Significant insights of CaO2 promoting heavy metal complexes removal during a plasma process [0.03%]
CaO2促进等离子体过程去除重金属复合物的几点认识
Meiqian Lu,Rong Li,Zichen Wang et al.
Meiqian Lu et al.
Heavy metal-antibiotic complexes pose a serious threat to human health and are difficult to remove by traditional methods. In this study, a novel and green strategy of discharge plasma technology combined with calcium peroxide (CaO2-DBD) wa...
Removal of Nickel-Citrate by KOH-Modified Arundo donax L. Biochar: Critical Role of Persistent Free Radicals [0.03%]
KOH改性的芦竹生物炭去除镍离了的研究:残留自由基的关键作用
Wei Liu,Xiaomin Li,Xiaolong Yang et al.
Wei Liu et al.
Removal of heavy metal complexes (HMCs) from wastewater poses significant challenges to waste water treatment due to the inherent stability of these compounds.
Recovery of heavy metal complexes from wastewaters: A critical review of mechanisms and technologies [0.03%]
废水重金属螯合回收技术及其机制的批判性研究综述
Wei Deng,Xiaoli Lv,Zhe Xu et al.
Wei Deng et al.
Heavy metal complexes (HMCs) pose significant ecological challenges while also holding attractive economic value. This review comprehensively summarizes advanced techniques for recovering HMCs from wastewater, including reductive recovery, ...
Simultaneous Cr(III)-EDTA decomplexation and Cr(III) sequestration by catalytic ozonation with sulfidated zero-valent iron: Kinetics and removal mechanism [0.03%]
催化臭氧化同时解离和捕捉Cr(III)-EDTA复合物:动力学与去除机理研究
Cuili Xing,Xinyi Yao,Kaiwei Zheng et al.
Cuili Xing et al.
This work would provide a new method for the heavy metal complexes removal from water.
Decomplexation of Pb-EDTA by electron beam irradiation technology: efficiency and mechanism [0.03%]
电子束辐射技术解络Pb-EDTA:效率及机理研究
Mengxin Tu,Lei Chen,Jianzhong Gu et al.
Mengxin Tu et al.
The degradation of heavy metal complexes by traditional methods requires subsequent treatment to recover heavy metals. This article attempts to find an effective method to simultaneously degrade both organic matter and heavy metal pollutants.
Progress and challenges in the use of electrochemical oxidation and reduction processes for heavy metals removal and recovery from wastewaters [0.03%]
电化学氧化还原法去除和回收废水中的重金属研究进展与挑战
Lei Wu,Shikha Garg,T David Waite
Lei Wu
Heavy metals-laden industrial wastewater represents both a threat to ecosystems and human health and, in some instances, a potential source of valuable metals however the presence of organic ligands that bind the metals in heavy metal complexes (HMCs) renders metal removal (and, where appropriate, recovery
Autocatalytic degradation of Cu-EDTA in the Calcite/PMS system: Singlet oxygen and Cu(III) [0.03%]
方解石活化过硫酸盐降解Cu-EDTA过程中的单线态氧和Cu(III)研究
Ziyang Chu,Zhengyan Han,Haibo Liu et al.
Ziyang Chu et al.
The simultaneous removal of heavy metal complexes (HMCs) and heavy metal ions presents a significant challenge in treating wastewater. To address this, we propose a Calcite/Peroxymonosulfate (Calcite/PMS) system aimed at simultaneously decomplexing Cu-EDTA and removing Cu ions.
Unraveling the toxicity response and metabolic compensation mechanism of tannic acid-Cr(III) complex on alga Raphidocelis subcapitata [0.03%]
鞣花酸-铬(Ⅲ)复合物对藻类细胞的毒性效应及代谢响应研究
Deyi Kong,Hongrui Ma,Chao Zhu et al.
Deyi Kong et al.
Due to their assembly properties and variable molecular weights, the potential biological toxicity effects of macromolecular organic ligand heavy metal complexes are more difficult to predict and their mechanisms are more complex....In conclusion, physiological toxicity coupled with downstream metabolic compensation in response to Cr(III) complex of macromolecular was characterized in Raphidocelis subcapitata, unveiling the adaptive mechanism of algae under the stress of heavy metal complexes with macromolecular organic ligands.
Microbial siderophores as molecular shuttles for metal cations: sources, sinks and application perspectives [0.03%]
微生物铁载体作为金属离子分子穿梭体:来源、去向及应用前景
Karuppiah Vijay,Murugan Shibasini,Panneerselvam Sivasakthivelan et al.
Karuppiah Vijay et al.
Besides, this review unearths the recent advancements in the characterisation of novel siderophores and its heavy metal complexes alongside the interaction kinetics with receptors.
Heavy metal pollution in the aquatic environment: efficient and low-cost removal approaches to eliminate their toxicity: a review [0.03%]
水环境中的重金属污染:高效低成本去除方法以消除其毒性:综述
Kosar Hikmat Hama Aziz,Fryad S Mustafa,Khalid M Omer et al.
Kosar Hikmat Hama Aziz et al.
It also examines recent advances in cost-effective and efficient techniques for removing heavy metals from wastewater, such as physicochemical adsorption using biochar and natural zeolite ion exchangers, as well as decomposition of heavy metal complexes through advanced oxidation processes (AOPs).
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