Visible Light-Driven Photocatalytic Performance of N-Doped ZnO/g-C3N4 Nanocomposites

Kong, Jizhou; Zhai, Haifa; Zhang, Wei; Wang, Shanshan; Zhao, Xi-Rui; Li, Min; Li, Hui; Li, Aidong; Wu, Di

doi:10.1186/s11671-017-2297-0

Cited by 76 publications

(31 citation statements)

References 36 publications

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“…ZnO catalyst has potential to achieve improved photocatalytic performance as it absorbs over an appreciable region of the UV-Vis spectrum (Hamid, The, & Lai, 2017). But it is more susceptible to photo corrosion as compared to TiO 2 , shows less charge separation efficiency and it has poor light absorbance for solar irradiation (Kong, Zhai, Wang, Zhao, & Li, 2017).…”

Section: Short Communicationmentioning

confidence: 99%

Photocatalytic degradation of ibuprofen in water using TiO₂ and ZnO under artificial UV and solar irradiation

Tanveer

Guyer²,

Abbas

2019

Water Environment Research

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The degradation of anti‐inflammatory and antipyretic drug (Ibuprofen; IBP) has been described in this study by using photocatalytic‐based advanced oxidation processes. The catalysts (TiO2 and ZnO) were activated by irradiation of artificial UV lamp and solar rays for the generation of highly oxidizing species which resulted in the degradation of IBP to intermediates and finally to carbon dioxide and water. In solar reactor, quartz and borosilicate tubes were installed for absorption of required ultraviolet rays and curved chrome plates were used to reflect and concentrate rays on the tubes containing feed mixture. The liquid chromatography, Total organic carbon (TOC), and Chemical oxygen demand (COD) tests were employed to determine the degradation rates and demineralization of solution samples. At catalyst dosing of 1–1.5 g/L, TiO2‐based experiments showed high degradation rate under acidic conditions. Similarly, for ZnO catalyst, 1 g/L dozing rate was found to be effective under neutral conditions (pH = 7.0). UV lamp‐based photocatalysis had higher degradation rate as compared to that of solar reactor. Moreover, better absorption of solar rays by quartz tubes resulted in higher degradation than that in borosilicate tubes. For UV lamp photocatalysis, the TOC and COD reduction was higher. With improved catalyst doping and better solar reactor design, solar‐based IBP degradation could be more promising than UV‐based catalysis. Practitioner points TiO2 and ZnO were employed to generate oxidizing agents for comparative photocatalytic degradation. Degradation rate of Ibuprofen with TiO2 was much higher compared to ZnO. Quartz material was found more effective as radiation absorbing material than borosilicate glass for solar photo catalysis. Influence of catalyst loading (TiO2 and ZnO) and pH conditions on degradation rate and mineralization of IBP was examined. IBP is a carcinogenic and endocrine disrupting drug so its degradation in water can protect ecological and human life.

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Section: Short Communicationmentioning

confidence: 99%

Photocatalytic degradation of ibuprofen in water using TiO₂ and ZnO under artificial UV and solar irradiation

Tanveer

Guyer²,

Abbas

2019

Water Environment Research

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“…The results revealed that the addition of IPA showed a significant decrease in the degradation of MB dye by quenching hydroxyl radical ( • OH) produced in the reaction mixture, implying the dominant role of • OH radicals in the process of MB dye degradation. Furthermore, with the addition of BQ and AO, the photodegradation of MB is slightly reduced, providing further evidence of the presence of hydroxyl radicals as the main reactive species [63,64]. The BQ captures photogenerated electrons and reduces the possibility of double-electron reduction, while AO captures the hole during the photocatalytic reaction process.…”

Section: The Mechanism Behind the Photocatalytic-degradation Of Mbmentioning

confidence: 81%

Facile One-Pot Biogenic Synthesis of Cu-Co-Ni Trimetallic Nanoparticles for Enhanced Photocatalytic Dye Degradation

