titanium-dioxide (tio 2 ) coupled beads Search Results


titanium oxide nanoparticle paste nr-d30  (Greatcell Solar)
90
Greatcell Solar titanium oxide nanoparticle paste nr-d30
Titanium Oxide Nanoparticle Paste Nr D30, supplied by Greatcell Solar, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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crystalline rutile nps degussa p25  (DeGussa Corporation)
90
DeGussa Corporation crystalline rutile nps degussa p25
Crystalline Rutile Nps Degussa P25, supplied by DeGussa Corporation, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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uncoated nanosized titanium dioxide degussa aeroxide p25  (DeGussa Corporation)
90
DeGussa Corporation uncoated nanosized titanium dioxide degussa aeroxide p25
TEM and SEM images of titania nanoparticles synthesized by different chemical routes (a) Anatase nanocrystals obtained by hydrothermal treatment in acetic acid of amorphous electrospun <t>TiO</t> <t>2</t> nanofibers. Reprinted with permission from Dai et al , © (2009) American Chemical Society . (b) Anatase nanocrystals synthesized in benzyl alcohol, after annealing at 450 °C; reprinted with permission from Niederberger et al , © (2002) American Chemical Society. (c) Acetate-capped anatase particles synthesized through hydrothermal treatment of titanium isopropoxide at 230 °C; reprinted from Barbé et al , © (1997), with permission from John Wiley and Sons. (d) Tetramethylammonium-capped anatase particles synthesized by hydrothermal treatment of a titanium isopropoxide solution in water-propanol with tetramethylammonium hydroxide; reprinted from Chemseddine et al , © (1999), with permission from John Wiley and Sons. (e) Tetramethylammonium-capped anatase nanoparticles produced by hydrothermal synthesis. Reprinted with permission from Yang et al , © (2001), John Wiley and Sons. (f) Aeroxide <t>P25</t> aggregated nanocrystals synthesized by flame pyrolysis. Reprinted with permission from Faure et al , © (2010) Elsevier.
Uncoated Nanosized Titanium Dioxide Degussa Aeroxide P25, supplied by DeGussa Corporation, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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titanium dioxide nanotubes nanorods  (DeGussa Corporation)
90
DeGussa Corporation titanium dioxide nanotubes nanorods
TEM and SEM images of titania nanoparticles synthesized by different chemical routes (a) Anatase nanocrystals obtained by hydrothermal treatment in acetic acid of amorphous electrospun <t>TiO</t> <t>2</t> nanofibers. Reprinted with permission from Dai et al , © (2009) American Chemical Society . (b) Anatase nanocrystals synthesized in benzyl alcohol, after annealing at 450 °C; reprinted with permission from Niederberger et al , © (2002) American Chemical Society. (c) Acetate-capped anatase particles synthesized through hydrothermal treatment of titanium isopropoxide at 230 °C; reprinted from Barbé et al , © (1997), with permission from John Wiley and Sons. (d) Tetramethylammonium-capped anatase particles synthesized by hydrothermal treatment of a titanium isopropoxide solution in water-propanol with tetramethylammonium hydroxide; reprinted from Chemseddine et al , © (1999), with permission from John Wiley and Sons. (e) Tetramethylammonium-capped anatase nanoparticles produced by hydrothermal synthesis. Reprinted with permission from Yang et al , © (2001), John Wiley and Sons. (f) Aeroxide <t>P25</t> aggregated nanocrystals synthesized by flame pyrolysis. Reprinted with permission from Faure et al , © (2010) Elsevier.
Titanium Dioxide Nanotubes Nanorods, supplied by DeGussa Corporation, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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hindered amine light stabilizer systems (hals) chimasorb 2020  (BASF)
90
BASF hindered amine light stabilizer systems (hals) chimasorb 2020
TEM and SEM images of titania nanoparticles synthesized by different chemical routes (a) Anatase nanocrystals obtained by hydrothermal treatment in acetic acid of amorphous electrospun <t>TiO</t> <t>2</t> nanofibers. Reprinted with permission from Dai et al , © (2009) American Chemical Society . (b) Anatase nanocrystals synthesized in benzyl alcohol, after annealing at 450 °C; reprinted with permission from Niederberger et al , © (2002) American Chemical Society. (c) Acetate-capped anatase particles synthesized through hydrothermal treatment of titanium isopropoxide at 230 °C; reprinted from Barbé et al , © (1997), with permission from John Wiley and Sons. (d) Tetramethylammonium-capped anatase particles synthesized by hydrothermal treatment of a titanium isopropoxide solution in water-propanol with tetramethylammonium hydroxide; reprinted from Chemseddine et al , © (1999), with permission from John Wiley and Sons. (e) Tetramethylammonium-capped anatase nanoparticles produced by hydrothermal synthesis. Reprinted with permission from Yang et al , © (2001), John Wiley and Sons. (f) Aeroxide <t>P25</t> aggregated nanocrystals synthesized by flame pyrolysis. Reprinted with permission from Faure et al , © (2010) Elsevier.
Hindered Amine Light Stabilizer Systems (Hals) Chimasorb 2020, supplied by BASF, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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anatase (p25  (PlasmaChem gmbh)
90
PlasmaChem gmbh anatase (p25
Antibacterial activity of materials against selected pathogenic strains.
Anatase (P25, supplied by PlasmaChem gmbh, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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anatase (p25 - by Bioz Stars, 2026-02
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titania particles ts-01 (average particle size 215 nm, refractive index 2.6)  (Showa Denko K.K)
90
Showa Denko K.K titania particles ts-01 (average particle size 215 nm, refractive index 2.6)
Antibacterial activity of materials against selected pathogenic strains.
Titania Particles Ts 01 (Average Particle Size 215 Nm, Refractive Index 2.6), supplied by Showa Denko K.K, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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titanium dioxide  (Ameta International)
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Ameta International titanium dioxide
Antibacterial activity of materials against selected pathogenic strains.
Titanium Dioxide, supplied by Ameta International, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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titanium dioxide nanowires  (Thermo Fisher)
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Thermo Fisher titanium dioxide nanowires
Antibacterial activity of materials against selected pathogenic strains.
Titanium Dioxide Nanowires, supplied by Thermo Fisher, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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titanium tetraisopropoxide  (FUJIFILM)
90
FUJIFILM titanium tetraisopropoxide
Antibacterial activity of materials against selected pathogenic strains.
Titanium Tetraisopropoxide, supplied by FUJIFILM, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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aeroperl® p25/20  (Evonik)
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Evonik aeroperl® p25/20
Antibacterial activity of materials against selected pathogenic strains.
Aeroperl® P25/20, supplied by Evonik, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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titania evonik p25  (Evonik)
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Evonik titania evonik p25
Antibacterial activity of materials against selected pathogenic strains.
Titania Evonik P25, supplied by Evonik, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Image Search Results


