[{"data":1,"prerenderedAt":-1},["ShallowReactive",2],{"minerals:one:7187":3},{"id":4,"longid":5,"guid":6,"name":7,"shortcode_ima":8,"entrytype":9,"entrytype_text":10,"varietyof":11,"synid":11,"polytypeof":11,"groupid":11,"weighting":12,"nolocadd":13,"blacklisted":13,"mindat_formula":14,"mindat_formula_note":11,"ima_formula":14,"elements":15,"sigelements":19,"key_elements":11,"impurities":11,"cim":11,"ima_status":20,"ima_notes":11,"ima_history":11,"approval_year":11,"publication_year":22,"discovery_year":11,"strunz10ed1":23,"strunz10ed2":24,"strunz10ed3":25,"strunz10ed4":26,"dana8ed1":27,"dana8ed2":27,"dana8ed3":27,"dana8ed4":27,"csystem":28,"cclass":29,"spacegroup":30,"spacegroupset":31,"a":32,"b":33,"c":34,"alpha":27,"beta":35,"gamma":27,"aerror":36,"berror":29,"cerror":37,"alphaerror":11,"betaerror":38,"gammaerror":11,"va3":11,"z":39,"csmetamict":13,"commentcrystal":11,"twinning":40,"tranglide":11,"parting":11,"epitaxidescription":11,"morphology":41,"tlform":42,"hmin":37,"hmax":37,"hardtype":11,"vhnmin":27,"vhnmax":27,"vhnerror":11,"vhng":11,"vhns":11,"commenthard":11,"dmeas":43,"dmeas2":43,"dcalc":44,"dmeaserror":37,"dcalcerror":11,"commentdense":11,"lustre":45,"lustretype":45,"commentluster":11,"diapheny":46,"streak":11,"colour":47,"commentcolor":11,"colors":48,"streak_colors":11,"luminescence":11,"uv":11,"cleavage":52,"cleavagetype":53,"fracturetype":54,"tenacity":55,"commentbreak":11,"opticaltype":56,"opticalsign":57,"opticalalpha":58,"opticalalpha2":27,"opticalalphaerror":39,"opticalbeta":59,"opticalbeta2":27,"opticalbetaerror":39,"opticalgamma":60,"opticalgamma2":27,"opticalgammaerror":39,"opticalomega":27,"opticalomega2":27,"opticalomegaerror":11,"opticalepsilon":27,"opticalepsilon2":27,"opticalepsilonerror":11,"opticaln":27,"opticaln2":27,"opticalnerror":11,"optical2vcalc":61,"optical2vcalc2":27,"optical2vcalcerror":11,"optical2vmeasured":61,"optical2vmeasured2":27,"optical2vmeasurederror":62,"rimin":63,"rimax":64,"opticaldispersion":65,"opticalpleochroism":11,"opticalpleochorismdesc":11,"opticalbirefringence":11,"opticalcomments":66,"opticalcolour":11,"opticalinternal":11,"opticaltropic":11,"opticalanisotropism":11,"opticalbireflectance":11,"opticalextinction":11,"opticalr":11,"specdispm":11,"ir":67,"electrical":11,"magnetism":11,"thermalbehaviour":68,"other":69,"industrial":11,"occurrence":70,"otheroccurrence":11,"type_specimen_store":71,"description_short":11,"aboutname":72,"rock_parent":11,"rock_parent2":11,"rock_root":9,"rock_bgs_code":11,"meteoritical_code":11,"updttime":73,"reviewed_at":11,"variety_of":11,"varieties":74,"group_members":75,"associates":76,"confused_with":77,"type_localities":78,"occurrence_total":85,"citations":86,"images":130,"structures":141,"synonyms":148,"language_names":151,"wikidata_qid":168,"texts":169},7187,"1:1:7187:7","e39f2638-46c5-4087-9fc6-876bd6856368","Natroxalate","Nx",0,"mineral",null,50,false,"Na\u003Csub>2\u003C\u002Fsub>(C\u003Csub>2\u003C\u002Fsub>O\u003Csub>4\u003C\u002Fsub>)",[16,17,18],"Na","O","C",[16,17,18],[21],"APPROVED",1996,"10","A","B","60","0","Monoclinic",5,14,"P21\u002Fa","10.426","5.255","3.479","92.14",9,3,8,2,"Some crystals are twinned on (110).","Prismatic, elongate [001], showing {110}, {001}, {010}, {100}, and {221}","Granular nodules to 1–2 cm, as veinlet-like segregations, as columnar crystals 3–5 mm long and up to 1 mm thick, and as radiating aggregates of the crystals.","2.32","2.338","Vitreous","Transparent","Light yellow color with a pink or greenish tint, creamy in fine-grained aggregates",[49,50,51],"yellow","pink","green","perfect {100} and distinct {001} and {221} cleavages","Perfect","Step-Like","brittle","Biaxial","-","1.415","1.524","1.592","72",1,1.415,1.592,"relatively strong, r > v","b = Z, c ∧ X = 20deg in obtuse angle b, optic axial plane normal to (010).","Strong absorption bands at 520, 775, 1320, 1340, and 1640 cm-1, characteristic of oxalates.","Exothermic effect at 550 degC (24.1 wt% loss versus 20.1 wt% calculated) corresponding to oxidation to form sodium carbonate\r\nand CO2; an endothermic peak at 880 degC represents melting\r\nand partial vaporization of the sodium carbonate.","Readily soluble in weak acids and in water.","Hydrothermal phase in ultra-agpaitic pegmatites and hydrothermalites.","Fersman Mineralogical Museum, Moscow, Russia.","Named in 1996 by Alexander Petrovich Khomyakov after its chemical composition of sodium (latin, natrium) and oxalate","2025-08-11 12:14:28",[],[],[],[],[79],{"id":80,"txt":81,"latitude":82,"longitude":83,"country":84},2692,"Alluaiv Mountain, Lovozersky District, Murmansk Oblast, Russia",67.8645481,34.5124316,"Russia",4,[87,92,95,99,102,107,112,116,121,126],{"id":88,"year":89,"html":90,"doi":91},200341,1981,"Reed, D. A., Olmstead, M. M. (1981) Sodium oxalate structure refinement. \u003Ci>Acta Crystallographica Section B Structural Crystallography and Crystal Chemistry\u003C\u002Fi>,  37 (4) 938-939 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.1107\u002Fs0567740881004676'>doi:10.1107\u002Fs0567740881004676\u003C\u002Fa>","10.1107\u002Fs0567740881004676",{"id":93,"year":22,"html":94,"doi":11},16897989,"Khomyakov, A. P. (1996) Natroxalate Na\u003Csub>2\u003C\u002Fsub>C\u003Csub>2\u003C\u002Fsub>O\u003Csub>4\u003C\u002Fsub> – a new mineral. \u003Ci>Zapiski Vserossijskogo Mineralogicheskogo Obshchestva\u003C\u002Fi>,  125 (1) 126-132 \u003Ca target='_blank' href='https:\u002F\u002Frruff.info\u002Frruff_1.0\u002Fuploads\u002FZVMO125N1_126.pdf' class='refpdflink'>\u003C\u002Fa>",{"id":96,"year":97,"html":98,"doi":11},12908993,1997,"Mandarino, Joseph A. (1997) Abstracts of New Mineral Descriptions. \u003Ci>The Mineralogical Record\u003C\u002Fi>, 28 (3) 219-224",{"id":100,"year":97,"html":101,"doi":11},18635501,"Jambor, John L.; Pertsev, Nikolai N.; Roberts, Andrew C. (1997) New Mineral Names. \u003Ci>American Mineralogist\u003C\u002Fi>,  82 (3-4). 430-433 \u003Ca target='_blank' href='http:\u002F\u002Fwww.minsocam.org\u002FMSA\u002FAmMin\u002FTOC\u002Fabstracts\u002F1997_Abstracts\u002FMA97_Abstracts\u002FJambor_p430_97.pdf' class='refpdflink'>\u003C\u002Fa>",{"id":103,"year":104,"html":105,"doi":106},2422428,2003,"Frost, Ray L., Weier, Matt L. (2003) Raman spectroscopy of natural oxalates at 298 and 77 K. \u003Ci>Journal of Raman Spectroscopy\u003C\u002Fi>, 34 (10). 776-785 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.1002\u002Fjrs.1052'>doi:10.1002\u002Fjrs.1052\u003C\u002Fa>","10.1002\u002Fjrs.1052",{"id":108,"year":109,"html":110,"doi":111},3244980,2004,"Frost, R.L (2004) Raman spectroscopy of natural oxalates. \u003Ci>Analytica Chimica Acta\u003C\u002Fi>, 517 (1). 207-214 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.1016\u002Fj.aca.2004.04.036'>doi:10.1016\u002Fj.aca.2004.04.036\u003C\u002Fa>","10.1016\u002Fj.aca.2004.04.036",{"id":113,"year":114,"html":115,"doi":11},16966240,2005,"(2005) Natroxalate. \u003Ci>Handbook of Mineralogy\u003C\u002Fi>. Mineralogical Society of America \u003Ca target='_blank' href='https:\u002F\u002Fwww.handbookofmineralogy.org\u002Fpdfs\u002Fnatroxalate.pdf' class='refpdflink'>\u003C\u002Fa>",{"id":117,"year":118,"html":119,"doi":120},64823,2010,"Echigo, T., Kimata, M. (2010) Crystal Chemistry and Genesis of Organic Minerals: a Review of Oxalate and Polycyclic Aromatic Hydrocarbon Minerals. \u003Ci>The Canadian Mineralogist\u003C\u002Fi>,  48 (6) 1329-1357 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.3749\u002Fcanmin.48.5.1329'>doi:10.3749\u002Fcanmin.48.5.1329\u003C\u002Fa>","10.3749\u002Fcanmin.48.5.1329",{"id":122,"year":123,"html":124,"doi":125},594036,2018,"Colmenero, Francisco, Timón, Vicente (2018) Study of the structural, vibrational and thermodynamic properties of natroxalate mineral using density functional theory. \u003Ci>Journal of Solid State Chemistry\u003C\u002Fi>,  263. 131-140 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.1016\u002Fj.jssc.2018.04.022'>doi:10.1016\u002Fj.jssc.2018.04.022\u003C\u002Fa>","10.1016\u002Fj.jssc.2018.04.022",{"id":127,"year":123,"html":128,"doi":129},631185,"Piro, Oscar Enrique, Baran, Enrique José (2018) Crystal chemistry of organic minerals – salts of organic acids: the synthetic approach. \u003Ci>Crystallography Reviews\u003C\u002Fi>,  24 (3) 149-175 \u003Ca target='_blank' href='https:\u002F\u002Fdoi.org\u002F10.1080\u002F0889311x.2018.1445239'>doi:10.1080\u002F0889311x.2018.1445239\u003C\u002Fa>","10.1080\u002F0889311x.2018.1445239",[131],{"id":132,"source_url":133,"license_code":134,"credit_html":135,"title":136,"description":137,"author":138,"original_width":139,"original_height":140},17482,"https:\u002F\u002Fcommons.wikimedia.org\u002F?curid=170451505","CC BY 4.0","David Hospital, via \u003Ca href=\"https:\u002F\u002Fcommons.wikimedia.org\u002F?curid=170451505\" rel=\"noopener\">Wikimedia Commons\u003C\u002Fa>","Natroxalate.jpg","Brown aggregates of the very rare organic mineral natroxalate from Chile (Pabellon de Pica, Chanabaya, Iquique Province, Tarapacá Region, Chile). Deliquescent. Ex. Erich Laskowski collection (USA).","David Hospital",690,565,[142],{"id":143,"url":144,"label":145,"formula":146,"spacegroup":147,"year":89},9808,"\u002Fcif\u002F9808.cif","Reed 1981","Na C O2","P 1 21\u002Fc 1",[149,150],"IMA1994-053","Natro-Oxalat",[152,156,161,164],{"lang":153,"names":154},"ca",[155],"natroxalat",{"lang":157,"names":158},"de",[159,160],"IMA 1994-053","Natroxalat",{"lang":162,"names":163},"eu",[7],{"lang":165,"names":166},"it",[7,167],"Natroxalato","Q3873306",{"history":11,"applications":11}]