최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기광물과 암석 = Korean journal of mineralogy and petrology, v.36 no.4, 2023년, pp.303 - 312
김효임 (경상국립대학교 지질과학과) , 이상미 (경상국립대학교 지질과학과) , 구효진 (경상국립대학교 지질과학과) , 지윤 (경상국립대학교 지질과학과) , 조현구 (경상국립대학교 지질과학과)
The determination of the oxidation states of metal elements in manganese nodules sheds light on the understanding of the formation mechanism of nodules, providing insights into the paleo-environmental conditions such as the redox potential of the aqueous system. This study aims to reveal the oxidati...
Atkins, A.L., Shaw, S. and Peacock, C.L., 2014, Nucleation?and growth of todorokite from birnessite: Implications for?trace-metal cycling in marine sediments: Geochimica et?Cosmochimica Acta, 144, 109-125.
Bau, M., Schmidt, K., Koschinsky, A., Hein, J., Kuhn, T. and?Usui, A., 2014, Discriminating between different genetic?types of marine ferro-manganese crusts and nodules based?on rare earth elements and yttrium: Chemical Geology,?381, 1-9.
Blothe, M., Wegorzewski, A., Muller, C., Simon, F., Kuhn, T.?and Schippers, A., 2015, Manganese-cycling microbial?communities inside deep-sea manganese nodules: Environmental science & technology, 49(13), 7692-7700.
Bodei, S., Manceau, A., Geoffroy, N., Baronnet, A. and Buatier,?M., 2007, Formation of todorokite from vernadite in Ni-rich?hemipelagic sediments: Geochimica et Cosmochimica Acta,?71(23), 5698-5716.
Boumaiza, H., Renard, A., Robinson, M.R., Kervern, G., Vidal,?L., Ruby, C., Bergaoui, L. and Coustel, R., 2019, A multitechnique approach for studying Na triclinic and hexagonal birnessites: Journal of Solid State Chemistry, 272, 234-243.
Feng, X.H., Zhu, M., Ginder-Vogel, M., Ni, C., Parikh, S.J.?and Sparks, D.L., 2010, Formation of nano-crystalline?todorokite from biogenic Mn oxides: Geochimica et Cosmochimica Acta, 74(11), 3232-3245.
Guan, Y., Sun, X., Jiang, X., Sa, R., Zhou, L., Huang, Y., Liu,?Y., Li, X., Lu, R. and Wang, C., 2017, The effect of Fe-Mn?minerals and seawater interface and enrichment mechanism?of ore-forming elements of polymetallic crusts and nodules from the South China Sea: Acta Oceanologica Sinica,?36, 34-46.
Hein, J.R. and Koschinsky, A., 2014, Deep-Ocean Ferromanganese Crusts and Nodules, in Holland, H.D., and Turekian,?K.K., eds., Treatise on Geochemistry (Second Edition):?Oxford, Elsevier, p. 273-291.
Hochella Jr, M.F., Kasama, T., Putnis, A., Putnis, C.V. and Moore,?J.N., 2005, Environmentally important, poorly crystalline?Fe/Mn hydrous oxides: Ferrihydrite and a possibly new?vernadite-like mineral from the Clark Fork River Superfund Complex: American Mineralogist, 90(4), 718-724.
Choi, H., Chang, S.-W. and Lee, S.-R., 2000, Correlation?between Mineralogical and Chemical Compositions of the?Micro-Textures in Manganese Nodules: Journal of the?Mineralogical Society of Korea, 13(4), 205-220.
Ilton, E.S., Post, J.E., Heaney, P.J., Ling, F.T. and Kerisit,?S.N., 2016, XPS determination of Mn oxidation states in?Mn (hydr)oxides: Applied Surface Science, 366, 475-485.
Kim, H.-I., Cho, H.G., Lee, S., Koo, H.J., Hong, J. K. and Jin,?Y.K., 2023, Spatial distribution of manganese oxide minerals in the natural ferromanganese nodule of the Arctic Sea:?A view from Raman spectroscopy: Chemical Geology, 623, 121398.
Knipe, S., Mycroft, J., Pratt, A., Nesbitt, H. and Bancroff, G.,?1995, X-ray photoelectron spectroscopic study of water?adsorption on iron sulphide minerals: Geochimica et Cosmochimica Acta, 59(6), 1079-1090.