TEM and SEM images of titania nanoparticles synthesized by different chemical routes (a) Anatase nanocrystals obtained by hydrothermal treatment in acetic acid of amorphous electrospun TiO 2 nanofibers. Reprinted with permission from Dai et al , © (2009) American Chemical Society . (b) Anatase nanocrystals synthesized in benzyl alcohol, after annealing at 450 °C; reprinted with permission from Niederberger et al , © (2002) American Chemical Society. (c) Acetate-capped anatase particles synthesized through hydrothermal treatment of titanium isopropoxide at 230 °C; reprinted from Barbé et al , © (1997), with permission from John Wiley and Sons. (d) Tetramethylammonium-capped anatase particles synthesized by hydrothermal treatment of a titanium isopropoxide solution in water-propanol with tetramethylammonium hydroxide; reprinted from Chemseddine et al , © (1999), with permission from John Wiley and Sons. (e) Tetramethylammonium-capped anatase nanoparticles produced by hydrothermal synthesis. Reprinted with permission from Yang et al , © (2001), John Wiley and Sons. (f) Aeroxide P25 aggregated nanocrystals synthesized by flame pyrolysis. Reprinted with permission from Faure et al , © (2010) Elsevier.

Journal: Science and Technology of Advanced Materials

Article Title: Dispersion and surface functionalization of oxide nanoparticles for transparent photocatalytic and UV-protecting coatings and sunscreens

doi: 10.1088/1468-6996/14/2/023001

Figure Lengend Snippet: TEM and SEM images of titania nanoparticles synthesized by different chemical routes (a) Anatase nanocrystals obtained by hydrothermal treatment in acetic acid of amorphous electrospun TiO 2 nanofibers. Reprinted with permission from Dai et al , © (2009) American Chemical Society . (b) Anatase nanocrystals synthesized in benzyl alcohol, after annealing at 450 °C; reprinted with permission from Niederberger et al , © (2002) American Chemical Society. (c) Acetate-capped anatase particles synthesized through hydrothermal treatment of titanium isopropoxide at 230 °C; reprinted from Barbé et al , © (1997), with permission from John Wiley and Sons. (d) Tetramethylammonium-capped anatase particles synthesized by hydrothermal treatment of a titanium isopropoxide solution in water-propanol with tetramethylammonium hydroxide; reprinted from Chemseddine et al , © (1999), with permission from John Wiley and Sons. (e) Tetramethylammonium-capped anatase nanoparticles produced by hydrothermal synthesis. Reprinted with permission from Yang et al , © (2001), John Wiley and Sons. (f) Aeroxide P25 aggregated nanocrystals synthesized by flame pyrolysis. Reprinted with permission from Faure et al , © (2010) Elsevier.

