Afrad S.I., Monir M.B., Haque E., Barau A.A., Haque M., “Impact of industrial effluent on water, soil and Rice production in Bangladesh: a case of Turag River Bank”, Journal of Environmental Health Science and Engineering, 18: 825-834, 2020.
Akansha K., Chakraborty D., Sachan S.G., “Decolorization and degradation of methyl orange by Bacillus stratosphericus SCA1007”, Biocatalysis and Agricultural Biotechnology, 18: 101044, 2019.
Aoudjit L., Martins P.M., Madjene F., Petrovykh D.Y., Lanceros-Mendez S., “Photocatalytic reusable membranes for the effective degradation of tartrazine with a solar photoreactor”, Journal of Hazardous Materials, 344: 408-416, 2018.
Aqel A., El-Nour K.M.M.A, Ammar R.A.A., Al-Warthan A., “Carbon nanotubes, science and technology part (I) structure, synthesis and characterisation”, Arabian Journal of Chemistry, 5: 1: 1-23, 2012.
Aydın E.B., Sezgintürk M.K., “Indium tin oxide (ITO): A promising material in biosensing technology”, TrAC Trends in Analytical Chemistry, 97: 309-315, 2017.
Bahrudin N.N., Nawi M.A., Nawawi W.I., “Photocatalytic enhancement of immobilized TiO₂-polyaniline bilayer (TiO₂-PBL) system for decolorization of methyl orange dye”, Materials Research Bulletin, 106: 388-395, 2018.
Baken K.A., Sjerps R.M.A., Schriks M., van Wezel A., “Toxicological risk assessment and prioritization of drinking water relevant contaminants of emerging concern”, Environment International, 118: 293-303, 2018.
Becerril-Estrada V., Robles I., Martínez-Sánchez C., Godínez L.A., “Study of TiO₂/Ti₄O₇ photo-anodes inserted in an activated carbon packed bed cathode: Towards the development of 3D-type photo-electro-Fenton reactors for water treatment”, Electrochimica Acta, 340: 135972, 2020.
Bell J., Plumb J.J., Buckley C.A., Stuckey D.C., “Treatment and Decolorization of Dyes in an Anaerobic Baffled Reactor”, Journal of Environmental Engineering, 126: 11: 1026-1032, 2000.
Bergamonti L., Bergonzi C., Graiff C., Lottici P.P., Bettini R., Elviri L., “3D printed chitosan scaffolds: A new TiO₂ support for the photocatalytic degradation of amoxicillin in water”, Water Research, 163: 114841, 2019.
Bhatt D., Vyas K., Singh S., John P.J., Soni I., “Tartrazine induced neurobiochemical alterations in rat brain sub-regions”, Food and Chemical Toxicology, 113: 322-327, 2018.
Brillas E., Martínez-Huitle C.A., “Decontamination of wastewaters containing synthetic organic dyes by electrochemical methods: A general review”, Applied Catalysis B: Environmental, 87: 3-4: 105-145, 2009.
Brillas E., Serrà A., Garcia-Segura S., “Biomimicry designs for photoelectrochemical systems: Strategies to improve light delivery efficiency”, Current Opinion in Electrochemistry, 26: 100660, 2021.
Brugnera M.F., Rajeshwar K., Cardoso J.C., Zanoni M.V.B., “Bisphenol A removal from wastewater using self-organized TiO₂ nanotubular array electrodes”, Chemosphere, 78: 5: 569-575, 2010.
Chen F., Yang X., Mak H.K.C., Chan D.W.T., “Photocatalytic oxidation for antimicrobial control in built environment: A brief literature overview”, Building and Environment, 45: 8: 1747-1754, 2010.
Chen H., Chen K.F., Lai S.W., Dang Z., Peng Y.P., “Photoelectrochemical oxidation of azo dye and generation of hydrogen via Csingle bondN co-doped TiO₂ nanotube arrays”, Separation and Purification Technology, 146: 143-153, 2015.
Chen Y., Qian J., Wang N., Xing J., Liu L., “In-situ synthesis of CNT/TiO₂ heterojunction nanocomposite and its efficient photocatalytic degradation of Rhodamine B dye”, Inorganic Chemistry Communications, 119: 108071, 2020.
Cotillas S., Lacasa E., Herraiz-Carboné M., Sáez C., Cañizares P., Rodrigo M.A., “Innovative photoelectrochemical cell for the removal of CHCs from soil washing wastes”, Separation and Purification Technology, 230: 115876, 2020.
Cui M.H., Liu W.Z., Tang Z.E., Cui D., “Recent advancements in azo dye decolorization in bio-electrochemical systems (BESs): Insights into decolorization mechanism and practical application”, Water Research, 203: 117512, 2021.
Das A., Adak M.K., Mahata N., Biswas B., “Wastewater treatment with the advent of TiO₂ endowed photocatalysts and their reaction kinetics with scavenger effect”, Journal of Molecular Liquids, 338: 116479, 2021.
Deng F., Brillas E., “Advances in the decontamination of wastewaters with synthetic organic dyes by electrochemical Fenton-based processes”, Separation and Purification Technology, 316: 123764, 2023.
EDI, C. H., Verordnung des EDI über Gegenstände für den Schleimhaut-, Haut- und Haarkontakt sowie über Kerzen, Streichhölzer, Feuerzeuge und Scherzartikel(Verordnung über Gegenstände für den Humankontakt)., 2005.
EPA, U. S., White Paper Aquatic Life Criteria for Contaminants of Emerging Concern Part I General Challenges and Recommendations, 2008.
Floriano J.M., da Rosa E., do Amaral Q.D.F., Zuravski L., Chaves P.E.E., Machado M.M., de Oliveira L.F.S., “Is tartrazine really safe? In silico and ex vivo toxicological studies in human leukocytes: a question of dose”, Toxicology Research, 7: 6: 1128-1134, 2018.
Garcia-Segura S., Brillas E., “Applied photoelectrocatalysis on the degradation of organicpollutants in wastewaters”, Journal of Photochemistry and Photobiology C:Photochemistry Reviews, 31: 1-35, 2017.
Ghasemian S., Nasuhoglu D., Omanovic S., Yargeau V., “Photoelectrocatalytic degradation of pharmaceutical carbamazepine using Sb-doped Sn80%-W20%-oxide electrodes”, Separation and Purification Technology, 188: 52-59, 2017.
Gopinath K.P., Madhav N.V., Krishnan A., Malolan R., Rangarajan G., “Present applications of titanium dioxide for the photocatalytic removal of pollutants from water: A review”, Journal of Environmental Management, 270: 110906, 2020.
Groeneveld I., Kanelli M., Ariese F., van Bommel M.R., “Parameters that affect the photodegradation of dyes and pigments in solution and on substrate – An overview”, Dyes and Pigments, 210: 110999, 2023.
Gupta P., Rathore V., “Study of TiO₂ material: A photocatalyst for contrary pollutants”, Materials Today: Proceedings, 42: 1345-1352, 2021.
Hanafi M.F., Sapawe N., “A review on the water problem associate with organic pollutants derived from phenol, methyl orange, and remazol brilliant blue dyes”, Environment International, 134: 105340, 2020.
Haque M., Haque A., Mosharaf K., Marcus P.K., “Decolorization, degradation and detoxification of carcinogenic sulfonated azo dye methyl orange by newly developed biofilm consortia”, Saudi Journal of Biological Sciences, 28: 1: 793-804, 2021.
Hasnan N.S.N., Mohamed M.A., Anuar N.A., Sukur M.F.A., Yusoff S.F.M., Mokhtar W.N.A.W., Hir Z.A.M., Shohaimi N.A.M., Rafaie H.A., “Emerging polymeric-based material with photocatalytic functionality for sustainable technologies”, Journal of Industrial and Engineering Chemistry, 113: 32-71, 2022.
He C., Lin H., Dai L., Qiu R., Tang Y., Wang Y., Duan P.G., Ok Y.S., “Waste shrimp shell-derived hydrochar as an emergent material for methyl orange removal in aqueous solutions”, Environment International, 134: 105340, 2020.
Heo J., Boateng L.K., Flora J.R.V., Lee H., Her N., Park Y.G., Yoon Y., “Comparison of flux behavior and synthetic organic compound removal by forward osmosis and reverse osmosis membranes”, Journal of Membrane Science, 443: 69-82, 2013.
Hinkova T., Henke S., Bubnik Z., Pour V., Salova A., Slukova M., Sarka E., “Degradation of Food industrial pollutants by photocatalysis with immobilized titanium dioxide”, Innovative Food Science & Emerging Technologies, 27: 129-135, 2015.
Hosieny N.A., Eldemerdash M., Ahmed S.M., Zayed M., “Toxic Effects of Food azo dye Tartrazine on the Brain of Young Male Albino Rats: Role of Oxidative Stress”, Zagazig Journal of Forensic Medicine, 19: 1: 60-73, 2021.
Huda A., Suman P.H., Torquato L.D.M., Silva B.F., Handoko C.T., Gulo F., Zanoni M.V.B., Orlandi M.O., “Visible light-driven photoelectrocatalytic degradation of acid yellow 17 using Sn₃O₄ flower-like thin films supported on Ti substrate (Sn₃O₄/TiO₂/Ti)”, Journal of Photochemistry and Photobiology A: Chemistry, 376: 196-205, 2019.
Intisar A., Ramzan A., Hafeez S., Hussain N., Irfan M., Shakeel N., Gill K.A., Iqbal A., Janczarek M., Jesionowski T., “Adsorptive and photocatalytic degradation potential of porous polymeric materials for removal of pesticides, pharmaceuticals, and dyes-based emerging contaminants from water”, Chemosphere, 336: 139203, 2023.
Islam M., Basu S., “Effect of morphology and pH on (photo)electrochemical degradation of methyl orange using TiO₂/Ti mesh photocathode under visible light”, Journal of Environmental Chemical Engineering, 3: 4: Part A: 2323-2330, 2015.
Jiang D., Zhao H., Jia Z., Cao J., John R., “Photoelectrochemical behaviour of methanol oxidation at nanoporous TiO₂ film electrodes”, Journal of Photochemistry and Photobiology A: Chemistry, 144: 2-3: 197-204, 2001.
Jiang D., Zhao H., Zhang S., John R., “Comparison of photocatalytic degradation kinetic characteristics of different organic compounds at anatase TiO₂ nanoporous film electrodes”, Journal of Photochemistry and Photobiology A: Chemistry, 177: 2-3: 253-260, 2006.
Khan S., Naushad Mu., Govarthanan M., Iqbal J., Alfadul S.M., “Emerging contaminants of high concern for the environment: Current trends and future research”, Environmental Research, 207: 112609, 2022.
Khayyat L., Essawy A., Sorour J., Soffar A., “Tartrazine induces structural and functional aberrations and genotoxic effects in vivo”, PeerJ , 2017.
Khusnun N.F., Arshad A., Jalil A.A., Firmansyah L., Hassan N.S., Nabgan W., Fauzi A.A., Bahari M.B., Ya'aini N., Johari A., Saravanan R., “An avant-garde of carbon-doped photoanode materials on photo-electrochemical water splitting performance: A review”, Journal of Electroanalytical Chemistry, 929: 117139, 2023.
Kiso Y., Oguchi T., Kamimoto Y., Makino K., Takeyoshi Y., Yamada T., “Molecular sieving effects of disk-shaped molecules on reverse osmosis and nanofiltration separation”, Separation and Purification Technology, 173: 286-294, 2017.
Konstantinou I.K., Albanis T.A., “TiO₂-assisted photocatalytic degradation of azo dyes in aqueous solution: kinetic and mechanistic investigations: A review”, Applied Catalysis B: Environmental, 49: 1: 1-14, 2004.
Kumar G.S., Vishnupriya D., Patro T.U., “Influence of MWNTs on Electrical and Hydrophobic Properties of Poly(Vinylidene Fluoride) Composites”, materialstoday: PROCEEDINGD, 2: 4-5: 2795-2800, 2015.
Kumari P., Kumar A., “ADVANCED OXIDATION PROCESS: A remediation technique for organic and non-biodegradable pollutant”, Science of The Total Environment, 11: 100122, 2023.
Kundu S., Karak N., “Polymeric photocatalytic membrane: An emerging solution for environmental remediation”, Chemical Engineering Journal, 438: 135575, 2022.
Kusiak-Nejman E., Morawski A.W., “TiO₂/graphene-based nanocomposites for water treatment: A brief overview of charge carrier transfer, antimicrobial and photocatalytic performance”, Applied Catalysis B: Environmental, 253: 179-186, 2019.
