[{"data":1,"prerenderedAt":-1},["ShallowReactive",2],{"minerals:one:2167":3},{"id":4,"longid":5,"guid":6,"name":7,"shortcode_ima":8,"entrytype":9,"entrytype_text":10,"varietyof":11,"synid":11,"polytypeof":11,"groupid":12,"weighting":13,"nolocadd":14,"blacklisted":14,"mindat_formula":15,"mindat_formula_note":16,"ima_formula":17,"elements":18,"sigelements":23,"key_elements":11,"impurities":24,"cim":25,"ima_status":26,"ima_notes":11,"ima_history":11,"approval_year":28,"publication_year":11,"discovery_year":29,"strunz10ed1":30,"strunz10ed2":31,"strunz10ed3":31,"strunz10ed4":11,"dana8ed1":32,"dana8ed2":30,"dana8ed3":33,"dana8ed4":34,"csystem":35,"cclass":36,"spacegroup":37,"spacegroupset":38,"a":39,"b":40,"c":40,"alpha":40,"beta":40,"gamma":40,"aerror":41,"berror":11,"cerror":11,"alphaerror":11,"betaerror":11,"gammaerror":11,"va3":11,"z":41,"csmetamict":14,"commentcrystal":42,"twinning":11,"tranglide":11,"parting":11,"epitaxidescription":11,"morphology":11,"tlform":11,"hmin":43,"hmax":44,"hardtype":11,"vhnmin":40,"vhnmax":40,"vhnerror":11,"vhng":11,"vhns":11,"commenthard":11,"dmeas":40,"dmeas2":40,"dcalc":45,"dmeaserror":11,"dcalcerror":43,"commentdense":11,"lustre":11,"lustretype":46,"commentluster":11,"diapheny":11,"streak":47,"colour":48,"commentcolor":11,"colors":49,"streak_colors":52,"luminescence":11,"uv":11,"cleavage":11,"cleavagetype":11,"fracturetype":11,"tenacity":11,"commentbreak":11,"opticaltype":53,"opticalsign":11,"opticalalpha":40,"opticalalpha2":40,"opticalalphaerror":11,"opticalbeta":40,"opticalbeta2":40,"opticalbetaerror":11,"opticalgamma":40,"opticalgamma2":40,"opticalgammaerror":11,"opticalomega":40,"opticalomega2":40,"opticalomegaerror":11,"opticalepsilon":40,"opticalepsilon2":40,"opticalepsilonerror":11,"opticaln":40,"opticaln2":40,"opticalnerror":11,"optical2vcalc":40,"optical2vcalc2":40,"optical2vcalcerror":11,"optical2vmeasured":40,"optical2vmeasured2":40,"optical2vmeasurederror":11,"rimin":11,"rimax":11,"opticaldispersion":11,"opticalpleochroism":11,"opticalpleochorismdesc":11,"opticalbirefringence":11,"opticalcomments":11,"opticalcolour":11,"opticalinternal":11,"opticaltropic":11,"opticalanisotropism":11,"opticalbireflectance":11,"opticalextinction":11,"opticalr":11,"specdispm":11,"ir":11,"electrical":11,"magnetism":11,"thermalbehaviour":11,"other":11,"industrial":11,"occurrence":11,"otheroccurrence":11,"type_specimen_store":11,"description_short":54,"aboutname":55,"rock_parent":11,"rock_parent2":11,"rock_root":9,"rock_bgs_code":11,"meteoritical_code":11,"updttime":56,"reviewed_at":11,"variety_of":11,"varieties":57,"group_members":58,"associates":107,"confused_with":108,"type_localities":109,"occurrence_total":116,"citations":117,"images":235,"structures":246,"synonyms":274,"language_names":279,"wikidata_qid":305,"texts":306},2167,"1:1:2167:4","40b4f0fb-5606-4003-9e65-86689c0ab3c5","Katoite","Kto",0,"mineral",null,1651,211,false,"Ca\u003Csub>3\u003C\u002Fsub>Al\u003Csub>2\u003C\u002Fsub>[&#9723;(OH)\u003Csub>4\u003C\u002Fsub>]\u003Csub>3\u003C\u002Fsub>","The