化学
硫化物
硫化镉
硫化
水溶液
食腐动物
氧化还原
无机化学
光化学
化学稳定性
环境修复
离子
镉
光催化
还原剂
地下水修复
人体净化
降级(电信)
硫化钠
作者
Jing Yin,Hao Deng,Pengliang Liang,Long Jiang,Yanyan Chen,Jia Liu,Yong Liu,Shuying Shi,Huiqiang Liu,Ying Xiong
标识
DOI:10.1021/acs.est.5c11344
摘要
Highly soluble and migratory pertechnetate (99TcO4-) can be reduced to sparingly soluble TcS2 favored by conventional sulfidic sequestration, but this sulfidation is relatively sluggish. Herein, we develop an alternative strategy for the remediation of Tc-contaminated natural water via a photoinduced reduction stimulated by sulfur-rich cadmium sulfide (CdS) and clarify the sequestration mechanism through in situ characterization. By regulating the content of the S2-/Cd2+ molar ratio of 4:1 (CdS-4) in the synthesis system to achieve a high photogenerated charge separation and transfer efficiency, the superior reduction efficiency reached 80% for 2 h under conditions of 4 wt % hole scavenger (HCOONa) and 1 mg L-1 Re(VII) (a chemical analogue of Tc), coinciding with the rapid removal in actual Tc remediation. The introduction of HCOO-/HCOOH effectively scavenges photogenerated holes and undergoes oxidation to form highly reductive carboxylic radicals, resulting in the reduction of Re(VII) to Re(VI). Under simulated neutral pH conditions, unstable Re(VI) rapidly disproportionates into Re(VII) and Re(IV). As photogenerated holes are consumed, transient S2- ions from photocorrosion preferentially react with Re(IV) to form the chemically stable ReS2. Notably, the sulfide can not only be effectively immobilized in natural aqueous environments but also its inherent stability facilitates subsequent separation or sequestration processes.
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