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Polymorphism (materials science)

April 28, 2023

In materials science, polymorphism describes the existence of a solid material in more than one form or crystal structure. Polymorphism is a form of isomerism. Any crystalline material can exhibit the phenomenon. Allotropy refers to polymorphism for chemical elements. Polymorphism is of practical relevance to pharmaceuticals, agrochemicals, pigments, dyestuffs, foods, and explosives. According to IUPAC, a polymorphic transition is "A reversible transition of a solid crystalline phase at a certain temperature and pressure (the inversion point) to another phase of the same chemical composition with a different crystal structure."[1] According to McCrone, polymorphs are "different in crystal structure but identical in the liquid or vapor states."[2][3] Materials with two polymorphs are called dimorphic, with three polymorphs, trimorphic, etc.[4]

Examples

Many compounds exhibit polymorphism. It has been claimed that "every compound has different polymorphic forms, and that, in general, the number of forms known for a given compound is proportional to the time and money spent in research on that compound."[5][2][6]

Organic compounds

 
 
Calcite (on left) and Aragonite (on right), two forms of calcium carbonate. Note: the colors are from impurities.

Benzamide

The phenomenon was discovered in 1832 by Friedrich Wöhler and Justus von Liebig. They observed that the silky needles of freshly crystallized benzamide slowly converted to rhombic crystals.[7] Present-day analysis[8] identifies three polymorphs for benzamide: the least stable one, formed by flash cooling is the orthorhombic form II. This type is followed by the monoclinic form III (observed by Wöhler/Liebig). The most stable form is monoclinic form I. The hydrogen bonding mechanisms are the same for all three phases; however, they differ strongly in their pi-pi interactions.

Maleic acid

In 2006 a new polymorph of maleic acid was discovered, fully 124 years after the first crystal form was studied.[9] Maleic acid is manufactured on an industrial scale in the chemical industry. It forms salt found in medicine. The new crystal type is produced when a co-crystal of caffeine and maleic acid (2:1) is dissolved in chloroform and when the solvent is allowed to evaporate slowly. Whereas form I has monoclinic space group P21/c, the new form has space group Pc. Both polymorphs consist of sheets of molecules connected through hydrogen bonding of the carboxylic acid groups; but, in form I, the sheets alternate with respect of the net dipole moment, whereas, in form II, the sheets are oriented in the same direction.

1,3,5-Trinitrobenzene

After 125 years of study, 1,3,5-trinitrobenzene yielded a second polymorph. The usual form has the space group Pbca, but in 2004, a second polymorph was obtained in the space group Pca21 when the compound was crystallised in the presence of an additive, trisindane. This experiment shows that additives can induce the appearance of polymorphic forms.[10]

Other organic compounds

Acridine has been obtained as eight polymorphs[11] and aripiprazole has nine.[12] The record for the largest number of well-characterised polymorphs is held by a compound known as ROY.[13][14] Glycine crystallizes as both monoclinic and hexagonal crystals. Polymorphism in organic compounds is often the result of conformational polymorphism.[15]

Inorganic compounds

Binary metal oxides

Polymorphism in binary metal oxides has attracted much attention because these materials are of significant economic value. One set of famous examples have the composition SiO2, which form many polymorphs. Important ones include: α-quartz, β-quartz, tridymite, cristobalite, moganite, coesite, and stishovite.[16][17]