formula for general \"hydrogrossular\" is derived by the progressive exchange of grossular's Si with vacancies ([]), while maintaining local charge balance by attaching one H\u003Csup>+\u003C\u002Fsup> to each of the four adjacent oxygens (so 4H\u003Csup>+\u003C\u002Fsup> in total) per each one Si\u003Csup>4+\u003C\u002Fsup> lost. This progressive exchange can also be represented as Ca\u003Csub>3\u003C\u002Fsub>Al\u003Csub>2\u003C\u002Fsub>(SiO\u003Csub>4\u003C\u002Fsub>)\u003Csub>3-x\u003C\u002Fsub>(OH)\u003Csub>4x\u003C\u002Fsub>. In end-member katoite, the replacement is complete (so x = 3).\r\n\r\nPreviously, the mineral \"hibschite\" (no longer an IMA-approved species) was considered an intermediate member of the grossular-katoite series, and was defined as Ca\u003Csub>3\u003C\u002Fsub>Al\u003Csub>2\u003C\u002Fsub>(SiO\u003Csub>4\u003C\u002Fsub>)\u003Csub>3-x\u003C\u002Fsub>(OH)\u003Csub>4x\u003C\u002Fsub>, where x = 0.2-1.5; compositions where x \u003C 0.2 were still considered grossular, whereas compositions where x > 1.5 were considered katoite. Now, based on the modern \"50% rule\", what was previously called \"hibschite\" would now be considered grossular (or perhaps more descriptively as \"OH-bearing grossular\"), although \"hibschite\", \"hydrogrossular\" and \"hydrogarnet\" are still all informally in common use.","Ca\u003Csub>3\u003C\u002Fsub>Al\u003Csub>2\u003C\u002Fsub>(OH)\u003Csub>12\u003C\u002Fsub>",[19,20,21,22],"Al","Ca","O","H",[19,20,21,22],",Mg,S,,","16.9.17",[27],"APPROVED",1982,"1982","4","F","51","3d","2","Isometric",32,225,"Ia3d ","12.24095","0",8,"Synthetic katoite has a = 12.5731(2) A (Lager et al., 2002).",5,6,"3.013","Vitreous","White","Colourless",[50,51],"colorless","white",[51],"Isotropic","Grossular-Katoite Series. Compare also the tetragonal-pseudocubic Holtstamite.\r\nUngrouped member of the Garnet Supergroup.\r\n\r\nFor x = 3, i.e. the end member, the species is also known as C3AH6 (\"Tricalcium aluminate hydrate\") in hydrated cement.\r\nSee a...","Named in 1984 by E. Passaglia and R. Rinaldi in honor of Akira Kato (加藤 昭) (b. 19 June 1931, Tokyo prefecture, Japan), Department of Geology, National Science Museum, Ueno, Tokyo, Japan. Former president of the International Mineralogical Association. In addition to his academic positions, Dr Kato was the founder of one of the most active Tokyo clubs for mineral collectors and amateur mineralogists and he was always willing to help amateurs with their studies.","2026-02-07 