Abstract
The growing awareness that a serious damage to the environment had been caused and valuable resources consumed stirred up the social and political conscience and preservation of the environment became one of the key issues in the political arena during the 1960s. What impressed more common people was the destruction of the ecosystem by strongly toxic compounds used e.g. as pesticides in agriculture or for new commodities, e.g. polymers. Large amounts of aggressive products and intermediates were buried in chemical plants, and leakage from such deposits may cause pollution of water bodies. In the following decades, the reversed point of view was introduced, focusing on a new way of preparing useful chemicals while avoiding to produce toxic by-products. This was tagged Green Chemistry and found a meaningful expression in the 12 green chemistry principles.
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References
Pasolini P (1975) Corriere della Sera. Accessed 1 Feb 1975. http://www.corriere.it/speciali/pasolini/potere.html
Kovarik B (1994) Charles F. Kettering and the 1921 discovery of tetraethyl lead. Society of automotive engineers, fuels and lubricants division conference, Baltimore, 1994. http://www.environmentalhistory.org/billkovarik/about-bk/research/cabi/ket-tel/#earlyw
“Midge” to “My dear Boss” Kettering, 2 Mar 1923, Factory correspondence, unprocessed Midgley files, GMI. Quoted in [2]
New York Times, 25 Oct, section 9, p 14. Quoted in [2]
Frittoli E (2014) Eternit: la storia del cemento che uccide (1901–2014). http://www.panorama.it/news/cronaca/eternit-storia-cemento-uccide-1901-2014/
Carstons R (1962) Silent springs, Houghton Mifflin Harcourt (2002 edition)
Page 49 in Ref. [6]
van Leeuwen FX (2000) Safe drinking water: the toxicologist’s approach. Food Chem Toxicol 38:S51–S58
Zala S, Penn DJ (2004) Abnormal behaviour induced by chemical pollution: a review of the evidence and new challenges. Anim Behav 68:649–664
(a) Report of the World Commission on environment and development: our common future; UN documents: gathering a body of global agreements. http://www.un-documents.net/wced-ocf.htm. (b) Pollution prevention act of 1990. US Government Printing Office, Washington, 1995, p 617
Rio declaration on environment and development, United Nations publication, sales no. E.73.II.A.14 and corrigendum, chapter I. http://www.unep.org/Documents.Multilingual/Default.asp?documentid=78&articleid=1163
Metzger JO (2004) Agenda 21 as a guide for green chemistry research and a sustainable future. Green Chem 6:G15–G16
Cannon AS, Pont JL, Warner JC (2012) Green chemistry and the pharmaceutical industry. In: Zhang W, Cue BW jr (eds) Green techniques for organic synthesis and medicinal chemistry. John Wiley & Sons, New York
Cathcart C (1990) Green chemistry in the Emerald Isle. Chem Ind 5:684–687. Centi G, Perathoner S (2003) Catalysis and sustainable (green) chemistry. Catal Today 77:287–297
Linthorst JA (2010) An overview: origins and development of green chemistry. Found Chem. doi:10.1007/s10698-009-9079-4; Clark JH, Macquarrie DJ (1998) Catalysis of liquid phase organic reactions using chemically modified mesoporous inorganic solids. Chem Commun 8:853–860
Anastas PT, Williamson TC (eds) (1996) Green chemistry: designing chemistry for the environment, ACS symposium series, vol 626. American Chemical Society, Washington
Clark JH (1999) Green chemistry: challenges and opportunities. Green Chem 1:1–8
Anastas PT, Williamson TC, Hjeresen D, Breen JJ (1999) Promoting green chemistry initiatives. Environ Sci Technol 33:116A–119A
Jimenez-Gonzalez C in Ref. [19]
Constable D in Ref. [19]
Wool R in Ref. [19]
Dunn PJ in Ref. [19]
Williams R in Ref. [19]
Raynie D in Ref. [19]
Bradley S, Finster DC, Goodwin T in Ref. [19]
https://www.gov.uk/government/policies/improving-water-quality
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Albini, A., Protti, S. (2016). Introduction. In: Paradigms in Green Chemistry and Technology. SpringerBriefs in Molecular Science(). Springer, Cham. https://doi.org/10.1007/978-3-319-25895-9_1
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