Metal oxides Phase Conditions of P and T Structure/Space Group
CrO2 α phase Ambient conditionsCl2-type Orthorhombic
RT and 12±3 GPa
Cr2O3 Corundum phase Ambient conditions Corundum-type Rhombohedral (R3c)
High pressure phase RT and 35 GPa Rh2O3-II type
Fe2O3 α phase Ambient conditions Corundum-type Rhombohedral (R3c)
β phase Below 773 K Body-centered cubic (Ia3)
γ phase Up to 933 K Cubic spinel structure (Fd3m)
ε phase -- Rhombic (Pna21)
Bi2O3 α phase Ambient conditions Monoclinic (P21/c)
β phase 603-923 K and 1 atm Tetragonal
γ phase 773-912 K or RT and 1 atm Body-centered cubic
δ phase 912-1097 K and 1 atm FCC (Fm3m)
In2O3 Bixbyite-type phase Ambient conditions Cubic (Ia3)
Corundum-type 15-25 GPa at 1273 K Corundum-type Hexagonal (R3c)
Rh2O3(II)-type 100 GPa and 1000 K Orthorhombic
Al2O3 α phase Ambient conditions Corundum-type Trigonal (R3c)
γ phase 773 K and 1 atm Cubic (Fd3m)
SnO2 α phase Ambient conditions Rutile-type Tetragonal (P42/mnm)
CaCl2-type phase 15 KBar at 1073 K Orthorhombic, CaCl2-type (Pnnm)
α-PbO2-type Above 18 KBar α-PbO2-type (Pbcn)
TiO2 Rutile Equilibrium phase Rutile-type Tetragonal
Anatase Metastable phase (Not stable)[18] Tetragonal (I41/amd)
Brookite Metastable phase (Not stable)[18] Orthorhombic (Pcab)
ZrO2 Monoclinic phase Ambient conditions Monoclinic (P21/c)
Tetragonal phase Above 1443 K Tetragonal (P42/nmc)
Fluorite-type phase Above 2643 K Cubic (Fm3m)
MoO3 α phase 553-673 K & 1 atm Orthorhombic (Pbnm)
β phase 553-673 K & 1 atm Monoclinic
h phase High-pressure and high-temperature phase Hexagonal (P6a/m or P6a)
MoO3-II 60 kbar and 973 K Monoclinic
WO3 ε phase Up to 220 K Monoclinic (Pc)
δ phase 220-300 K Triclinic (P1)
γ phase 300-623 K Monoclinic (P21/n)
β phase 623-900 K Orthorhombic (Pnma)
α phase Above 900 K Tetragonal (P4/ncc)

Other inorganic materials

Classical examples of polymorphism are the pair of minerals calcite and aragonite, both forms of calcium carbonate. Perhaps the most famous example is that of the polymorphs of carbon: graphite and diamond.

β-HgS precipitates as a black solid when Hg(II) salts are treated with H2S. With gentle heating of the slurry, the black polymorph converts to the red form.[19]

Factors affecting polymorphism

According to Ostwald's rule, usually less stable polymorphs crystallize before the stable form. The concept hinges on the idea that unstable polymorphs more closely resemble the state in solution, and thus are kinetically advantaged. The founding case of fibrous vs rhombic benzamide illustrates the case. Another example is provided by two polymorphs of titanium dioxide.[18]

Polymorphs have disparate stabilities. Some convert rapidly at room (or any) temperature. Most polymorphs of organic molecules only differ by a few kJ/mol in lattice energy. Approximately 50% of known polymorph pairs differ by less than 2 kJ/mol and stability differences of more than 10 kJ/mol are rare.[20]

Polymorphism is affected by the details of crystallisation. The solvent in all respects affects the nature of the polymorph, including concentration, other components of the solvent, i.e., species that inhibiting or promote certain growth patterns. A decisive factor is often the temperature of the solvent from which crystallisation is carried out.

Metastable polymorphs are not always reproducibly obtained, leading to cases of "disappearing polymorphs".[5][21][22]

In pharmaceuticals

Drugs receive regulatory approval for only a single polymorph. In a classic patent dispute, the GlaxoSmithKline defended its patent for the polymorph type II of the active ingredient in Zantac against competitors while that of the polymorph type I had already expired.[23] Polymorphism in drugs can also have direct medical implications since dissolution rates depend on the polymorph. Polymorphic purity of drug samples can be checked using techniques such as powder X-ray diffraction, IR/Raman spectroscopy, and utilizing the differences in their optical properties in some cases.[24]