20:22:45",[],[59,67,73,80,89,96,101],{"id":60,"name":61,"entrytype":9,"csystem":35,"ima_formula":62,"mindat_formula":62,"hmin":63,"hmax":63,"dmeas":64,"dcalc":65,"primary_image_id":66},1162,"Cryolithionite","Na\u003Csub>3\u003C\u002Fsub>Al\u003Csub>2\u003C\u002Fsub>(LiF\u003Csub>4\u003C\u002Fsub>)\u003Csub>3\u003C\u002Fsub>",4,"2.77","2.772",6505,{"id":68,"name":69,"entrytype":9,"csystem":35,"ima_formula":11,"mindat_formula":70,"hmin":71,"hmax":11,"dmeas":11,"dcalc":72,"primary_image_id":11},471055,"Midbarite","Ca\u003Csub>3\u003C\u002Fsub>Mg\u003Csub>2\u003C\u002Fsub>(V\u003Csup>5+\u003C\u002Fsup>\u003Csub>2\u003C\u002Fsub>Si)O\u003Csub>12\u003C\u002Fsub>",4.5,"3.595",{"id":74,"name":75,"entrytype":9,"csystem":35,"ima_formula":76,"mindat_formula":76,"hmin":77,"hmax":78,"dmeas":11,"dcalc":79,"primary_image_id":11},53165,"Monteneveite","Ca\u003Csub>3\u003C\u002Fsub>Sb\u003Csup>5+\u003C\u002Fsup>\u003Csub>2\u003C\u002Fsub>(Fe\u003Csup>3+\u003C\u002Fsup>\u003Csub>2\u003C\u002Fsub>Fe\u003Csup>2+\u003C\u002Fsup>)O\u003Csub>12\u003C\u002Fsub>",6.5,7,"4.72",{"id":81,"name":82,"entrytype":9,"csystem":83,"ima_formula":84,"mindat_formula":85,"hmin":86,"hmax":86,"dmeas":87,"dcalc":88,"primary_image_id":11},53354,"Nikmelnikovite","Trigonal","Ca\u003Csub>12\u003C\u002Fsub>Fe\u003Csup>2+\u003C\u002Fsup>Fe\u003Csup>3+\u003C\u002Fsup>\u003Csub>3\u003C\u002Fsub>Al\u003Csub>3\u003C\u002Fsub>(SiO\u003Csub>4\u003C\u002Fsub>)\u003Csub>6\u003C\u002Fsub>(OH)\u003Csub>20\u003C\u002Fsub>","Ca\u003Csub>12\u003C\u002Fsub>(Fe\u003Csup>2+\u003C\u002Fsup>Fe\u003Csup>3+\u003C\u002Fsup>\u003Csub>3\u003C\u002Fsub>Al\u003Csub>3\u003C\u002Fsub>&#9723;)[SiO\u003Csub>4\u003C\u002Fsub>]\u003Csub>6\u003C\u002Fsub>[&#9723;(OH)\u003Csub>4\u003C\u002Fsub>]\u003Csub>5\u003C\u002Fsub>&#9723;\u003Csub>4\u003C\u002Fsub>",5.5,"3.00","3.08",{"id":90,"name":91,"entrytype":9,"csystem":35,"ima_formula":92,"mindat_formula":93,"hmin":78,"hmax":94,"dmeas":11,"dcalc":95,"primary_image_id":11},54649,"Priscillagrewite-(Y)","YCa\u003Csub>2\u003C\u002Fsub>Zr\u003Csub>2\u003C\u002Fsub>Al\u003Csub>3\u003C\u002Fsub>O\u003Csub>12\u003C\u002Fsub>","(Ca\u003Csub>2\u003C\u002Fsub>Y)Zr\u003Csub>2\u003C\u002Fsub>(AlO\u003Csub>4\u003C\u002Fsub>)\u003Csub>3\u003C\u002Fsub>",7.5,"4.48",{"id":97,"name":98,"entrytype":9,"csystem":35,"ima_formula":99,"mindat_formula":100,"hmin":11,"hmax":11,"dmeas":11,"dcalc":11,"primary_image_id":11},55307,"Xuite","Ca\u003Csub>3\u003C\u002Fsub>Fe\u003Csub>2\u003C\u002Fsub>[AlO\u003Csub>3\u003C\u002Fsub>(OH)]\u003Csub>3\u003C\u002Fsub>","Ca\u003Csub>3\u003C\u002Fsub>Fe\u003Csup>3+\u003C\u002Fsup>\u003Csub>2\u003C\u002Fsub>[(AlO\u003Csub>3\u003C\u002Fsub>(OH)]\u003Csub>3\u003C\u002Fsub>",{"id":102,"name":103,"entrytype":9,"csystem":35,"ima_formula":104,"mindat_formula":104,"hmin":86,"hmax":44,"dmeas":105,"dcalc":106,"primary_image_id":11},4349,"Yafsoanite","Ca\u003Csub>3\u003C\u002Fsub>Te\u003Csup>6+\u003C\u002Fsup>\u003Csub>2\u003C\u002Fsub>(ZnO\u003Csub>4\u003C\u002Fsub>)\u003Csub>3\u003C\u002Fsub>","5.40","5.441",[],[],[110],{"id":111,"txt":112,"latitude":113,"longitude":114,"country":115},6924,"Campomorto Quarry, Pietra Massa Locality, Montalto di Castro, Viterbo