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NTIS 바로가기자원환경지질 = Economic and environmental geology, v.55 no.4, 2022년, pp.399 - 406
오일환 (한국지질자원연구원 희소금속광상연구센터) , 허철호 (한국지질자원연구원 희소금속광상연구센터) , 김성용 (한국지질자원연구원 미래전략연구센터)
In line with the megatrend of 2050 carbon neutrality, the amount of critical minerals used in clean-energy technology is expected to increase fourfold and sixfold, respectively, according to the Paris Agreement-based scenario as well as the 2050 carbon-neutrality scenario. And, in the case of Korea,...
Breaks, F.W. and Tindle, A.G. (1997) Rare element exploration potential of the Separation Lake area: An emerging target for Bikita-type mineralization in the Superior province of northwest Ontario. In: Ontario Geological Survey ed. Ontario Ministry of Northern Development and Mines, Toronto, p.72-88.
Cho, D.L., Hong, S.H., Chwae, U., Lee, B.-J. and Choi, P.-Y. (1998) Geological report of the Goseong-Ganseong Sheet (1:50,000). KIGAM, 59p. (in Korean with English summary)
Choi, S.-G. and Youm, S.J. (2000) Compositional variation of arsenopyrite and fluid evolution at the Ulsan deposit, southeastern Korea; A low-sulfidation porphyry system. The Canadian Mineralogist, v.38, p.567-583. doi: 10.2113/gscanmin.38.3.567
European Commission (2008) The raw materials initiative, https://ima-europe.eu/eu-policy/industrial-policy-and-circular-economy/raw-material-initiative/
European Commission (2011) A list of 14 CRMs, Communication from the commission to the European Parliament, the Council, The European Economic and Social Committee and the Committee of the Regions Tackling the Challenges in Commodity Markets and on Raw Materials, https://eur-lex.europa.eu/legal-content/EN/TXT/?uriCELEX:52011DC0025.
European Commission (2014) A first revised list of 20 CRMs, On the review of the list of critical raw materials for the EU and the implementation of the Raw Materials Initiative, Communication from the commission to the European Parliament, the Council, The European Economic and Social Committee and the Committee of the Regions, https://eur-lex.europa.eu/legal-content/EN/TXT/?uriCELEX:52014DC0297.
European Commission (2017) A third list of 27 CRMs, on the 2017 list of Critical Raw Materials for the EU, Communication from the commission to the European Parliament, the Council, The European Economic and Social Committee and the Committee of the Regions, https://eur-lex.europa.eu/legal-content/EN/TXT/?uriCELEX:52017DC0490.
European Commission (2022) Critical raw materials, https://single-market-economy.ec.europa.eu/sectors/raw-materials/areas-specific-interest/critical-raw-materials_en
Executive Office of the President, USA (2017) A Federal Strategy to Ensure Secure and Reliable Supplies of Critical Minerals. Executive Office of the President, Washington, 50p.
Gates, B. (2021) How to avoid a clamate disaster. Penguin Random House, New York, 356p.
Hajjar, Z., Gervilla, F., Fanlo, I. Jimenez, J.-M.G. and Ilmen, S. (2021) Formation of serpentinite-hosted, Fe-rich arsenide ores at the latest stage of mineralization of the Bou-Azzer mining district (Morocco). Ore Geology Reviews, v.128, 103926. doi: 10.1016/j.oregeorev.2020.103926
Heo, C.-H., Lee, J.-H., Yun, S.-T. and So, C.-S. (2006) Fluid Inclusion Study of a Magmatic Cobalt Mineralization at the Boguk Mine, Korea. The Korean Society of Mineral and Energy Resources Engineers, v.43, p.106-117.
Jeon, C.H. (2021) Overweight of secondary battery, IBKS industry, Seoul, 92p.
Kim, O.J. and Park, H.I. (1958) Geology and ore deposits of Sannae nickel mine at Toktongri, Sannae-myon, Namwon-gun, Chollapukto. Geological survey of Korea Bulletin, no.2, p.17-46.
Kim, S.W., Kwon, S., Jeong, Y.-J., Kee, W.S., Lee, B.C., Byun, U.H., Ko, K., Cho, D.-L., Hong, P.S., Park, S.-I. and Santosh, M. (2021) The middle Permian to Triassic tectonic-magmatic system in the southern Korean Peninsula. Gondwana Res., v.100, p.302-322. doi: 10.1016/j.gr.2020.11.017
Kim, S.Y., Seo, J.R., Yang, J.I. and Kim, S.B. (1991) Geology and Ore Deposits of Rare Elements in Hadong and Uljin Area, Korea. Korea Institute of Geology, Mining & Materials, Daejeon, Korea, 156p.
Lee, H.K., Moon, H.S. and Oh, M.S. (2007) Economic mineral deposits in Korea. Acanet, Soeul, 750p.
Park, B.C. and Kim, J.D. (1968) Investigation report of tongyang nickel mine. Investigation Report of Mines Bulletin, no.1, p.81-116.
Park, H.I. (1960) Report on drilling of the Sannae nickel mine at toktong-ri, Sannae-myon, Namwon-gun, Chollapuk-to. Geological Survey of Korea Bulletin, no.4, p.3-37.
Park, M.E. (1990) Mineralization and Paragenesis of the Cobalt-bearing Sulfide and Arsenide Minerals in Gyeongsan Area. Geol. Soc. Korea, v.26, p.18-31.
Song, Y.-S., Park, K.-H. and Kim, D.-Y. (2007) The Overview of Layered structures in Mafic-Ultramafic Macheon Intrusion. J. Petro. Soc. Korea, v.16, p.162-179.
Statistics of Korea (2022) https://www.index.go.kr/unify/idx-info.do?idxCd4288
Yun, S.T. and Youm, S.J. (1997) Temporal variations of ore mineralogy and sulfur isotope data from the Boguk cobalt mine: Implication for genesis and geochemistry of Co-bearing hydrothermal system. Korean Soc. Econ. Environ. Geol., v.30, p.289-301.
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