Lee S.Y., Park S.J., “TiO₂ photocatalyst for water treatment applications”, Journal of Industrial and Engineering Chemistry, 19: 6: 1761-1769, 2013.
Li X.Z., Li F.B., Fan C.M., Sun Y.P., “Photoelectrocatalytic degradation of humic acid in aqueous solution using a Ti/TiO₂ mesh photoelectrode”, Water Research, 36: 9: 2215-2224, 2002.
Liu B., Wen L., Zhao X., “Efficient degradation of aqueous methyl orange over TiO₂ and CdS electrodes using photoelectrocatalysis under UV and visible light irradiation”, Progress in Organic Coatings, 64: 2-3: 120-123, 2009.
Liu C.F., Huang C.P., Hu C.C., Huang C., “A dual TiO₂/Ti-stainless steel anode for the degradation of orange G in a coupling photoelectrochemical and photo-electro-Fenton system”, Science of The Total Environment, 659: 221-229, 2019.
Liu T., Aniagor C.O., Ejimofor M.I., Menkiti M.C., Wakawa Y.M., Li J., Akbour R.A., Yap P.S., Lau S.Y., Jeevanandam J., “Recent developments in the utilization of modified graphene oxide to adsorb dyes from water: A review”, Journal of Industrial and Engineering Chemistry, 117: 21-37, 2023.
Luo X., Chen C., Yang J., Wang J., Yan Q., Shi H., Wang C., “Characterization of La/Fe/TiO₂ and Its Photocatalytic Performance in Ammonia Nitrogen Wastewater ”, International Journal of Environmental Research and Public Health, 12: 11: 14626-14639, 2015.
Luo Y., Huang G., Li Y., Yao Y., Huang J., Zhang P., Ren S., Shen J., Zhang Z., “Removal of pharmaceutical and personal care products (PPCPs) by MOF-derived carbons: A review”, Science of The Total Environment, 851: 1: 159279, 2023.
Marinho B.A., Cristóvão R.O., Boaventura R.A.R., Vilar V.J.P., “As(III) and Cr(VI) oxyanion removal from water by advanced oxidation/reduction processes—a review”, Environmental Science and Pollution Research volume, 26: 2203-2227, 2019.
Marinho B.A., Suhadolnik L., Likozar B., Huš M., Marinko Z., Čeh M., “Photocatalytic, electrocatalytic and photoelectrocatalytic degradation of pharmaceuticals in aqueous media: Analytical methods, mechanisms, simulations, catalysts and reactors”, Journal of Cleaner Production, 343: 131061, 2022.
Martínez-Huitle C.A., Brillas E., “Decontamination of wastewaters containing synthetic organic dyes by electrochemical methods: A general review”, Applied Catalysis B: Environmental, 87: 3-4: 105-145, 2009.
Masone D., Chanforan C., “Study on the interaction of artificial and natural food colorants with human serum albumin: A computational point of view”, Computational Biology and Chemistry, 56: 152-158, 2021.
Matoh L., Žener B., Kovačić M., Kušić H., Arčon I., Levstek M., Štangar U.L., “Photocatalytic sol-gel/P25 TiO₂ coatings for water treatment: Degradation of 7 selected pharmaceuticals”, Ceramics International, 49: 14: Part B: 24395-24406, 2023.
Meetani M., Rauf M.A., Hisaindee S., Khaleel A., “Mechanistic studies of photoinduced degradation of Orange G using LC/MS”, RSC Advances, 1: 3: 490-497, 2011.
Moreira F.C., Boaventura R.A.R., Brillas E., Vilar V.J.P., “Electrochemical advanced oxidation processes: A review on their application to synthetic and real wastewaters”, Applied Catalysis B: Environmental, 202: 217-261, 2017.
Muchuweni E., Mombeshora E.T., Martincigh B.S., Nyamori V.O., “Recent Applications of Carbon Nanotubes in Organic Solar Cells”, Electrochemistry, 9, 2022.
Muñoz-Flores P., Poon P.S., Sepulveda C., Ania C.O., Matos J, “Photocatalytic Performance of Carbon-Containing CuMo-Based Catalysts under Sunlight Illumination”, Catalysts, 12: 1: 46, 2022.
Naidu R., Espana V.A.A., Liu Y., Jit J., “Emerging contaminants in the environment: Risk-based analysis for better management”, Chemosphere, 154: 350-357, 2016.
Nengzi L.C., Yang H., Hu J.Z., Zhang W.M., Jiang D.A., “Fabrication of SnS/TiO₂ NRs/NSs photoelectrode as photoactivator of peroxymonosulfate for organic pollutants elimination”, Separation and Purification Technology, 249: 117172, 2020.
Nwahara N., Adeniyi O., Mashazi P., Nyokong T., “Visible light responsive TiO₂ - graphene oxide nanosheets - Zn phthalocyanine ternary heterojunction assisted photoelectrocatalytic degradation of Orange G”, Journal of Photochemistry and Photobiology A: Chemistry, 414: 113291, 2021.
Parveen N., Mahato N., Ansari M.O., Cho M.H., “Enhanced electrochemical behavior and hydrophobicity of crystalline polyaniline@graphene nanocomposite synthesized at elevated temperature”, Composites Part B: Engineering, 87: 281-290, 2016.
Patel P.N., Parmar K., Patel S., Das M., “Orange G is a potential inhibitor of human insulin amyloid fibrillation and can be used as a probe to study mechanism of amyloid fibrillation and its inhibition”, International Journal of Biological Macromolecules, 220: 613-626, 2022.
Pelaez M., Nolan N.T., Pillai S.C., Seery M.K., Falaras P., Kontos A.G., Dunlop P.S.M., Hamilton J.W.J., Byrne J.A., O'Shea K., Entezari M.H., Dionysiou D.D., “A review on the visible light active titanium dioxide photocatalysts for environmental applications”, Applied Catalysis B: Environmental, 125: 331-349, 2012.
Peng Y.P., Yassitepe E., Yeh Y.T., Ruzybayev I., Shah S.I., Huang C.P., “Photoelectrochemical degradation of azo dye over pulsed laser deposited nitrogen-doped TiO₂ thin film”, Applied Catalysis B: Environmental, 125: 465-472, 2012.
Rai S., Ikram A., Sahai S., Dass S., Shrivastav R., Satsangi V.R., “CNT based photoelectrodes for PEC generation of hydrogen: A review”, International Journal of Hydrogen Energy, 42: 7: 3994-4006, 2017.
Ribeiro J.P., Nunes M.I., “Recent trends and developments in Fenton processes for industrial wastewater treatment – A critical review”, Environmental Research, 197: 110957, 2021.
Rogers H.R., “Sources, behaviour and fate of organic contaminants during sewage treatment and in sewage sludges”, Science of The Total Environment, 185: 1-3: 3-26, 1996.
Routoula E., Patwardhan S.V., “Degradation of Anthraquinone Dyes from Effluents: A Review Focusing on Enzymatic Dye Degradation with Industrial Potential”, Environmental Science & Technology, 54: 2: 647-664, 2020.
Salleh M.A.M., Mahmoud D.K., Karim W.A.W.A., Idris A., “Cationic and anionic dye adsorption by agricultural solid wastes: A comprehensive review”, Desalination, 208: 1-3: 1-13, 2011.
Saxena S., Saharan V.K., George S., “Studies on the efficacy of ultrasonication processes in combination with advanced oxidizing agents for alum pretreated tannery waste effluent”, Journal of Environmental Chemical Engineering, 9: 1: 104678, 2021.
Sboui M., Niu W., Li D., Lu G., Zhou N., Zhang K., Pan J.H., “Fabrication of electrically conductive TiO₂/PANI/PVDF composite membranes for simultaneous photoelectrocatalysis and microfiltration of azo dye from wastewater”, Applied Catalysis A: General, 644: 118837, 2022.
Selcuk H., Bekbolet M., “Photocatalytic and photoelectrocatalytic humic acid removal and selectivity of TiO₂ coated photoanode”, Chemosphere, 73: 5: 854-858, 2008.
Shankar K., Basham J.I., Allam N.K., Varghese O.K., Mor G.K., Feng X., Paulose M., Seabold J.A., Choi K.S., Grimes C.A., “Recent Advances in the Use of TiO₂ Nanotube and Nanowire Arrays for Oxidative Photoelectrochemistry”, The Journal of Physical Chemistry C, 113: 16: 6327-6359, 2009.