Article Snippet: Tyner et al [ ] showed that stable sunscreen formulations containing 5 wt% titania can be prepared using TiO 2 particles with different surface properties (see figure ): (i) uncoated nanosized titanium dioxide (Degussa Aeroxide P25); (ii) titanium dioxide coated with aluminum hydroxide/dimethicone copolymer (BASF T-Lite SF); and (iii) titanium dioxide treated with aluminum hydroxide (Ishihara Tipaque CR-50).

Techniques: Synthesized, Produced

The effect of high-pressure deagglomeration on the morphology and size of the aggregates of flame-made TiO 2 particles; (A) as synthesized large agglomerates and aggregates, (B) smaller aggregates after high-pressure deagglomeration through a nozzle (1400 bar). Reprinted from Powder Technology Teleki et al , © (2008), with permission from Elsevier.

Journal: Science and Technology of Advanced Materials

Article Title: Dispersion and surface functionalization of oxide nanoparticles for transparent photocatalytic and UV-protecting coatings and sunscreens

doi: 10.1088/1468-6996/14/2/023001

Figure Lengend Snippet: The effect of high-pressure deagglomeration on the morphology and size of the aggregates of flame-made TiO 2 particles; (A) as synthesized large agglomerates and aggregates, (B) smaller aggregates after high-pressure deagglomeration through a nozzle (1400 bar). Reprinted from Powder Technology Teleki et al , © (2008), with permission from Elsevier.

Article Snippet: Tyner et al [ ] showed that stable sunscreen formulations containing 5 wt% titania can be prepared using TiO 2 particles with different surface properties (see figure ): (i) uncoated nanosized titanium dioxide (Degussa Aeroxide P25); (ii) titanium dioxide coated with aluminum hydroxide/dimethicone copolymer (BASF T-Lite SF); and (iii) titanium dioxide treated with aluminum hydroxide (Ishihara Tipaque CR-50).

Techniques: Synthesized

Material-dependent parameters involved in the colloidal interactions between CeO 2 , TiO 2 and ZnO nanoparticles.

Journal: Science and Technology of Advanced Materials

Article Title: Dispersion and surface functionalization of oxide nanoparticles for transparent photocatalytic and UV-protecting coatings and sunscreens

doi: 10.1088/1468-6996/14/2/023001

Figure Lengend Snippet: Material-dependent parameters involved in the colloidal interactions between CeO 2 , TiO 2 and ZnO nanoparticles.

Article Snippet: Tyner et al [ ] showed that stable sunscreen formulations containing 5 wt% titania can be prepared using TiO 2 particles with different surface properties (see figure ): (i) uncoated nanosized titanium dioxide (Degussa Aeroxide P25); (ii) titanium dioxide coated with aluminum hydroxide/dimethicone copolymer (BASF T-Lite SF); and (iii) titanium dioxide treated with aluminum hydroxide (Ishihara Tipaque CR-50).

Techniques:

List of additives for the dispersion of CeO 2 , TiO 2 and ZnO.

Journal: Science and Technology of Advanced Materials

Article Title: Dispersion and surface functionalization of oxide nanoparticles for transparent photocatalytic and UV-protecting coatings and sunscreens

doi: 10.1088/1468-6996/14/2/023001

Figure Lengend Snippet: List of additives for the dispersion of CeO 2 , TiO 2 and ZnO.

Article Snippet: Tyner et al [ ] showed that stable sunscreen formulations containing 5 wt% titania can be prepared using TiO 2 particles with different surface properties (see figure ): (i) uncoated nanosized titanium dioxide (Degussa Aeroxide P25); (ii) titanium dioxide coated with aluminum hydroxide/dimethicone copolymer (BASF T-Lite SF); and (iii) titanium dioxide treated with aluminum hydroxide (Ishihara Tipaque CR-50).

Techniques: Dispersion

TiO 2 particles prepared without (A) and with HPC (B). Reprinted from Park et al , © (1997), with permission from John Wiley and Sons.

Journal: Science and Technology of Advanced Materials

Article Title: Dispersion and surface functionalization of oxide nanoparticles for transparent photocatalytic and UV-protecting coatings and sunscreens

doi: 10.1088/1468-6996/14/2/023001

Figure Lengend Snippet: TiO 2 particles prepared without (A) and with HPC (B). Reprinted from Park et al , © (1997), with permission from John Wiley and Sons.