Province, Lazio, Italy",42.379962,11.650963,"Italy",19,[118,123,128,133,138,141,145,149,153,157,161,166,171,175,180,185,189,194,199,204,209,213,218,222,227,231],{"id":119,"year":120,"html":121,"doi":122},625128,1967,"Cohen-Addad, C., Ducros, P., Bertaut, E. F. (1967) Étude de la substitution du groupement SiO\u003Csub>4\u003C\u002Fsub> par (OH)\u003Csub>4\u003C\u002Fsub> dans les composés Al\u003Csub>2\u003C\u002Fsub>Ca\u003Csub>3\u003C\u002Fsub>(OH)\u003Csub>12\u003C\u002Fsub> et Al\u003Csub>2\u003C\u002Fsub>Ca\u003Csub>3\u003C\u002Fsub>(SiO\u003Csub>4\u003C\u002Fsub>)\u003Csub>2,16\u003C\u002Fsub>(OH)\u003Csub>3,36\u003C\u002Fsub> de type grenat. \u003Ci>Acta Crystallographica\u003C\u002Fi>,  23 (2). 220-230 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.1107\u002Fs0365110x67002518'>doi:10.1107\u002Fs0365110x67002518\u003C\u002Fa>","10.1107\u002Fs0365110x67002518",{"id":124,"year":125,"html":126,"doi":127},2059594,1968,"Foreman, Dennis W. (1968) Neutron and X‐Ray Diffraction Study of Ca3Al2(O4D4)3, a Garnetoid. \u003Ci>The Journal of Chemical Physics\u003C\u002Fi>,  48 (7) 3037-3041 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.1063\u002F1.1669569'>doi:10.1063\u002F1.1669569\u003C\u002Fa>","10.1063\u002F1.1669569",{"id":129,"year":130,"html":131,"doi":132},403448,1984,"Passaglia, Elio, Rinaldi, Romano (1984) Katoite, a new member of the Ca3Al2(SiO4)3-Ca3Al2(OH)12 series and a new nomenclature for the hydrogrossular group of minerals. \u003Ci>Bulletin de Minéralogie\u003C\u002Fi>,  107 (5) 605-618 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.3406\u002Fbulmi.1984.7804'>doi:10.3406\u002Fbulmi.1984.7804\u003C\u002Fa>","10.3406\u002Fbulmi.1984.7804",{"id":134,"year":135,"html":136,"doi":137},403487,1985,"Sacerdoti, Michele, Passaglia, Elio (1985) The crystal structure of katoite and implications within the hydrogrossular group of minerals. \u003Ci>Bulletin de Minéralogie\u003C\u002Fi>,  108 (1) 1-8 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.3406\u002Fbulmi.1985.7852'>doi:10.3406\u002Fbulmi.1985.7852\u003C\u002Fa>","10.3406\u002Fbulmi.1985.7852",{"id":139,"year":135,"html":140,"doi":11},528143,"Dunn, Pete J., Fleischer, Michael, Langley, Richard H., Shigley, James E., Zilczer, Janet A. (1985) New mineral names. \u003Ci>American Mineralogist\u003C\u002Fi>,  70 (7-8) 871-881 \u003Ca target='_blank' href='http:\u002F\u002Fwww.minsocam.org\u002Fammin\u002FAM70\u002FAM70_871.pdf' class='refpdflink'>\u003C\u002Fa>",{"id":142,"year":143,"html":144,"doi":11},528320,1987,"Lager, G. A., Armbruster, Th., Jr., John Faber (1987) Neutron and X-ray diffraction study of hydrogarnet Ca3Al2(O4H4)3. \u003Ci>American Mineralogist\u003C\u002Fi>,  72 (7-8) 756-765 \u003Ca target='_blank' href='http:\u002F\u002Fwww.minsocam.org\u002Fammin\u002FAM72\u002FAM72_756.pdf' class='refpdflink'>\u003C\u002Fa>",{"id":146,"year":147,"html":148,"doi":11},18630554,1990,"Weiji, Cheng; Greenwood, Hugh J.; Hongliang, Hu; Frost, David C. (1990) XRD and XPS analyses of the grossular-hydrogrossular series. \u003Ci>The Canadian Mineralogist\u003C\u002Fi>,  28 (1). 87-91",{"id":150,"year":151,"html":152,"doi":11},529114,1991,"Rossman, George R., Aines, Roger D. (1991) The hydrous components in garnets: Grossular-hydrogrossular. \u003Ci>American Mineralogist\u003C\u002Fi>,  76 (7-8) 1153-1164 \u003Ca target='_blank' href='http:\u002F\u002Fwww.minsocam.org\u002Fammin\u002FAM76\u002FAM76_1153.pdf' class='refpdflink'>\u003C\u002Fa>",{"id":154,"year":155,"html":156,"doi":11},16110652,2000,"Milman, V., Winkler, B., Nobes, R.H., Akhmatchaya, E.V., Pickard, C.J., White, J.A. (2000) Garnets: structure, compressibility, dynamics, and disorder. Journal of the Minerals, Metals and Materials Society: 52(7): 22-25.",{"id":158,"year":159,"html":160,"doi":11},16965236,2001,"(2001) Katoite. \u003Ci>Handbook of Mineralogy\u003C\u002Fi>. Mineralogical Society of America \u003Ca target='_blank' href='https:\u002F\u002Fwww.handbookofmineralogy.org\u002Fpdfs\u002Fkatoite.pdf' class='refpdflink'>\u003C\u002Fa>",{"id":162,"year":163,"html":164,"doi":165},394590,2002,"Lager, George A.; Downs, Robert T.; Origlieri, Marcus; Garoutte, Rebecca (2002) High-pressure single-crystal X-ray diffraction study of katoite hydrogarnet: Evidence for a phase transition from \u003Ci>Ia\u003C\u002Fi>3\u003Ci>d\u003C\u002Fi>→\u003Ci>I\u003C\u002Fi>4̅3\u003Ci>d\u003C\u002Fi> symmetry at 5 GPa. \u003Ci>American Mineralogist\u003C\u002Fi>,  87 (5-6). 642-647 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.2138\u002Fam-2002-5-606'>doi:10.2138\u002Fam-2002-5-606\u003C\u002Fa> \u003Ca target='_blank' href='https:\u002F\u002Frruff.info\u002Fdoclib\u002Fam\u002Fvol87\u002FAM87_642.pdf' class='refpdflink'>\u003C\u002Fa>","10.2138\u002Fam-2002-5-606",{"id":167,"year":168,"html":169,"doi":170},128232,2003,"Ferro, Orazio, Galli, Ermanno, Papp, Gábor, Quartieri, Simona, Szakáll, Sándor, Vezzalini, Giovanna (2003) A new occurrence of katoite and re-examination of the hydrogrossular group. \u003Ci>European Journal of Mineralogy\u003C\u002Fi>,  15 (2) 419-426 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.1127\u002F0935-1221\u002F2003\u002F0015-0419'>doi:10.1127\u002F0935-1221\u002F2003\u002F0015-0419\u003C\u002Fa>","10.1127\u002F0935-1221\u002F2003\u002F0015-0419",{"id":172,"year":173,"html":174,"doi":11},18124306,2004,"Blaß, Günter; Graf, Hans-Werner; Sebold, Doris (2004) Über \"Hydrogrossulare\" sowie einen Neufund des seltenen Hydrogranats Katoit vom Bellerberg, Eifel [About \"Hydrogrossulare\" and a new discovery of the rare hydrogarnet Katoite from Bellerberg, Eifel]. \u003Ci>Mineralien-Welt\u003C\u002Fi>,  15 (6). 16-20",{"id":176,"year":177,"html":178,"doi":179},395343,2005,"Kolesov, B. A. (2005) The vibrational spectrum of synthetic hydrogrossular (katoite) Ca3Al2(O4H4)3: A low-temperature IR and Raman spectroscopic study. \u003Ci>American Mineralogist\u003C\u002Fi>,  90 (8) 1335-1341 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.2138\u002Fam.2005.1622'>doi:10.2138\u002Fam.2005.1622\u003C\u002Fa> \u003Ca target='_blank' href='https:\u002F\u002Frruff.info\u002Fdoclib\u002Fam\u002Fvol90\u002FAM90_1335.pdf' class='refpdflink'>\u003C\u002Fa>","10.2138\u002Fam.2005.1622",{"id":181,"year":182,"html":183,"doi":184},3866293,2006,"Orlando, R., Torres, F. J., Pascale, F., Ugliengo, P., Zicovich-Wilson, C., Dovesi, R. (2006) Vibrational Spectrum of Katoite Ca3Al2[(OH)4]3:  A Periodic ab Initio Study. \u003Ci>The Journal of Physical Chemistry B\u003C\u002Fi>, 110 (2). 692-701 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.1021\u002Fjp053602j'>doi:10.1021\u002Fjp053602j\u003C\u002Fa>","10.1021\u002Fjp053602j",{"id":186,"year":182,"html":187,"doi":188},64258,"Teertstra, D. K. (2006) Index-of-refraction and unit-cell constraints on cation valence and pattern of order in garnet-group minerals. \u003Ci>The Canadian Mineralogist\u003C\u002Fi>,  44 (2). 341-346 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.2113\u002Fgscanmin.44.2.341'>doi:10.2113\u002Fgscanmin.44.2.341\u003C\u002Fa>","10.2113\u002Fgscanmin.44.2.341",{"id":190,"year":191,"html":192,"doi":193},397203,2013,"Grew, E. S., Locock, A. J., Mills, S. J., Galuskina, I. O., Galuskin, E. V., Hålenius, U. (2013) Nomenclature of the garnet supergroup. \u003Ci>American Mineralogist\u003C\u002Fi>,  98 (4) 785-811 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.2138\u002Fam.2013.4201'>doi:10.2138\u002Fam.2013.4201\u003C\u002Fa> \u003Ca target='_blank' href='https:\u002F\u002Frruff.info\u002Frruff_1.0\u002Fuploads\u002FAM98_785.pdf' class='refpdflink'>\u003C\u002Fa>","10.2138\u002Fam.2013.4201",{"id":195,"year":196,"html":197,"doi":198},397723,2015,"Lacivita, Valentina, Mahmoud, Agnes, Erba, Alessandro, D’Arco, Philippe, Mustapha, Sami (2015) Hydrogrossular, Ca3Al2(SiO4)3–x(H4O4)x: An ab initio investigation of its structural and energetic properties. \u003Ci>American Mineralogist\u003C\u002Fi>,  100 (11) 2637-2649 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.2138\u002Fam-2015-5334'>doi:10.2138\u002Fam-2015-5334\u003C\u002Fa>","10.2138\u002Fam-2015-5334",{"id":200,"year":201,"html":202,"doi":203},398346,2017,"Geng, Guoqing, Myers, Rupert J., Kilcoyne, Arthur L.D., Ha, Juyoung, Monteiro, Paulo J.M. (2017) CaL2,3-edge near edge X-ray absorption fine structure of tricalcium aluminate, gypsum, and calcium (sulfo)aluminate hydrates. \u003Ci>American Mineralogist\u003C\u002Fi>,  102 (4) 900-908 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.2138\u002Fam-2017-5670'>doi:10.2138\u002Fam-2017-5670\u003C\u002Fa>","10.2138\u002Fam-2017-5670",{"id":205,"year":206,"html":207,"doi":208},398547,2018,"Geiger, Charles A., Rossman, George R. (2018) IR spectroscopy and OH– in silicate garnet: The long quest to document