Synthesis of rutile TiO2 nanostructures by single step hydrothermal route and its characterization

Wategaonkar, Sandeep B.; Pawar, Rani P.; Nade, D.P.; Sargar, Balasaheb M.; Mane, R.K.

doi:10.1016/j.matpr.2020.02.065

Cited by 28 publications

(18 citation statements)

References 14 publications

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“…Various attempts have been reported for the enhancement of characteristics such as crystal phase, particle size, morphology and crystallinity of TiO 2 in order to ensure its remarkable activity [8] , [11] . For the synthesis of TiO 2 catalyst, different method such as sol gel [12] , hydrothermal [13] , precipitation [14] , solvothermal [5] and direct synthesis [15] has been employed. Among these methods, sol gel is widely studied synthesis method because of its mild experimental conditions and simple preparation approach.…”

Section: Introductionmentioning

confidence: 99%

Improved direct synthesis of TiO2 catalyst using sonication and its application for the desulfurization of thiophene

Tiple

Sinhmar

Gogate

2021

Ultrasonics Sonochemistry

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Highlights Development of best synthesis process for TiO 2 catalyst using ultrasound. Lower particle size and uniform morphology can be obtained using ultrasound. Performance of catalytic activity evaluated for the desulfurization of thiophene. UV and US in combination with oxidant/catalyst gives best treatment approach. Role of solvent in affecting desulfurization of thiophene demonstrated.

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Section: Introductionmentioning

confidence: 99%

Improved direct synthesis of TiO2 catalyst using sonication and its application for the desulfurization of thiophene

Tiple

Sinhmar

Gogate

2021

Ultrasonics Sonochemistry

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“…Fully grown TiO 2 three‐dimensional (3D) nanoflowers are produced after two hours, which are larger in size. [ 19 ]…”

Section: Resultsmentioning

confidence: 99%

Synthesis and Characterizations of 3D TiO₂ Nanoflowers Thin Film: Hydrothermal Method

Wategaonkar

Pawar

Pakhare

et al. 2020

Macromolecular Symposia

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The present paper reports the study of synthesis and characterization of nanocrystalline rutile titanium dioxide thin film. TiO2 is an excellent semiconducting nanomaterial used to enhance the efficiency of DSSC. TiO2 thin film is prepared by single‐step hydrothermal route. Titanium (IV) isopropoxide is used as a precursor for titanium. In this synthesis, TiO2 thin film is grown on fluorine‐doped tin oxide substrate (F:SnO2) at 140 °C temperature for 3 h. Morphological, structural, and optical properties are analyzed by field emission scanning electron microscopy, X‐ray diffraction (XRD), Fourier transform infrared spectroscopy (FT‐IR), energy dispersive x‐ray spectroscopy (EDS), and UV–vis spectrophotometer, respectively. Morphological analysis gives the growth of 3D nanoflowers on 1D nanorods. Also, it gives the formation of nanorods with width ranging from 0.2 to 0.5 µm and length of ∼3.5 µm. XRD pattern reveals that, there is formation of tetragonal rutile crystal structure having crystallite size 19 nm. The structural and elemental composition is determined by FT‐IR and EDS. The FT‐IR technique is used to confirm the Ti‐O bond formation at 407, 760, and 886 cm−1. The optical study reveals indirect band gap energy of 3 eV. The optical absorption of synthesized TiO2 thin film is mainly in the ultraviolet region. The enhancement of the photoelectrochemical activity allowed substitution of the TiO2 nanoflower/nanorod thin film for the traditional TiO2 nanorods used in solar cells.

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“…There are several methods to fabricate nanopatterns, and the commonly used methods are chemical etching ( Heidarpour et al, 2020 ), reactive ion etching ( Ganjian et al, 2019 ), plasma etching ( He et al, 2013 ), hydrothermal synthesis ( Jaggessar and Yarlagadda, 2020 ; Wategaonkar et al, 2020 ), and anodic oxidation ( Mohan et al, 2020 ). The antibacterial nanopatterns with different antibacterial efficiencies have been prepared by these methods, but the antibacterial effect of these patterns is still not very satisfactory, which may be due to the fact that the production of antibacterial surfaces on titanium and its alloys are more difficult than other materials [silicon, polymethylmethacrylate (PMMA), etc.].…”

Section: Bionic Nanostructuresmentioning

confidence: 99%

Nano-Modified Titanium Implant Materials: A Way Toward Improved Antibacterial Properties

Liu

Attarilar

et al. 2020

Front. Bioeng. Biotechnol.

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Synthesis of rutile TiO2 nanostructures by single step hydrothermal route and its characterization

Cited by 28 publications

References 14 publications

Improved direct synthesis of TiO2 catalyst using sonication and its application for the desulfurization of thiophene

Improved direct synthesis of TiO2 catalyst using sonication and its application for the desulfurization of thiophene

Synthesis and Characterizations of 3D TiO₂ Nanoflowers Thin Film: Hydrothermal Method

Nano-Modified Titanium Implant Materials: A Way Toward Improved Antibacterial Properties

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Synthesis of rutile TiO2 nanostructures by single step hydrothermal route and its characterization

Cited by 28 publications

References 14 publications

Improved direct synthesis of TiO2 catalyst using sonication and its application for the desulfurization of thiophene

Improved direct synthesis of TiO2 catalyst using sonication and its application for the desulfurization of thiophene

Synthesis and Characterizations of 3D TiO2 Nanoflowers Thin Film: Hydrothermal Method

Nano-Modified Titanium Implant Materials: A Way Toward Improved Antibacterial Properties

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Synthesis and Characterizations of 3D TiO₂ Nanoflowers Thin Film: Hydrothermal Method