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W2155710048 abstract "The unique chemical and physical properties of metals mean that they are extensively utilized by industry in a huge variety of applications, including electronics, materials, industrial catalysts and chemicals. The increased consumer demand from a growing population worldwide with rising aspirations for a better life has resulted in concerns over the security of supply and accessibility of these valuable elements. As such, there is a growing need to develop alternative methods to recover them from waste repositories, current or historic, both for hazard avoidance and potentially, as a new source of metals for industry. Phytoextraction (the use of plants for the recovery of metals from waste repositories) is a green and novel technique for metal recovery, which, if done with the goal of resource supply rather than hazard mitigation, is termed “phytomining”. The ability for plants to form metallic nanoparticles as a consequence of phytoextraction could make the recovered metal ideally suited for utilization in green chemical technologies, such as catalysis. This review focuses on a multidisciplinary approach to elemental sustainability and highlights important aspects of metal lifecycle analysis, metal waste sources (including mine tailings), phytoextraction and potential green chemical applications that may result from the integration of these approaches." @default.
W2155710048 created "2016-06-24" @default.
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W2155710048 date "2014-01-01" @default.
W2155710048 modified "2023-10-14" @default.
W2155710048 title "Phytoextraction as a tool for green chemistry" @default.
W2155710048 cites W1891759697 @default.
W2155710048 cites W1963692763 @default.
W2155710048 cites W1963709919 @default.
W2155710048 cites W1970985801 @default.
W2155710048 cites W1977622155 @default.
W2155710048 cites W1978711075 @default.
W2155710048 cites W1979295892 @default.
W2155710048 cites W1980618479 @default.
W2155710048 cites W1986549314 @default.
W2155710048 cites W1995468808 @default.
W2155710048 cites W1996548769 @default.
W2155710048 cites W1999364829 @default.
W2155710048 cites W2000737377 @default.
W2155710048 cites W2004035522 @default.
W2155710048 cites W2006780545 @default.
W2155710048 cites W2007394339 @default.
W2155710048 cites W2007794215 @default.
W2155710048 cites W2012848278 @default.
W2155710048 cites W2018401477 @default.
W2155710048 cites W2020583701 @default.
W2155710048 cites W2021713080 @default.
W2155710048 cites W2022291463 @default.
W2155710048 cites W2027997630 @default.
W2155710048 cites W2028646244 @default.
W2155710048 cites W2035332157 @default.
W2155710048 cites W2039550985 @default.
W2155710048 cites W2044958256 @default.
W2155710048 cites W2045163527 @default.
W2155710048 cites W2047157249 @default.
W2155710048 cites W2050567146 @default.
W2155710048 cites W2055364929 @default.
W2155710048 cites W2056148972 @default.
W2155710048 cites W2059562362 @default.
W2155710048 cites W2062809060 @default.
W2155710048 cites W2067123958 @default.
W2155710048 cites W2067124342 @default.
W2155710048 cites W2069664534 @default.
W2155710048 cites W2071500320 @default.
W2155710048 cites W2074702931 @default.
W2155710048 cites W2076618565 @default.
W2155710048 cites W2077187792 @default.
W2155710048 cites W2078907560 @default.
W2155710048 cites W2085365718 @default.
W2155710048 cites W2087624930 @default.
W2155710048 cites W2090145231 @default.
W2155710048 cites W2093154430 @default.
W2155710048 cites W2102515376 @default.
W2155710048 cites W2103028420 @default.
W2155710048 cites W2108248360 @default.
W2155710048 cites W2117040442 @default.
W2155710048 cites W2118626596 @default.
W2155710048 cites W2123374088 @default.
W2155710048 cites W2127963820 @default.
W2155710048 cites W2129998516 @default.
W2155710048 cites W2132696540 @default.
W2155710048 cites W2133142767 @default.
W2155710048 cites W2138191912 @default.
W2155710048 cites W2148138939 @default.
W2155710048 cites W2149027740 @default.
W2155710048 cites W2161434303 @default.
W2155710048 cites W2163267265 @default.
W2155710048 cites W2163366377 @default.
W2155710048 cites W2164512472 @default.
W2155710048 cites W2189522390 @default.
W2155710048 cites W2314363537 @default.
W2155710048 cites W2318985698 @default.
W2155710048 cites W4234602173 @default.
W2155710048 cites W4247438948 @default.
W2155710048 doi "https://doi.org/10.1515/gps-2013-0103" @default.
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