the hydrogarnet substitution. \u003Ci>American Mineralogist\u003C\u002Fi>,  103 (3) 384-393 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.2138\u002Fam-2018-6160ccby'>doi:10.2138\u002Fam-2018-6160ccby\u003C\u002Fa>","10.2138\u002Fam-2018-6160ccby",{"id":210,"year":206,"html":211,"doi":212},154236,"Keen, David A., Keeble, Dean S., Bennett, Thomas D. (2018) Neutron and X-ray total scattering study of hydrogen disorder in fully hydrated hydrogrossular, Ca3Al2(O4H4)3. \u003Ci>Physics and Chemistry of Minerals\u003C\u002Fi>,  45 (4) 333-342 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.1007\u002Fs00269-017-0923-0'>doi:10.1007\u002Fs00269-017-0923-0\u003C\u002Fa>","10.1007\u002Fs00269-017-0923-0",{"id":214,"year":215,"html":216,"doi":217},90783,2019,"KATO, Masato, KYONO, Atsushi (2019) An in situ Raman study on katoite Ca\u003Csub>3\u003C\u002Fsub>Al\u003Csub>2\u003C\u002Fsub>(O\u003Csub>4\u003C\u002Fsub>H\u003Csub>4\u003C\u002Fsub>)\u003Csub>3\u003C\u002Fsub> at high pressure. \u003Ci>Journal of Mineralogical and Petrological Sciences\u003C\u002Fi>,  114 (1) 18-25 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.2465\u002Fjmps.180530'>doi:10.2465\u002Fjmps.180530\u003C\u002Fa> \u003Ca target='_blank' href='https:\u002F\u002Fwww.jstage.jst.go.jp\u002Farticle\u002Fjmps\u002F114\u002F1\u002F114_180530\u002F_pdf' class='refpdflink'>\u003C\u002Fa>","10.2465\u002Fjmps.180530",{"id":219,"year":215,"html":220,"doi":221},90807,"KYONO, Atsushi, ARORA, Shubhi (2019) Crystal structure change in grossular–Si–free katoite solid solution: Oxygen position splitting in katoite. \u003Ci>Journal of Mineralogical and Petrological Sciences\u003C\u002Fi>,  114 (4) 189-200 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.2465\u002Fjmps.190424'>doi:10.2465\u002Fjmps.190424\u003C\u002Fa> \u003Ca target='_blank' href='https:\u002F\u002Fwww.jstage.jst.go.jp\u002Farticle\u002Fjmps\u002F114\u002F4\u002F114_190424\u002F_pdf' class='refpdflink'>\u003C\u002Fa>","10.2465\u002Fjmps.190424",{"id":223,"year":224,"html":225,"doi":226},15350364,2022,"Jiménez, Alejandro, Rives, Vicente, Vicente, Miguel A. (2022) Thermal study of the hydrocalumite–katoite–calcite system. \u003Ci>Thermochimica Acta\u003C\u002Fi>, 713. 179242 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.1016\u002Fj.tca.2022.179242'>doi:10.1016\u002Fj.tca.2022.179242\u003C\u002Fa>","10.1016\u002Fj.tca.2022.179242",{"id":228,"year":229,"html":230,"doi":11},16645394,2023,"Banno, Yasuyuki, Momma, Koichi, Miyawaki, Ritsuro, Bunno, Michiaki (2023) New data on S-bearing katoite from Tadano, Fukushima Prefecture, Japan: an implication of the presence of both (SO\u003Csub>3\u003C\u002Fsub>)\u003Csup>2-\u003C\u002Fsup> and (SO\u003Csub>4\u003C\u002Fsub>)\u003Csup>2-\u003C\u002Fsup> in the garnet structure. \u003Ci>Journal of Mineralogical and Petrological Sciences\u003C\u002Fi>,  118 (1) 220724 \u003Ca