Silah H., Erkmen C., Demir E., Uslu B., “Modified indium tin oxide electrodes: Electrochemical applications in pharmaceutical, biological, environmental and food analysis”, TrAC Trends in Analytical Chemistry, 141: 116289, 2021.
Simon S.M., George G., Sajna M.S., Prakashan V.P., Jose T.A., Vasudevan P., Saritha A.C., Biju P.R., Joseph C., Unnikrishnan N.V., “Recent advancements in multifunctional applications of sol-gel derived polymer incorporated TiO₂-ZrO₂ composite coatings: A comprehensive review”, Applied Surface Science Advances, 6: 100173, 2021.
Sonawane R.S., Hegde S.G., Dongare M.K., “Preparation of titanium(IV) oxide thin film photocatalyst by sol–gel dip coating”, Materials Chemistry and Physics, 77: 3: 744-750, 2003.
Srikanth B., Goutham R., Narayan R.B., Ramprasath A., Gopinath K.P., Sankaranarayanan A.R., “Recent advancements in supporting materials for immobilised photocatalytic applications in waste water treatment”, Journal of Environmental Management, 200: 60-78, 2017.
Stevens L.J., Kuczek T., Burgess J.R., Stochelski M.A., Arnold L.E., Galland L., “Mechanisms of behavioral, atopic, and other reactions to artificial food colors in children”, Nutrition Reviews, 71: 5: 268-281, 2013.
Stozhko N.Y., Khamzina E.I., Bukharinova M.A., Tarasov A.V., “An Electrochemical Sensor Based on Carbon Paper Modified with Graphite Powder for Sensitive Determination of Sunset Yellow and Tartrazine in Drinks”, Sensors, 22: 11: 4092, 2022.
Suhadolnik L., Pohar A., Novak U., Likozar B., Mihelič A., Čeh M., “Continuous photocatalytic, electrocatalytic and photo-electrocatalytic degradation of a reactive textile dye for wastewater-treatment processes: Batch, microreactor and scaled-up operation”, Journal of Cleaner Production, 72: 178-188, 2019.
Sun J., Qiao L., Sun S., Wang G., “Photocatalytic degradation of Orange G on nitrogen-doped TiO₂ catalysts under visible light and sunlight irradiation”, Journal of Hazardous Materials, 155: 1-2: 312-319, 2008.
Thakur A.K., Kumar R., Kumar A., Shankar R., Khan N.A., Gupta K.N., Ram M., Arya R.K., “Pharmaceutical waste-water treatment via advanced oxidation based integrated processes: An engineering and economic perspective”, Journal of Water Process Engineering, 54: 103977, 2023.
Tkaczyk A., Mitrowska K., Posyniak A., “Synthetic organic dyes as contaminants of the aquatic environment and their implications for ecosystems: A review”, Science of The Total Environment, 717: 137222, 2020.
Vaisman L., Wagner H.D., Marom G., “The role of surfactants in dispersion of carbon nanotubes”, Advances in Colloid and Interface Science, 128-130: 37-46, 2006.
Wang D., He Y., Zhong N., He Z., Shen Y., Zeng T., Lu X., Ma J., Song S., “In situ chloride-mediated synthesis of TiO₂ thin film photoanode with enhanced photoelectrochemical activity for carbamazepine oxidation coupled with simultaneous cathodic H₂ production and CO₂ conversion to fuels”, Journal of Hazardous Materials, 410: 124563, 2021.
Wang H., Wang H.L., Jiang W.F., “Solar photocatalytic degradation of 2,6-dinitro-p-cresol (DNPC) using multi-walled carbon nanotubes (MWCNTs)–TiO₂ composite photocatalysts”, Chemosphere, 75: 8: 1105-1111, 2009.
Wang N., Li X., Wang Y., Quan X., Chen G., “Evaluation of bias potential enhanced photocatalytic degradation of 4-chlorophenol with TiO₂ nanotube fabricated by anodic oxidation method”, Chemical Engineering Journal, 146: 1: 30-35, 2009.
Wang R., Wang Y., Zhang N., Lin S., He Y., Yan Y., Hu K., Sun H., Liu X., “Synergetic piezo-photocatalytic effect in SbSI for highly efficient degradation of methyl orange”, Ceramics International, 48: 21: 31818-31826, 2022.