Alshehri

Malik

2020

Catalysts

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Biomolecules from plant extracts have gained significant interest in the synthesis of nanoparticles owing to their sustainable properties, cost efficiency, and environmental wellbeing. An eco-friendly and facile method has been developed to prepare Cu-Co-Ni trimetallic nanoparticles with simultaneous bio-reduction of Cu-Co-Ni metal precursors by aqueous extract of oregano (Origanum vulgare) leaves. Dramatic changes in physicochemical properties of trimetallic nanoparticles occur due to synergistic interactions between individual metal precursors, which in turn outclass the properties of corresponding monometallic nanoparticles in various aspects. The as biosynthesized Cu-Co-Ni trimetallic nanoparticles were initially analyzed using ultraviolet (UV)–visible spectroscopy. The morphology, structure, shape, and size of biosynthesized trimetallic nanoparticles were confirmed by transmission electron microscopy (TEM), scanning electron microscopy (SEM), and X-ray diffraction (XRD) spectroscopy. The elemental analysis was carried out by energy-dispersive X-ray (EDX) spectroscopy. Fourier transform infrared (FTIR) microscopy was carried out to explain the critical role of the biomolecules in the Origanum vulgare leaf extract as capping and stabilizing agents in the nanoparticle formation. Additionally, simultaneous thermogravimetric analysis (TGA) and differential thermogravimetry (DTG) analysis was also performed to estimate the mass evaluation and rate of the material weight changes. The photocatalytic activity of as biosynthesized trimetallic nanoparticles was investigated towards methylene blue (MB) dye degradation and was found to be an efficient photocatalyst for dye degradation. Kinetic experiments have shown that photocatalytic degradation of MB dye followed pseudo-first-order kinetics. The mechanism of the photodegradation process of biogenic Cu-Co-Ni trimetallic nanoparticles was also addressed.

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“…11 ) for methylene blue (MB) degradation [ 92 ]. Synthesizing and preparing of the candidate by doping metals such as Cu and Fe [ 93 – 95 , 96 ] and non-metals such as B, C, O, or S [ 97 – 100 ], and co-doping [ 101 – 103 ] has been widely used by many scientists for water and environmental treatment. A promising solution to environmental depollution [ 104 – 106 ] is the combination of noble metals and g-C 3 N 4 [ 107 – 112 ].…”

Section: Reviewmentioning

confidence: 99%

Mini Review on the Structure and Properties (Photocatalysis), and Preparation Techniques of Graphitic Carbon Nitride Nano-Based Particle, and Its Applications

Darkwah

2018

Nanoscale Res Lett

146

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Graphite carbon nitride (g-C3N4) is well known as one of the most promising materials for photocatalytic activities, such as CO2 reduction and water splitting, and environmental remediation through the removal of organic pollutants. On the other hand, carbon nitride also pose outstanding properties and extensive application forecasts in the aspect of field emission properties. In this mini review, the novel structure, synthesis and preparation techniques of full-bodied g-C3N4-based composite and films were revealed. This mini review discussed contemporary advancement in the structure, synthesis, and diverse methods used for preparing g-C3N4 nanostructured materials. The present study gives an account of full knowledge of the use of the exceptional structural and properties, and the preparation techniques of graphite carbon nitride (g-C3N4) and its applications.

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Visible Light-Driven Photocatalytic Performance of N-Doped ZnO/g-C3N4 Nanocomposites

Cited by 76 publications

References 36 publications

Photocatalytic degradation of ibuprofen in water using TiO₂ and ZnO under artificial UV and solar irradiation

Photocatalytic degradation of ibuprofen in water using TiO₂ and ZnO under artificial UV and solar irradiation

Facile One-Pot Biogenic Synthesis of Cu-Co-Ni Trimetallic Nanoparticles for Enhanced Photocatalytic Dye Degradation

Mini Review on the Structure and Properties (Photocatalysis), and Preparation Techniques of Graphitic Carbon Nitride Nano-Based Particle, and Its Applications

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Visible Light-Driven Photocatalytic Performance of N-Doped ZnO/g-C3N4 Nanocomposites

Cited by 76 publications

References 36 publications

Photocatalytic degradation of ibuprofen in water using TiO2 and ZnO under artificial UV and solar irradiation

Photocatalytic degradation of ibuprofen in water using TiO2 and ZnO under artificial UV and solar irradiation

Facile One-Pot Biogenic Synthesis of Cu-Co-Ni Trimetallic Nanoparticles for Enhanced Photocatalytic Dye Degradation

Mini Review on the Structure and Properties (Photocatalysis), and Preparation Techniques of Graphitic Carbon Nitride Nano-Based Particle, and Its Applications

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Photocatalytic degradation of ibuprofen in water using TiO₂ and ZnO under artificial UV and solar irradiation

Photocatalytic degradation of ibuprofen in water using TiO₂ and ZnO under artificial UV and solar irradiation