LEADER 05008nam 2201357z- 450 001 9910557787903321 005 20231214133111.0 035 $a(CKB)5400000000045509 035 $a(oapen)https://directory.doabooks.org/handle/20.500.12854/69180 035 $a(EXLCZ)995400000000045509 100 $a20202105d2020 |y 0 101 0 $aeng 135 $aurmn|---annan 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 10$aMineralogical Crystallography 210 $aBasel, Switzerland$cMDPI - Multidisciplinary Digital Publishing Institute$d2020 215 $a1 electronic resource (190 p.) 311 $a3-03936-974-1 311 $a3-03936-975-X 330 $aCrystallography remains, for mineralogy, one of the main sources of information on natural crystalline substances. A description of mineral species shape is carried out according to the principles of geometric crystallography; the crystal structure of minerals is determined using X-ray crystallography techniques, and physical crystallography approaches allow one to evaluate various properties of minerals, etc. However, the reverse comparison should not be forgotten as well: the crystallography science, in its current form, was born in the course of mineralogical research, long before preparative chemistry received such extensive development. It is worth noting that, even today, investigations of crystallographic characteristics of minerals regularly open up new horizons in materials science, because the possibilities of nature (fascinating chemical diversity; great variation of thermodynamic parameters; and, of course, almost endless processing time) are still not available for reproduction in any of the world's laboratories. This Special Issue is devoted to mineralogical crystallography, the oldest branch of crystallographic science, and aims to combine important surveys covering topics indicated in the keywords below. 606 $aResearch & information: general$2bicssc 610 $agalenobismutite 610 $ahigh pressure 610 $asingle-crystal X-ray synchrotron diffraction 610 $aequation of state 610 $acalcium ferrite structure type 610 $alone electron pair 610 $avaterite 610 $acalcium carbonate 610 $apolymorph 610 $aprecipitation 610 $asynthesis 610 $acarbonation 610 $apathogen crystallization 610 $abiomimetic synthesis 610 $arenal stone 610 $acalcium oxalate 610 $aapatite 610 $abrushite 610 $astruvite 610 $aoctocalcium phosphate 610 $awhitlockite 610 $aEscherichia coli 610 $aKlebsiella pneumoniae 610 $aPseudomonas aeruginosa 610 $aStaphylococcus aureus 610 $auranyl 610 $aselenite 610 $aselenate 610 $acrystal structure 610 $atopology 610 $astructural complexity 610 $ademesmaekerite 610 $aguillemenite 610 $ahaynesite 610 $acoesite 610 $ahigh-temperature Raman 610 $aFTIR spectrum 610 $asingle crystal structure 610 $aisobaric Grüneisen parameters 610 $aOH-stretching modes 610 $astrontium oxalate 610 $asolid solutions 610 $aionic substitutions 610 $aweddellite 610 $awhewellite 610 $aX-ray powder diffraction 610 $ascanning electron microscopy 610 $aEDX spectroscopy 610 $ahydroxy-hydrate 610 $asulfate 610 $acesium 610 $aschoepite 610 $akrasnoshteinite 610 $azeolite-like borate 610 $ahydrous aluminum chloroborate 610 $anew mineral 610 $amicroporous crystalline material 610 $aevaporitic salt rock 610 $aVerkhnekamskoe potassium salt deposit 610 $aPerm Krai 610 $aanatomy 610 $aCactaceae 610 $aoxalate 610 $asilica 610 $astem 610 $astanfieldite 610 $aphosphate 610 $amerrillite 610 $ameteorite 610 $apallasite 610 $amesosiderite 610 $aluminophore 610 $abioceramics 610 $apowder diffraction 610 $aRaman spectroscopy 610 $aKamchatka 610 $ahot springs 610 $apyrite 610 $acomplexity of crystal habits 610 $aMars 610 $amineral 610 $acrystallography 610 $acrystal chemistry 610 $aX-ray diffraction 610 $acrystal growth 610 $amineral evolution 615 7$aResearch & information: general 700 $aGurzhiy$b Vladislav V$4edt$01328328 702 $aGurzhiy$b Vladislav V$4oth 906 $aBOOK 912 $a9910557787903321 996 $aMineralogical Crystallography$93041190 997 $aUNINA