Type-II heterojunction-based magnetic ZnFe2O4@CuFe2O4@SiO2 photocatalyst for photodegradation of toxic dyes from wastewater
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Ashutosh Kumar Singh | Sonu | T. Ahamad | P. Raizada | Van‐Huy Nguyen | Q. Van Le | Pardeep Singh | V. Dutta | Sheetal Sharma
[1] D. Vo,et al. Suppressing inhibitory compounds by nanomaterials for highly efficient biofuel production: A review , 2022, Fuel.
[2] D. Vo,et al. Development and applications of Ru and Ce based iron oxides as photocatalysts , 2022, Materials Letters.
[3] Thanh Son Pham,et al. Development of Indium vanadate and Silver deposited on graphitic carbon nitride ternary heterojunction for advanced photocatalytic degradation of residual antibiotics in aqueous environment , 2022, Optical Materials.
[4] S. Valiyaveettil,et al. Strongly co-ordinated MOF-PSF matrix for selective adsorption, separation and photodegradation of dyes , 2022, Chemical Engineering Journal.
[5] Sonu,et al. An overview of heterojunctioned ZnFe2O4 photocatalyst for enhanced oxidative water purification , 2021 .
[6] Sonu,et al. Essential oil derived biosynthesis of metallic nano-particles: Implementations above essence , 2021, Sustainable Materials and Technologies.
[7] S. M. Masoudpanah,et al. Effects of ethylene glycol contents on phase formation, magnetic properties and photocatalytic activity of CuFe2O4/Cu2O/Cu nanocomposite powders synthesized by solvothermal method , 2021, Journal of Materials Research and Technology.
[8] D. Vo,et al. Evaluating green silver nanoparticles as prospective biopesticides: An environmental standpoint. , 2021, Chemosphere.
[9] O. Mašek,et al. New directions and challenges in engineering biologically-enhanced biochar for biological water treatment. , 2021, The Science of the total environment.
[10] G. Rahman,et al. Light-driven reduction of carbon dioxide: Altering the reaction pathways and designing photocatalysts toward value-added and renewable fuels , 2021 .
[11] M. Minella,et al. Advanced oxidation processes in the removal of organic substances from produced water: Potential, configurations, and research needs , 2021 .
[12] Á. Ríos,et al. Electrochemically-based hybrid oxidative technologies for the treatment of micropollutants in drinking water , 2021, Chemical Engineering Journal.
[13] A. Elgorban,et al. A simple approach for the synthesis of bi-functional p-n type ZnO@CuFe2O4 heterojunction nanocomposite for photocatalytic and antimicrobial application , 2021 .
[14] Gulzar Alam,et al. Applications of artificial intelligence in water treatment for the optimization and automation of the adsorption process: Recent advances and prospects , 2021 .
[15] M. Dhanalakshmi,et al. Improved photocatalytic performance of magnetically recoverable Bi2Te3/CdS/CuFe2O4 nanocomposite for MB dye under visible light exposure , 2021, Solid State Sciences.
[16] Ajay Kumar,et al. Advanced activation of persulfate by polymeric g-C3N4 based photocatalysts for environmental remediation: A review. , 2021, Journal of hazardous materials.
[17] J. Kiwi,et al. Insight into the interaction of magnetic photocatalysts with the incoming light accelerating bacterial inactivation and environmental cleaning , 2021 .
[18] Abdullah M. Asiri,et al. An overview on WO3 based photocatalyst for environmental remediation , 2021 .
[19] M. Rezvani,et al. Ultra-deep oxidative desulfurization of real fuels by sandwich-type polyoxometalate immobilized on copper ferrite nanoparticles, Fe6W18O70 ⊂ CuFe2O4, as an efficient heterogeneous nanocatalyst , 2021, Journal of Environmental Chemical Engineering.
[20] D. Vo,et al. Recent advancements of spinel ferrite based binary nanocomposite photocatalysts in wastewater treatment. , 2021, Chemosphere.
[21] Min Song,et al. The superoxide radicals' production via persulfate activated with CuFe2O4@Biochar composites to promote the redox pairs cycling for efficient degradation of o-nitrochlorobenzene in soil. , 2020, Journal of hazardous materials.
[22] Yi Zhao,et al. Nanoscale CuFe2O4 monodispersedly anchored on reduced graphene oxide as excellent peroxydisulfate catalyst for removal of gaseous elemental mercury , 2020 .
[23] D. Vo,et al. Photocatalytic degradation of nevirapine with a heterostructure of few-layer black phosphorus coupled with niobium (V) oxide nanoflowers (FL-BP@Nb2O5). , 2020, Chemosphere.
[24] Sheetal Sharma,et al. Tailoring cadmium sulfide-based photocatalytic nanomaterials for water decontamination: a review , 2020, Environmental Chemistry Letters.
[25] T. Pham,et al. Synthesis of N and S Co-doped TiO2 Nanotubes for Advanced Photocatalytic Degradation of Volatile Organic Compounds (VOCs) in Gas Phase , 2020, Topics in Catalysis.
[26] D. Vo,et al. One-Pot Synthesis of Magnetite-ZnO Nanocomposite and Its Photocatalytic Activity , 2020, Topics in Catalysis.