Wang X., Li S., Chen P., Li F., Hu X., Hua T., “Photocatalytic and antifouling properties of TiO₂-based photocatalytic membranes”, Materials Today Chemistry, 23: 100650, 2022.
WHO, C. H., WHO Food Additives Series No. 73- Safety Evaluation of Certain Food Additives and Contaminants: Prepared by the Seventy-Fourth Meeting of the Joint FAO/WHO Expert Committee on Food Additives (JECFA)., 2017.
Xia T., Meng X., Pan X.X., Yuan F., Zhou J., Liu L., Zhang X., “Waste clay ceramsite supported Ti catalyst based on ozone/UV combination in treatment of black-odor waters”, Journal of Water Process Engineering, 47: 102738, 2022.
Yan X., Shi H., Wang D., “Photoelectrocatalytic degradation of phenol using a TiO₂/Ni thin-film electrode”, Korean Journal of Chemical Engineering, 20: 679-684, 2003.
He C., Li X.Z., Graham N., Wang Y., “Preparation of TiO₂/ITO and TiO₂/Ti photoelectrodes by magnetron sputtering for photocatalytic application”, Applied Catalysis A: General, 305: 1: 54-63, 2006.
Yang H.Y., Liu J., Wang Y.X., He C.S., Zhang L.S., Mu Y., Li W.H., “Bioelectrochemical decolorization of a reactive diazo dye: Kinetics, optimization with a response surface methodology, and proposed degradation pathway”, Bioelectrochemistry, 128: 9-16, 2019.
Yu Y., Yu J.C., Chan C.Y., Che Y.K., Zhao J.C., Ding L., Ge W.K., Wong P.K., “Enhancement of adsorption and photocatalytic activity of TiO₂ by using carbon nanotubes for the treatment of azo dye”, Applied Catalysis B: Environmental, 61: 1-2: 1-11, 2005.
Yu Y., Yu J.C., Yu J.G., Kwok Y.C., Che Y.K., Zhao J.C., Ding L., Ge W.K., Wong P.K., “Enhancement of photocatalytic activity of mesoporous TiO₂ by using carbon nanotubes”, Applied Catalysis A: General, 289: 2: 186-196, 2005.
Žener B., Matoh L., Rodič P., Škufca D., Heath E., Štangar U.L., “Removal of 18 bisphenols co-present in aqueous media by effectively immobilized titania photocatalyst”, Journal of Environmental Chemical Engineering, 9: 6: 106814, 2021.
Zhang F.J., Liu J., Chen M.L., Oh W.C., “Photoelectrocatalytic Degradation of Dyes in Aqueous Solution Using CNT/TiO₂ Electrode”, Journal of the Korean Ceramic Society, 46: 3: 263-270, 2009.
Zhang X., Yu W., Guo Y., Li S., Chen Y., Wang H., Bian Z., “Recent advances in photoelectrocatalytic advanced oxidation processes: From mechanism understanding to catalyst design and actual applications”, Chemical Engineering Journal, 455: 140801, 2023.
Zhang Y., Xiong X., Han Y., Zhang X., Shen F., Deng S., Xiao H., Yang X., Yang G., Peng H., “Photoelectrocatalytic degradation of recalcitrant organic pollutants using TiO₂ film electrodes: An overview”, Chemosphere, 88: 2: 145-154, 2012.
Zhao J., Zhang M., Piao H., Zuo S., Shi X., Quan Q., Zhu R., Huang Q., Xiao C., “ZnS/Ag₂S decorated PES membrane with efficient near-infrared response and enhanced photocatalysis for pollutants photodegradation on high-turbidity water”, Applied Surface Science, 635: 157728, 2023.
Zhou Y., Kumar M., Sarsaiya S., Sirohi R., Awasthi S.K., Binod R.S.P., Pandey A., Bolan N.S., Zhang Z., Singh L., Kumar S., Awasthi M.K., “Challenges and opportunities in bioremediation of micro-nano plastics: A review”, Science of The Total Environment, 802: 149823, 2022.
曾士誠,應用二氧化鈦/氧化銦錫複合光觸媒電極光電催化分解甲基橙研究,國立高雄第一科技大學環境與安全衛生工程系,碩士論文,2015。