Structure and properties of highly selective and active Advanced Ion Exchange (AIX) materials. Enabling and expanding sustainable metal recovery

STEPHEN W. COLLEY; PASI KAUPPINEN; JAMES STEVENS

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Structure and properties of highly selective and active Advanced Ion Exchange (AIX) materials. Enabling and expanding sustainable metal recovery

机译：高选择性和活性的高级离子交换（AIX）材料的结构和性能。促进和扩大可持续的金属回收

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Environmental contamination and loss of metal values resulting from wastewater containing transition metal ions is widespread. New composite materials have been developed for the recovery and purification of precious and base metals from Active Pharmaceutical Ingredients (API) manufacture, Platinum Group Metals (PGM) refining, base metal mining and metal processing industries. The manufacture of these materials is based on grafting active adsorption sites on the outer surfaces and large pores of silica, or attaching polymeric chains of active adsorption sites to non-porous polymer fibres. The advantages the new AIX materials offer over conventional polystyrene resins are discussed.

机译：含有过渡金属离子的废水造成的环境污染和金属价值的损失十分普遍。已开发出新的复合材料，用于从活性药物成分（API）制造，铂族金属（PGM）精炼，贱金属开采和金属加工行业中回收和纯化贵金属和贱金属。这些材料的制造基于在二氧化硅的外表面和大孔上接枝活性吸附位点，或将活性吸附位点的聚合物链连接到无孔聚合物纤维上。讨论了新型AIX材料相对于常规聚苯乙烯树脂所具有的优势。

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《Chimica oggi: international journal of chemistry and biotechnology》 |2014年第5期|共3页
作者
STEPHEN W. COLLEY; PASI KAUPPINEN; JAMES STEVENS;
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正文语种 eng
中图分类化学;
关键词
advanced ion exchange; silica-polymer composite; sustainable;

机译：先进的离子交换;硅聚合物复合材料;可持续;

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1. Structure and properties of highly selective and active Advanced Ion Exchange (AIX) materials. Enabling and expanding sustainable metal recovery [J] . STEPHEN W. COLLEY, PASI KAUPPINEN, JAMES STEVENS Chimica oggi: international journal of chemistry and biotechnology . 2014,第5期

机译：高选择性和活性的高级离子交换（AIX）材料的结构和性能。促进和扩大可持续的金属回收
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Structure and properties of highly selective and active Advanced Ion Exchange (AIX) materials. Enabling and expanding sustainable metal recovery

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