TY - BOOK ID - 136590878 TI - New Trends in Photo(Electro)catalysis : From Wastewater Treatment to Energy Production PY - 2022 PB - Basel MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - composite KW - polymethylmethacrylate KW - photocatalytic oxidation KW - titanium dioxide KW - tetracycline KW - ethanol KW - photocatalysis KW - silver(II) oxide KW - mechanical mixture KW - in situ deposition KW - hydrogen evolution KW - Anodic oxidation KW - diamond electrodes KW - UV irradiation KW - ultrasounds KW - amoxicillin KW - ampicillin KW - Composite catalysts KW - synergy effect KW - solar energy KW - wastewater remediation KW - photoelectrocatalysis KW - TiO2 nanostructures KW - Au nanoparticles KW - water splitting KW - bisphenol A oxidation KW - ZnFe2O4 KW - degree of inversion KW - cation distribution KW - photoelectrochemical activity KW - porous nickel KW - selective corrosion KW - hydrogen evolution reaction KW - metal sulfides KW - H2 production KW - photocatalyst KW - facet effect KW - light trapping KW - crystal size KW - non-precious metal catalysts KW - Cu–B alloy KW - microbial fuel cell KW - cathode KW - environmental engineering KW - oxygen electrode KW - renewable energy sources KW - graphitic carbon nitride KW - H2 generation KW - Ni–Co catalyst KW - electricity production KW - advanced oxidation processes KW - azo dye KW - sustainable resources KW - niobium KW - water reuse KW - water treatment KW - AOPs KW - zinc oxide KW - nanoclusters KW - UVA KW - visible light KW - photocatalytic reduction KW - CO2 KW - TiO2 photocatalysts KW - surface modification KW - solar fuel KW - magnetron sputtering KW - titanium dioxide (TiO2) film KW - photocatalytic activity KW - metal and non-metal doping KW - optical properties KW - n/a KW - Cu-B alloy KW - Ni-Co catalyst UR - https://www.unicat.be/uniCat?func=search&query=sysid:136590878 AB - This reprint focuses on new trends in photo-electrocatalysis, specifically addressed to the remediation of wastewater and energy production. The remediation of wastewater, up to a level that is acceptable for discharge into receiving waterbodies, involves an ever-growing demand of energy, so effective and low-energy treatment processes are highly desirable. Among the other treatments, photo- and photo-electrochemical treatment processes may be considered as advanced oxidation processes (AOP), which are based on the generation of OH radicals, strong oxidizing agents able to indiscriminately degrade even the most persistent organic compounds. Photocatalysis and photo-electrocatalysis can be considered as effective methods for organic degradation, especially when the semiconductor is active in the range of visible light. Several results are presented on new morphologies and structures, which allow more photoactive, visibly responsive, and stable materials, as well as studies on combined processes in which photo- or photo-electrochemistry contribute to an increase in the sustainability of the whole process, lowering costs and achieving the most valuable final products. In view of the circular economy concept, microbial fuel cell systems are also considered as possible way to recover energy from organic pollutants contained in wastewater. ER -