Article Snippet: Tyner et al [ ] showed that stable sunscreen formulations containing 5 wt% titania can be prepared using TiO 2 particles with different surface properties (see figure ): (i) uncoated nanosized titanium dioxide (Degussa Aeroxide P25); (ii) titanium dioxide coated with aluminum hydroxide/dimethicone copolymer (BASF T-Lite SF); and (iii) titanium dioxide treated with aluminum hydroxide (Ishihara Tipaque CR-50).

Techniques:

SEM images of TiO 2 films deposited on glass (a) without PEG, (b) with PEG (200 g mol −1 ), showing reduced crack formation and increased porosity .

Journal: Science and Technology of Advanced Materials

Article Title: Dispersion and surface functionalization of oxide nanoparticles for transparent photocatalytic and UV-protecting coatings and sunscreens

doi: 10.1088/1468-6996/14/2/023001

Figure Lengend Snippet: SEM images of TiO 2 films deposited on glass (a) without PEG, (b) with PEG (200 g mol −1 ), showing reduced crack formation and increased porosity .

Article Snippet: Tyner et al [ ] showed that stable sunscreen formulations containing 5 wt% titania can be prepared using TiO 2 particles with different surface properties (see figure ): (i) uncoated nanosized titanium dioxide (Degussa Aeroxide P25); (ii) titanium dioxide coated with aluminum hydroxide/dimethicone copolymer (BASF T-Lite SF); and (iii) titanium dioxide treated with aluminum hydroxide (Ishihara Tipaque CR-50).

Techniques:

Charge carrier formation (electron e − and hole h + ) and recombination in TiO 2 and CeO 2 by UV light irradiation (adapted from ).

Journal: Science and Technology of Advanced Materials

Article Title: Dispersion and surface functionalization of oxide nanoparticles for transparent photocatalytic and UV-protecting coatings and sunscreens

doi: 10.1088/1468-6996/14/2/023001

Figure Lengend Snippet: Charge carrier formation (electron e − and hole h + ) and recombination in TiO 2 and CeO 2 by UV light irradiation (adapted from ).

Article Snippet: Tyner et al [ ] showed that stable sunscreen formulations containing 5 wt% titania can be prepared using TiO 2 particles with different surface properties (see figure ): (i) uncoated nanosized titanium dioxide (Degussa Aeroxide P25); (ii) titanium dioxide coated with aluminum hydroxide/dimethicone copolymer (BASF T-Lite SF); and (iii) titanium dioxide treated with aluminum hydroxide (Ishihara Tipaque CR-50).

Techniques: Irradiation

Antibacterial activity of materials against selected pathogenic strains.

Journal: Bioinorganic Chemistry and Applications

Article Title: Bioactive Potential of 3D-Printed Oleo-Gum-Resin Disks: B. papyrifera , C. myrrha , and S. benzoin Loading Nanooxides—TiO 2 , P25, Cu 2 O, and MoO 3

doi: 10.1155/2017/6398167

Figure Lengend Snippet: Antibacterial activity of materials against selected pathogenic strains.

Article Snippet: Titanium dioxide (TiO 2 ), anatase (P25), molybdenum trioxide (MoO 3 ), and copper I (Cu 2 O) oxide were purchased from Plasmachem (GmbH, Germany); the nanoparticles have sizes between 10 nm to 1 nm.

Techniques: Activity Assay, Inhibition

EDXMA analysis of metal oxides: Cu 2 O (a); MoO 3 (b); P25 (c); TiO 2 (d); Cu 2 O (e); MoO 3 (f); P25 (g); TiO 2 (h). SEM analysis of materials: B + P25 (i); M + TiO 2 (j); P + Cu 2 O (k); B + MoO 3 (l).

Journal: Bioinorganic Chemistry and Applications

Article Title: Bioactive Potential of 3D-Printed Oleo-Gum-Resin Disks: B. papyrifera , C. myrrha , and S. benzoin Loading Nanooxides—TiO 2 , P25, Cu 2 O, and MoO 3

doi: 10.1155/2017/6398167

Figure Lengend Snippet: EDXMA analysis of metal oxides: Cu 2 O (a); MoO 3 (b); P25 (c); TiO 2 (d); Cu 2 O (e); MoO 3 (f); P25 (g); TiO 2 (h). SEM analysis of materials: B + P25 (i); M + TiO 2 (j); P + Cu 2 O (k); B + MoO 3 (l).

Article Snippet: Titanium dioxide (TiO 2 ), anatase (P25), molybdenum trioxide (MoO 3 ), and copper I (Cu 2 O) oxide were purchased from Plasmachem (GmbH, Germany); the nanoparticles have sizes between 10 nm to 1 nm.

Techniques: