de Boer M A, Lammertsma K
Department of Chemistry and Pharmaceutical Sciences, VU University Amsterdam, De Boelelaan 1083, 1081 HV Amsterdam (The Netherlands).
ChemSusChem. 2013 Nov;6(11):2045-55. doi: 10.1002/cssc.201200794. Epub 2013 Sep 5.
Rare earth elements (REEs) are important for green and a large variety of high-tech technologies and are, therefore, in high demand. As a result, supply with REEs is likely to be disrupted (the degree of depends on the REE) in the near future. The 17 REEs are divided into heavy and light REEs. Other critical elements besides REEs, identified by the European Commission, are also becoming less easily available. Although there is no deficiency in the earth's crust of rare earth oxides, the economic accessibility is limited. The increased demand for REEs, the decreasing export from China, and geopolitical concerns on availability contributed to the (re)opening of mines in Australia and the USA and other mines are slow to follow. As a result, short supply of particularly terbium, dysprosium, praseodymium, and neodymium is expected to be problematic for at least the short term, also because they cannot be substituted. Recycling REEs from electronic waste would be a solution, but so far there are hardly any established REE recycling methods. Decreasing the dependency on REEs, for example, by identifying possible replacements or increasing their efficient use, represents another possibility.
稀土元素对绿色技术和众多高科技技术至关重要,因此需求旺盛。结果,稀土元素的供应在不久的将来可能会受到干扰(干扰程度取决于具体的稀土元素)。17种稀土元素分为重稀土元素和轻稀土元素。欧盟委员会认定的除稀土元素之外的其他关键元素,获取也日益困难。尽管地壳中稀土氧化物并不匮乏,但经济可获取性有限。对稀土元素需求的增加、中国出口的减少以及地缘政治对供应的担忧,促使澳大利亚和美国重新开放矿场,其他矿场跟进缓慢。结果,预计至少在短期内,特别是铽、镝、镨和钕的供应短缺将成为问题,这还因为它们无法被替代。从电子废物中回收稀土元素可能是一种解决办法,但目前几乎没有成熟的稀土回收方法。减少对稀土元素的依赖,比如通过确定可能的替代品或提高其使用效率,是另一种可能的途径。
