Semiconductor Morphology on Photocatalytic Activity of Plasmonic Photocatalysts: Titanate Nanowires and Octahedral Anatase Nanoparticles

Author

Zhishun Wei, Maya Endo-Kimura, Kunlei Wang, Christophe Colbeau-Justin, and Ewa Kowalska

Subjects

noble metal, faceted titania, octahedral particle, titanate nanowire, plasmonic photocatalysis, photocatalyst morphology, morphology-governed activity, gold, silver, platinum, Chemistry, QD1-999

Abstract

Octahedral anatase particles (OAP) with eight exposed and thermodynamically most stable (101) facets were prepared by an ultrasonication-hydrothermal (US-HT) reaction from potassium titanate nanowires (TNW). The precursor (TNW) and the product (OAP) of US-HT reaction were modified with nanoparticles of noble metals (Au, Ag or Pt) by photodeposition. Samples were characterized by X-ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS), diffuse reflectance spectroscopy (DRS), scanning transmission electron microscopy (STEM) and time-resolved microwave conductivity (TRMC). The photocatalytic activity was investigated in three reaction systems, i.e., anaerobic dehydrogenation of methanol and oxidative decomposition of acetic acid under UV/vis irradiation, and oxidation of 2-propanol under vis irradiation. It was found that hydrogen liberation correlated with work function of metals, and thus the most active were platinum-modified samples. Photocatalytic activities of bare and modified OAP samples were much higher than those of TNW samples, probably due to anatase presence, higher crystallinity and electron mobility in faceted NPs. Interestingly, noble metals showed different influence on the activity depending on the semiconductor support, i.e., gold-modified TNW and platinum-modified OAP exhibited the highest activity for acetic acid decomposition, whereas silver- and gold-modified samples were the most active under vis irradiation, respectively. It is proposed that the form of noble metal (metallic vs. oxidized) as well as the morphology (well-organized vs. uncontrolled) have a critical effect on the overall photocatalytic performance. TRMC analysis confirmed that fast electron transfer to noble metal is a key factor for UV activity. It is proposed that the efficiency of plasmonic photocatalysis (under vis irradiation) depends on the oxidation form of metal (zero-valent preferable), photoabsorption properties (broad localized surface plasmon resonance (LSPR)), kind of metal (silver) and counteraction of “hot” electrons back transfer to noble metal NPs (by controlled morphology and high crystallinity).

Published

2019

3. Development of Monodisperse Mesoporous Microballs Composed of Decahedral Anatase Nanocrystals

Author

Ying Chang, Jiayi Jiang, Zhishun Wei, and Ewa Kowalska

Subjects

{101} facets, faceted titania, {001} facets, decahedral anatase, mesoporous microballs, TiO2, Physical and Theoretical Chemistry, heterogeneous photocatalysis hierarchical structure, anatase nanocrystal, Catalysis

Abstract

Mesoporous monodisperse microballs of amorphous titania were prepared from solution of absolute ethanol, tetrabutyl titanate (TBOT) and potassium chloride via a sub-zero sol–gel route. The as-obtained microballs were used as the precursor in an alcohothermal (ethanol with a small amount of water) process to synthesize monodisperse mesoporous microballs built of decahedral anatase nanocrystals. FE-SEM observation and XRD analysis have confirmed that the formed decahedral anatase-rich powder retained the original spherical morphology of the precursor. Importantly, a hierarchical structure composed of faceted anatase has been achieved under “green” conditions, i.e., fluorine-free. Additionally, the hysteresis loops (BET results) have confirmed the existence of mesopores. Interestingly, faceted microballs show noticeable photocatalytic activity under UV/vis irradiation for hydrogen generation without any co-catalyst use, reaching almost forty times higher activity than that by famous commercial titania photocatalyst—P25. It has been proposed that enhanced photocatalytic performance is caused by mesoporous structure and co-existence of two kinds of facets, i.e., {001} and {101}, and thus hindered charge carriers’ recombination.

