Turnitin
降AI改写
早检测系统
早降重系统
Turnitin-UK版
万方检测-期刊版
维普编辑部版
Grammarly检测
Paperpass检测
checkpass检测
PaperYY检测
A critical review of environmental remediation via iron-mediated sulfite advanced oxidation processes
In response to the increasingly serious environmental pollution problem, iron-based sulfite
activation has been considered as an effective option for environmental remediation. This …
activation has been considered as an effective option for environmental remediation. This …
When bimetallic oxides and their complexes meet Fenton-like process
W Fu, J Yi, M Cheng, Y Liu, G Zhang, L Li, L Du… - Journal of Hazardous …, 2022 - Elsevier
The heterogeneous Fenton-like reaction is an advanced oxidation process, which is widely
recognized for its efficient removal of recalcitrant organic contaminants. In recent years, the …
recognized for its efficient removal of recalcitrant organic contaminants. In recent years, the …
Enhanced oxidation of organic contaminants by iron (II)-activated periodate: the significance of high-valent iron–oxo species
Potassium periodate (PI, KIO4) was readily activated by Fe (II) under acidic conditions,
resulting in the enhanced abatement of organic contaminants in 2 min, with the decay ratios …
resulting in the enhanced abatement of organic contaminants in 2 min, with the decay ratios …
Ferrate (VI)/periodate system: synergistic and rapid oxidation of micropollutants via periodate/iodate-modulated Fe (IV)/Fe (V) intermediates
L Niu, J Lin, W Chen, Q Zhang, X Yu… - … Science & Technology, 2023 - ACS Publications
The presence of organic micropollutants in water sources worldwide has created a need for
the development of effective and selective oxidation methods in complex water matrices …
the development of effective and selective oxidation methods in complex water matrices …
Atomic cation-vacancy modulated peroxymonosulfate nonradical oxidation of sulfamethoxazole via high-valent iron-oxo species
The formation of high-valent active species during peroxymonosulfate (PMS) activation has
attracted great interest. However, how to rapidly generate high-valent active species during …
attracted great interest. However, how to rapidly generate high-valent active species during …
Peracetic acid enhances micropollutant degradation by ferrate (VI) through promotion of electron transfer efficiency
Ferrate (VI) and peracetic acid (PAA) are two oxidants of growing importance in water
treatment. Recently, our group found that simultaneous application of ferrate (VI) and PAA …
treatment. Recently, our group found that simultaneous application of ferrate (VI) and PAA …
Role of ferrate (IV) and ferrate (V) in activating ferrate (VI) by calcium sulfite for enhanced oxidation of organic contaminants
Although the Fe (VI)–sulfite process has shown great potential for the rapid removal of
organic contaminants, the major active oxidants (Fe (IV)/Fe (V) versus SO4•–/• OH) involved …
organic contaminants, the major active oxidants (Fe (IV)/Fe (V) versus SO4•–/• OH) involved …
Reactive high-valent iron intermediates in enhancing treatment of water by ferrate
Efforts are being made to tune the reactivity of the tetraoxy anion of iron in the+ 6 oxidation
state (FeVIO42–), commonly called ferrate, to further enhance its applications in various …
state (FeVIO42–), commonly called ferrate, to further enhance its applications in various …
Modeling the kinetics of UV/peracetic acid advanced oxidation process
Peracetic acid combined with UV (ie, UV/PAA) has emerged as a novel advanced oxidation
process (AOP) for water disinfection and micropollutant degradation, but kinetic modeling for …
process (AOP) for water disinfection and micropollutant degradation, but kinetic modeling for …
Degradation of organic contaminants by reactive iron/manganese species: progress and challenges
Abstract Many iron (II, III, VI)-and manganese (II, IV, VII)-based oxidation processes can
generate reactive iron/manganese species (RFeS/RMnS, ie, Fe (IV)/Fe (V) and Mn (III)/Mn …
generate reactive iron/manganese species (RFeS/RMnS, ie, Fe (IV)/Fe (V) and Mn (III)/Mn …