Koo, H.J., Cho, H.G., Yoo, C.M. and Jin, Y.K., 2017, Characteristics of Manganese Nodule from the East Siberian?Sea: Journal of the mineralogical society of korea, 30(4),?219-227.
Koschinsky, A., Bau, M., Marbler, H. and Schmidt, K., 2010,?Rare valuable metals in marine ferromanganese nodules-contents and accumulation processes: Zeitschrift fur angewandte Geologie, 51(2), 33-39.
Kuhn, T., Wegorzewski, A., Ruhlemann, C. and Vink, A., 2017,?Composition, formation, and occurrence of polymetallic?nodules: Deep-sea mining: Resource potential, technical?and environmental considerations, 23-63.
Lee, S., Xu, H., Xu, W. and Sun, X., 2019, The structure and?crystal chemistry of vernadite in ferromanganese crusts:?Acta Crystallographica Section B: Structural Science, Crystal?Engineering and Materials, 75(4), 591-598.
Li, D.F., Fu, Y., Liu, Q.F., Reinfelder, J.R., Hollings, P., Sun,?X.M., Tan, C.Y., Dong, Y.H. and Ma, W.L., 2020, High-resolution LA-ICP-MS mapping of deep-sea polymetallic?micronodules and its implications on element mobility:?Gondwana Research, 81, 461-474.
Manceau, A., Lanson, M. and Takahashi, Y., 2014, Mineralogy and crystal chemistry of Mn, Fe, Co, Ni, and Cu in a?deep-sea Pacific polymetallic nodule: American Mineralogist, 99(10), 2068-2083.
Manceau, A., Marcus, M.A. and Grangeon, S., 2012, Determination of Mn valence states in mixed-valent manganates?by XANES spectroscopy: American Mineralogist, 97(5-6),?816-827.
Park, J., Jung, J., Ko, Y., Lee, Y. and Yang, K., 2023, Reconstruction of the Paleo-Ocean Environment Using Mineralogical and Geochemical Analyses of Mixed-Type Ferromanganese?Nodules From the Tabletop of Western Pacific Magellan?Seamount: Geochemistry, Geophysics, Geosystems, 24(2), e2022GC010768.
Post, J.E., Heaney, P.J. and Hanson, J., 2003, Synchrotron X-ray?diffraction study of the structure and dehydration behavior?of todorokite: American Mineralogist, 88(1), 142-150.
Post, J.E., McKeown, D.A. and Heaney, P.J., 2020, Raman?spectroscopy study of manganese oxides: Tunnel structures: American Mineralogist, 105(8), 1175-1190.
Rehkamper, M., Frank, M., Hein, J. R., Porcelli, D., Halliday,?A., Ingri, J. and Liebetrau, V., 2002, Thallium isotope variations in seawater and hydrogenetic, diagenetic, and hydrothermal ferromanganese deposits: Earth and Planetary Science?Letters, 197(1-2), 65-81.
Tebo, B.M., Bargar, J.R., Clement, B.G., Dick, G.J., Murray,?K.J., Parker, D. and Webb, S.M., 2004, Biogenic manganese oxides: properties and mechanisms of formation. Annu.?Rev. Earth Planet. Sci., 32, 287-328
Vineesh, T.C., Nagender Nath, B., Banerjee, R., Jaisankar, S.?and Lekshmi, V., 2009, Manganese nodule morphology as?indicators for oceanic processes in the Central Indian Basin.?International Geology Review, 51(1), 27-44.
Wegorzewski, A.V. and Kuhn, T., 2014, The influence of suboxic diagenesis on the formation of manganese nodules in?the Clarion Clipperton nodule belt of the Pacific Ocean:?Marine Geology, 357, 123-138.
Xiao, F. and Xu, Y., 2013, Electrochemical co-deposition and?characterization of MnO 2 /SWNT composite for supercapacitor application: Journal of Materials Science: Materials in Electronics, 24, 1913-1920.
Xie, G., Liu, X., Li, Q., Lin, H., Li, Y., Nie, M., and Qin, L.,?2017, The evolution of α-MnO 2 from hollow cubes to hollow?spheres and their electrochemical performance for supercapacitors: Journal of Materials Science, 52, 10915-10926.
Yu, H.J., Shin, E.J., Koo, H.J. and Cho, H.G., 2020, Semiquantitative Analysis of Manganese Oxide Mineral in Manganese Nodule From the East Siberian Sea: Korean Journal of?Mineralogy and Petrology, 33(4), 427-437.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.