Published

2022

4. Performance of {111}-TiO2/betanin/[Emim][NTf2]/Ag dye sensitized solar cell – combined experimental and DFT studies.

Author

Sandhu, Sofia, Kaur, Navneet, Kaur, Manpreet, and Singh, Vasundhara

Subjects

*DYE-sensitized solar cells, *PHOTOVOLTAIC power systems, *NATURAL dyes & dyeing

Abstract

Paradigm shift in the photovoltaic efficiency of iodine-free redox mediator and Betalaine sensitized dye sensitized solar cell. [Display omitted] • Fabrication of betalain sensitized natural dye sensitized solar cell (NDSSC) • Successful prediction of the optimal alignment of the NDSSC via DFT studies. • {111}–TiO 2 proved to be better photoanodic material than {001} and {101}-TiO 2. • Superior efficiency of NDSSC obtained with [Emim]NTf 2 ionic liquid electrolyte. The present work elucidates the study of photovoltaic efficiency in a fabricated natural dye sensitized solar cell (NDSSC) using {101}/{001}/{111} faceted titania as the anode with [Emim][NTf 2 ] and I−/I 3 − as electrolytes. {111}-TiO 2 based NDSSC demonstrated higher photovoltaic efficiency than NDSSC fabricated with {001} and {101}-TiO 2. The best results were obtained using {111}-TiO 2 /betanin/[Emim][NTf 2 ]/Ag with 10.8% enhancement over {111}-TiO 2 /betanin/I−/I 3 −/Ag NDSSC. [ABSTRACT FROM AUTHOR]

Published

2022

5. Influence of Semiconductor Morphology on Photocatalytic Activity of Plasmonic Photocatalysts: Titanate Nanowires and Octahedral Anatase Nanoparticles

Author

Wei, Zhishun, Endo-Kimura, Maya, Wang, Kunlei, Colbeau-Justin, Christophe, 0000-0003-0955-9268, Kowalska, Ewa, Wei, Zhishun, Endo-Kimura, Maya, Wang, Kunlei, Colbeau-Justin, Christophe, 0000-0003-0955-9268, and Kowalska, Ewa

Abstract

Octahedral anatase particles (OAP) with eight exposed and thermodynamically most stable (101) facets were prepared by an ultrasonication-hydrothermal (US-HT) reaction from potassium titanate nanowires (TNW). The precursor (TNW) and the product (OAP) of US-HT reaction were modified with nanoparticles of noble metals (Au, Ag or Pt) by photodeposition. Samples were characterized by X-ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS), diffuse reflectance spectroscopy (DRS), scanning transmission electron microscopy (STEM) and time-resolved microwave conductivity (TRMC). The photocatalytic activity was investigated in three reaction systems, i.e., anaerobic dehydrogenation of methanol and oxidative decomposition of acetic acid under UV/vis irradiation, and oxidation of 2-propanol under vis irradiation. It was found that hydrogen liberation correlated with work function of metals, and thus the most active were platinum-modified samples. Photocatalytic activities of bare and modified OAP samples were much higher than those of TNW samples, probably due to anatase presence, higher crystallinity and electron mobility in faceted NPs. Interestingly, noble metals showed different influence on the activity depending on the semiconductor support, i.e., gold-modified TNW and platinum-modified OAP exhibited the highest activity for acetic acid decomposition, whereas silver- and gold-modified samples were the most active under vis irradiation, respectively. It is proposed that the form of noble metal (metallic vs. oxidized) as well as the morphology (well-organized vs. uncontrolled) have a critical effect on the overall photocatalytic performance. TRMC analysis confirmed that fast electron transfer to noble metal is a key factor for UV activity. It is proposed that the efficiency of plasmonic photocatalysis (under vis irradiation) depends on the oxidation form of metal (zero-valent preferable), photoabsorption properties (broad localized surface plasmon resonance (LSPR))

Published

2019

6. Morphology- and Crystalline Composition-Governed Activity of Titania-Based Photocatalysts : Overview and Perspective

Author

Wang, Kunlei, Janczarek, Marcin, Wei, Zhishun, Raja-Mogan, Tharishinny, Endo-Kimura, Maya, Khedr, Tamer M., 1000080176924, Ohtani, Bunsho, 0000-0003-0955-9268, Kowalska, Ewa, Wang, Kunlei, Janczarek, Marcin, Wei, Zhishun, Raja-Mogan, Tharishinny, Endo-Kimura, Maya, Khedr, Tamer M., 1000080176924, Ohtani, Bunsho, 0000-0003-0955-9268, and Kowalska, Ewa