target='_blank' href='https:\u002F\u002Fwww.jstage.jst.go.jp\u002Farticle\u002Fjmps\u002F118\u002F1\u002F118_220724\u002F_pdf\u002F-char\u002Fen' class='refpdflink'>\u003C\u002Fa>",{"id":232,"year":229,"html":233,"doi":234},16656487,"Abd-El-Raoof, F., Youssef, H.F., El-Sokkary, T.M., Abd El-Shakour, Z.A., Tawfik, A. (2023) Fabrication and characterization of calcium aluminates cement via microwave-hydrothermal route: Mayenite, katoite, and hydrocalumite. \u003Ci>Construction and Building Materials\u003C\u002Fi>,  401. 132988 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.1016\u002Fj.conbuildmat.2023.132988'>doi:10.1016\u002Fj.conbuildmat.2023.132988\u003C\u002Fa>","10.1016\u002Fj.conbuildmat.2023.132988",[236],{"id":237,"source_url":238,"license_code":239,"credit_html":240,"title":241,"description":242,"author":243,"original_width":244,"original_height":245},13042,"https:\u002F\u002Fcommons.wikimedia.org\u002F?curid=60403574","CC BY-SA 3.0","Leon Hupperichs, via \u003Ca href=\"https:\u002F\u002Fcommons.wikimedia.org\u002F?curid=60403574\" rel=\"noopener\">Wikimedia Commons\u003C\u002Fa>","Katoite-432741.jpg","\u003Ca href=\"https:\u002F\u002Fen.wikipedia.org\u002Fwiki\u002FKatoite\" class=\"extiw\" title=\"en:Katoite\">Katoite\u003C\u002Fa>\n\u003Cdl>\u003Cdd>\u003Cdl>\u003Cdd>Locality: Caspar quarry, Bellerberg volcano, Ettringen, Mayen, Eifel, Rhineland-Palatinate, Germany\u003C\u002Fdd>\n\u003Cdd>Clear globular katoite on magnetite. Field of view 3 mm. Specimen and photo Leon Hupperichs.\u003C\u002Fdd>\u003C\u002Fdl>\u003C\u002Fdd>\u003C\u002Fdl>","Leon Hupperichs",839,744,[247,253,259,264,269],{"id":248,"url":249,"label":250,"formula":251,"spacegroup":252,"year":177},7044,"\u002Fcif\u002F7044.cif","Lager 2005","Ca3 Al2 O12 D12","I a 3 d",{"id":254,"url":255,"label":256,"formula":257,"spacegroup":258,"year":168},7054,"\u002Fcif\u002F7054.cif","Ferro 2003 · Ca2.916 Al2 Si1.092 O12 H7.632","Ca2.916 Al2 Si1.092 O12 H7.632","I a -3 d",{"id":260,"url":261,"label":262,"formula":263,"spacegroup":258,"year":168},7055,"\u002Fcif\u002F7055.cif","Ferro 2003 · Ca2.916 Al2 Si1.104 O12 H7.56","Ca2.916 Al2 Si1.104 O12 H7.56",{"id":265,"url":266,"label":267,"formula":268,"spacegroup":258,"year":163},7056,"\u002Fcif\u002F7056.cif","Lager 2002 · Ca3 Al2 Si3 (O12 H12) (1)","Ca3 Al2 Si3 (O12 H12)",{"id":270,"url":271,"label":272,"formula":268,"spacegroup":273,"year":163},7061,"\u002Fcif\u002F7061.cif","Lager 2002 · Ca3 Al2 Si3 (O12 H12) (2)","I -4 3 d",[275,276,277,278],"C3AH6","IMA1982-080a","Katoiet","Tricalcium Aluminate Hydrate",[280,284,289,294,298,301],{"lang":281,"names":282},"ca",[283],"katoïta",{"lang":285,"names":286},"cs",[287,288],"IMA1982-080","katoit",{"lang":290,"names":291},"de",[292,293],"IMA 1982-080","Katoit",{"lang":295,"names":296},"eu",[297],"Katoita",{"lang":299,"names":300},"it",[7],{"lang":302,"names":303},"ja",[304],"加藤柘榴石","Q3813978",{"history":11,"applications":11}]