[27] M. Naushad,et al. Fabrication of MoS2/ZnS embedded in N/S doped carbon for the photocatalytic degradation of pesticide , 2020 .
[28] A. Alizadeh,et al. Solvothermal synthesis of CuFe2O4 and Fe3O4 nanoparticles with high heating efficiency for magnetic hyperthermia application , 2020 .
[29] M. Naushad,et al. Preparation of chitosan based magnetic nanocomposite for tetracycline adsorption: Kinetic and thermodynamic studies. , 2020, International journal of biological macromolecules.
[30] Sonu,et al. Review on augmentation in photocatalytic activity of CoFe2O4 via heterojunction formation for photocatalysis of organic pollutants in water , 2019 .
[31] V. Thakur,et al. Carbon quantum dot supported semiconductor photocatalysts for efficient degradation of organic pollutants in water: A review , 2019, Journal of Cleaner Production.
[32] Sonu,et al. Enhanced photocatalytic activity and stability of AgBr/BiOBr/graphene heterojunction for phenol degradation under visible light , 2019, Journal of Saudi Chemical Society.
[33] B. Mamba,et al. Recent advances in copper ferrite nanoparticles and nanocomposites synthesis, magnetic properties and application in water treatment: Review , 2019, Journal of Environmental Chemical Engineering.
[34] K. Parida,et al. Synergistic ZnFe2O4-carbon allotropes nanocomposite photocatalyst for norfloxacin degradation and Cr (VI) reduction. , 2019, Journal of colloid and interface science.
[35] M. Naushad,et al. N/S doped highly porous magnetic carbon aerogel derived from sugarcane bagasse cellulose for the removal of bisphenol‑A. , 2019, International journal of biological macromolecules.
[36] H. Jung,et al. Rapid Flame-Annealed CuFe2O4 as Efficient Photocathode for Photoelectrochemical Hydrogen Production , 2019, ACS Sustainable Chemistry & Engineering.
[37] M. Naushad,et al. Fabrication of highly porous N/S doped carbon embedded with ZnS as highly efficient photocatalyst for degradation of bisphenol. , 2019, International journal of biological macromolecules.
[38] Dong-mei Zhou,et al. Mechanistic understanding of polychlorinated biphenyls degradation by peroxymonosulfate activated with CuFe2O4 nanoparticles: Key role of superoxide radicals , 2018, Chemical Engineering Journal.
[39] M. Knobel,et al. Tuning dipolar magnetic interactions by controlling individual silica coating of iron oxide nanoparticles , 2018 .
[40] A. Salem,et al. Photocatalytic degradation of methylene blue dye over novel spherical mesoporous Cr2O3/TiO2 nanoparticles prepared by sol-gel using octadecylamine template , 2017 .
[41] D. Nanda,et al. Fabrication of durable porous and non-porous superhydrophobic LLDPE/SiO2 nanoparticles coatings with excellent self-cleaning property , 2017 .
[42] M. Swaminathan,et al. Facile Synthesis of Spinel Nanocrystalline ZnFe2O4: Enhanced Photocatalytic and Microbial Applications , 2017 .
[43] A. Mendes,et al. Characterization of TiO 2 -based semiconductors for photocatalysis by electrochemical impedance spectroscopy , 2016 .
[44] Jin Liu,et al. Visible light-assisted heterogeneous Fenton with ZnFe2O4 for the degradation of Orange II in water , 2016 .
[45] Xingyan Wang,et al. Magnetic core–shell carbon microspheres (CMSs)@ZnFe2O4/Ag3PO4 composite with enhanced photocatalytic activity and stability under visible light irradiation , 2015 .
[46] Shaobin Wang,et al. Magnetic core-shell CuFe2O4@C3N4 hybrids for visible light photocatalysis of Orange II. , 2015, Journal of hazardous materials.
[47] K. Zhao,et al. Bi2WO6/TiO2/Pt nanojunction system: A UV–vis light responsive photocatalyst with high photocatalytic performance , 2015 .
[48] Yanzhuo Lv,et al. Synthesis of magnetic ZnO/ZnFe2O4 by a microwave combustion method, and its high rate of adsorption of methylene blue. , 2015, Journal of colloid and interface science.
[49] C. Schulz,et al. Stabilization of mid-sized silicon nanoparticles by functionalization with acrylic acid , 2012, Nanoscale Research Letters.
[50] Jun Ma,et al. Applying a novel advanced oxidation process of activated peracetic acid by CoFe2O4 to efficiently degrade sulfamethoxazole , 2021 .
[51] Afonso Henrique da Silva Júnior,et al. A critical review on microplastics, interaction with organic and inorganic pollutants, impacts and effectiveness of advanced oxidation processes applied for their removal from aqueous matrices , 2021 .
[52] K. Atacan,et al. Design and synthesis of magnetically separable CuFe2O4/MoS2 p-n heterojunction for photocatalytic efficiency of Rhodamine B degradation , 2021 .
[53] Lichao Nengzi,et al. Activation of persulfate by a novel magnetic CuFe2O4/Bi2O3 composite for lomefloxacin degradation , 2020 .