Abstract

Titania photocatalysts have been intensively examined for both mechanism study and possible commercial applications for more than 30 years. Although various reports have already been published on titania, including comprehensive review papers, the morphology-governed activity, especially for novel nanostructures, has not been reviewed recently. Therefore, this paper presents novel, attractive, and prospective titania photocatalysts, including zero-, one-, two-, and three-dimensional titania structures. The 1D, 2D, and 3D titania structures have been mainly designed for possible applications, e.g., (i) continuous use without the necessity of particulate titania separation, (ii) efficient light harvesting (e.g., inverse opals), (iii) enhanced activity (fast charge carriers’ separation, e.g., 1D nanoplates and 2D nanotubes). It should be pointed out that these structures might be also useful for mechanism investigation, e.g., (i) 3D titania aerogels with gold either incorporated inside the 3D network or supported in the porosity, and (ii) titania mesocrystals with gold deposited either on basal or lateral surfaces, for the clarification of plasmonic photocatalysis. Moreover, 0D nanostructures of special composition and morphology, e.g., magnetic(core)–titania(shell), mixed-phase titania (anatase/rutile/brookite), and faceted titania NPs have been presented, due to their exceptional properties, including easy separation in the magnetic field, high activity, and mechanism clarification, respectively. Although anatase has been usually thought as the most active phase of titania, the co-existence of other crystalline phases accelerates the photocatalytic activity significantly, and thus mixed-phase titania (e.g., famous P25) exhibits high photocatalytic activity for both oxidation and reduction reactions. It is believed that this review might be useful for the architecture design of novel nanomaterials for broad and diverse applications, including environmental purificatio

Published

2019

7. Morphology- and Crystalline Composition-Governed Activity of Titania-Based Photocatalysts : Overview and Perspective

Author

Ewa Kowalska, Marcin Janczarek, Maya Endo-Kimura, Tamer M. Khedr, Zhishun Wei, Tharishinny Raja-Mogan, Bunsho Ohtani, and Kunlei Wang

Subjects

Anatase, Materials science, Nanostructure, faceted titania, Nanotechnology, 02 engineering and technology, core–shell, 010402 general chemistry, 01 natural sciences, Catalysis, Nanomaterials, inverse opal, morphology, Physical and Theoretical Chemistry, Porosity, Plasmon, aerogels, Brookite, brookite, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Rutile, visual_art, Photocatalysis, visual_art.visual_art_medium, anatase, 0210 nano-technology, rutile, mixed-phase titania, photonic crystal

Abstract

Titania photocatalysts have been intensively examined for both mechanism study and possible commercial applications for more than 30 years. Although various reports have already been published on titania, including comprehensive review papers, the morphology-governed activity, especially for novel nanostructures, has not been reviewed recently. Therefore, this paper presents novel, attractive, and prospective titania photocatalysts, including zero-, one-, two-, and three-dimensional titania structures. The 1D, 2D, and 3D titania structures have been mainly designed for possible applications, e.g., (i) continuous use without the necessity of particulate titania separation, (ii) efficient light harvesting (e.g., inverse opals), (iii) enhanced activity (fast charge carriers’ separation, e.g., 1D nanoplates and 2D nanotubes). It should be pointed out that these structures might be also useful for mechanism investigation, e.g., (i) 3D titania aerogels with gold either incorporated inside the 3D network or supported in the porosity, and (ii) titania mesocrystals with gold deposited either on basal or lateral surfaces, for the clarification of plasmonic photocatalysis. Moreover, 0D nanostructures of special composition and morphology, e.g., magnetic(core)–titania(shell), mixed-phase titania (anatase/rutile/brookite), and faceted titania NPs have been presented, due to their exceptional properties, including easy separation in the magnetic field, high activity, and mechanism clarification, respectively. Although anatase has been usually thought as the most active phase of titania, the co-existence of other crystalline phases accelerates the photocatalytic activity significantly, and thus mixed-phase titania (e.g., famous P25) exhibits high photocatalytic activity for both oxidation and reduction reactions. It is believed that this review might be useful for the architecture design of novel nanomaterials for broad and diverse applications, including environmental purification, energy conversion, synthesis and preparation of “intelligent” surfaces with self-cleaning, antifogging, and antiseptic properties.

