化工进展
化工進展
화공진전
CHEMICAL INDUSTRY AND ENGINEERING PROGRESS
2013年
11期
2727-2733
,共7页
纳米银%来源%迁移转化%水体环境%毒性
納米銀%來源%遷移轉化%水體環境%毒性
납미은%래원%천이전화%수체배경%독성
silver nanoparticles%source%transformation%aquatic environment%toxicity
纳米银已成为日用产品中广泛使用的原材料,不可避免地将通过各种途径进入水体环境中,主要是在纳米银合成加工环节以及使用含纳米银的产品中,其将对环境构成潜在威胁。目前已在自然水体与污水处理厂中检测出纳米银,其进入水体环境后将发生迁移转化,导致其价态与种类的变化。本文将从物理作用、化学作用以及与生物大分子作用3个方面进行分析,并总结了主要的影响因素:pH值、离子强度以及电解质种类,进而阐述了纳米银毒性产生机理:一是溶解出的银离子,二是纳米银颗粒本身,并分析了迁移转化行为对毒性的影响。最后列出了目前急需解决的问题:一是建立具体水体中纳米银浓度的数据库;二是分析纳米银在实际环境中迁移转化行为;三是需要对纳米银的致毒机理进行深入研究。本综述旨在为预测纳米银在水体环境中的浓度、环境行为及其环境风险奠定了相关的理论基础。
納米銀已成為日用產品中廣汎使用的原材料,不可避免地將通過各種途徑進入水體環境中,主要是在納米銀閤成加工環節以及使用含納米銀的產品中,其將對環境構成潛在威脅。目前已在自然水體與汙水處理廠中檢測齣納米銀,其進入水體環境後將髮生遷移轉化,導緻其價態與種類的變化。本文將從物理作用、化學作用以及與生物大分子作用3箇方麵進行分析,併總結瞭主要的影響因素:pH值、離子彊度以及電解質種類,進而闡述瞭納米銀毒性產生機理:一是溶解齣的銀離子,二是納米銀顆粒本身,併分析瞭遷移轉化行為對毒性的影響。最後列齣瞭目前急需解決的問題:一是建立具體水體中納米銀濃度的數據庫;二是分析納米銀在實際環境中遷移轉化行為;三是需要對納米銀的緻毒機理進行深入研究。本綜述旨在為預測納米銀在水體環境中的濃度、環境行為及其環境風險奠定瞭相關的理論基礎。
납미은이성위일용산품중엄범사용적원재료,불가피면지장통과각충도경진입수체배경중,주요시재납미은합성가공배절이급사용함납미은적산품중,기장대배경구성잠재위협。목전이재자연수체여오수처리엄중검측출납미은,기진입수체배경후장발생천이전화,도치기개태여충류적변화。본문장종물리작용、화학작용이급여생물대분자작용3개방면진행분석,병총결료주요적영향인소:pH치、리자강도이급전해질충류,진이천술료납미은독성산생궤리:일시용해출적은리자,이시납미은과립본신,병분석료천이전화행위대독성적영향。최후렬출료목전급수해결적문제:일시건립구체수체중납미은농도적수거고;이시분석납미은재실제배경중천이전화행위;삼시수요대납미은적치독궤리진행심입연구。본종술지재위예측납미은재수체배경중적농도、배경행위급기배경풍험전정료상관적이론기출。
Silver nanoparticles (AgNPs),as common raw materials of commodities,can be inevitably released into the aquatic environment through various ways,such as synthesis,manufacturing and AgNPs products applications. AgNPs has been found in natural water bodies and wastewater treatment plants. The mitigation and transformation of AgNPs in the aquatic environment could result in the change of its valence and species. This paper focused on the physical,chemical and biological aspects and summarized the key factors affecting AgNPs behaviors,including pH,ionic strength,and electrolyte. Toxicity mechanisms of AgNPs were also analyzed. The relationship between the toxicity mechanism and their fate in the environment was established. The problems need to be solved include establishing the AgNPs concentration database in realistic waters,analyzing the fate and behavior of AgNPs in actual environment,and research on the toxicity mechanism of AgNPs. This paper is aiming at providing theoretical foundation to predict concentrations,behaviors and risks of AgNPs in the environment.