Published

2019

8. Influence of Semiconductor Morphology on Photocatalytic Activity of Plasmonic Photocatalysts: Titanate Nanowires and Octahedral Anatase Nanoparticles

Author

Ewa Kowalska, Zhishun Wei, Christophe Colbeau-Justin, Kunlei Wang, and Maya Endo-Kimura

Subjects

Anatase, Materials science, faceted titania, octahedral particle, morphology-governed activity, General Chemical Engineering, engineering.material, Photochemistry, Article, plasmonic photocatalysis, lcsh:Chemistry, Metal, Crystallinity, X-ray photoelectron spectroscopy, Scanning transmission electron microscopy, titanate nanowire, General Materials Science, silver, platinum, noble metal, gold, Titanate, lcsh:QD1-999, visual_art, visual_art.visual_art_medium, engineering, Photocatalysis, Noble metal, photocatalyst morphology

Abstract

Octahedral anatase particles (OAP) with eight exposed and thermodynamically most stable (101) facets were prepared by an ultrasonication-hydrothermal (US-HT) reaction from potassium titanate nanowires (TNW). The precursor (TNW) and the product (OAP) of US-HT reaction were modified with nanoparticles of noble metals (Au, Ag or Pt) by photodeposition. Samples were characterized by X-ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS), diffuse reflectance spectroscopy (DRS), scanning transmission electron microscopy (STEM) and time-resolved microwave conductivity (TRMC). The photocatalytic activity was investigated in three reaction systems, i.e., anaerobic dehydrogenation of methanol and oxidative decomposition of acetic acid under UV/vis irradiation, and oxidation of 2-propanol under vis irradiation. It was found that hydrogen liberation correlated with work function of metals, and thus the most active were platinum-modified samples. Photocatalytic activities of bare and modified OAP samples were much higher than those of TNW samples, probably due to anatase presence, higher crystallinity and electron mobility in faceted NPs. Interestingly, noble metals showed different influence on the activity depending on the semiconductor support, i.e., gold-modified TNW and platinum-modified OAP exhibited the highest activity for acetic acid decomposition, whereas silver- and gold-modified samples were the most active under vis irradiation, respectively. It is proposed that the form of noble metal (metallic vs. oxidized) as well as the morphology (well-organized vs. uncontrolled) have a critical effect on the overall photocatalytic performance. TRMC analysis confirmed that fast electron transfer to noble metal is a key factor for UV activity. It is proposed that the efficiency of plasmonic photocatalysis (under vis irradiation) depends on the oxidation form of metal (zero-valent preferable), photoabsorption properties (broad localized surface plasmon resonance (LSPR)), kind of metal (silver) and counteraction of &ldquo, hot&rdquo, electrons back transfer to noble metal NPs (by controlled morphology and high crystallinity).

Published

2019

9. Influence of Semiconductor Morphology on Photocatalytic Activity of Plasmonic Photocatalysts: Titanate Nanowires and Octahedral Anatase Nanoparticles.

Author

Wei Z, Endo-Kimura M, Wang K, Colbeau-Justin C, and Kowalska E

Abstract

Octahedral anatase particles (OAP) with eight exposed and thermodynamically most stable (101) facets were prepared by an ultrasonication-hydrothermal (US-HT) reaction from potassium titanate nanowires (TNW). The precursor (TNW) and the product (OAP) of US-HT reaction were modified with nanoparticles of noble metals (Au, Ag or Pt) by photodeposition. Samples were characterized by X-ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS), diffuse reflectance spectroscopy (DRS), scanning transmission electron microscopy (STEM) and time-resolved microwave conductivity (TRMC). The photocatalytic activity was investigated in three reaction systems, i.e., anaerobic dehydrogenation of methanol and oxidative decomposition of acetic acid under UV/vis irradiation, and oxidation of 2-propanol under vis irradiation. It was found that hydrogen liberation correlated with work function of metals, and thus the most active were platinum-modified samples. Photocatalytic activities of bare and modified OAP samples were much higher than those of TNW samples, probably due to anatase presence, higher crystallinity and electron mobility in faceted NPs. Interestingly, noble metals showed different influence on the activity depending on the semiconductor support, i.e., gold-modified TNW and platinum-modified OAP exhibited the highest activity for acetic acid decomposition, whereas silver- and gold-modified samples were the most active under vis irradiation, respectively. It is proposed that the form of noble metal (metallic vs. oxidized) as well as the morphology (well-organized vs. uncontrolled) have a critical effect on the overall photocatalytic performance. TRMC analysis confirmed that fast electron transfer to noble metal is a key factor for UV activity. It is proposed that the efficiency of plasmonic photocatalysis (under vis irradiation) depends on the oxidation form of metal (zero-valent preferable), photoabsorption properties (broad localized surface plasmon resonance (LSPR)), kind of metal (silver) and counteraction of "hot" electrons back transfer to noble metal NPs (by controlled morphology and high crystallinity)., Competing Interests: The authors declare no conflict of interest.

Published

2019