Case studies

Ritonavir

The antiviral drug ritonavir exists as two polymorphs, which differ greatly in efficacy. Such issues were solved by reformulating the medicine into gelcaps and tablets, rather than the original capsules.[25]

Acetylsalicylic acid

A second polymorph of acetylsalicylic acid was reported only in 2005.[26][27] A new crystal type was found after attempted co-crystallization of aspirin and levetiracetam from hot acetonitrile. In form I, pairs of aspirin molecules form centrosymmetric dimers through the acetyl groups with the (acidic) methyl proton to carbonyl hydrogen bonds. In form II, each aspirin molecule forms the same hydrogen bonds, but with two neighbouring molecules instead of one. With respect to the hydrogen bonds formed by the carboxylic acid groups, both polymorphs form identical dimer structures. The aspirin polymorphs contain identical 2-dimensional sections and are therefore more precisely described as polytypes.[28]

Paracetamol

Paracetamol powder has poor compression properties, which poses difficulty in making tablets. A second polymorph was found with more suitable compressive properties.[29]

Cortisone acetate

Cortisone acetate exists in at least five different polymorphs, four of which are unstable in water and change to a stable form.

Carbamazepine

Carbamazepine, estrogen, paroxetine,[30] and chloramphenicol also show polymorphism.

Polytypism

Polytypes are a special case of polymorphs, where multiple close-packed crystal structures differ in one dimension only. Polytypes have identical close-packed planes, but differ in the stacking sequence in the third dimension perpendicular to these planes. Silicon carbide (SiC) has more than 170 known polytypes, although most are rare. All the polytypes of SiC have virtually the same density and Gibbs free energy. The most common SiC polytypes are shown in Table 1.

Table 1: Some polytypes of SiC.[31]

Phase Structure Ramsdell notation Stacking sequence Comment
α-SiC hexagonal 2H AB wurtzite form
α-SiC hexagonal 4H ABCB
α-SiC hexagonal 6H ABCACB the most stable and common form
α-SiC rhombohedral 15R ABCACBCABACABCB
β-SiC face-centered cubic 3C ABC sphalerite or zinc blende form

A second group of materials with different polytypes are the transition metal dichalcogenides, layered materials such as molybdenum disulfide (MoS2). For these materials the polytypes have more distinct effects on material properties, e.g. for MoS2, the 1T polytype is metallic in character, while the 2H form is more semiconducting.[32] Another example is tantalum disulfide, where the common 1T as well as 2H polytypes occur, but also more complex 'mixed coordination' types such as 4Hb and 6R, where the trigonal prismatic and the octahedral geometry layers are mixed.[33] Here, the 1T polytype exhibits a charge density wave, with distinct influence on the conductivity as a function of temperature, while the 2H polytype exhibits superconductivity.

ZnS and CdI2 are also polytypical.[34] It has been suggested that this type of polymorphism is due to kinetics where screw dislocations rapidly reproduce partly disordered sequences in a periodic fashion.

Theory

In terms of thermodynamics, two types of polymorphic behaviour are recognized. For a monotropic system, plots of the free energies of the various polymorphs against temperature do not cross before all polymorphs melt. As a result any transition from one polymorph to another below the melting point will be irreversible. For an enantiotropic system, a plot of the free energy against temperature shows a crossing point before the various melting points.[35] It may also be possible to convert interchangeably between the two polymorphs by heating or cooling, or through physical contact with a lower energy polymorph.

 
Solid phase transitions which transform reversibly without passing through the liquid or gaseous phases are called enantiotropic. In contrast, if the modifications are not convertible under these conditions, the system is monotropic. Experimental data are used to differentiate between enantiotropic and monotropic transitions and energy/temperature semi-quantitative diagrams can be drawn by applying several rules, principally the heat-of-transition rule, the heat-of-fusion rule and the density rule. These rules enable the deduction of the relative positions of the H and Gisobars in the E/T diagram. [1]

See also

 
Wikimedia Commons has media related to Polymorphism.

References

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External links

April 28, 2023
polymorphism, materials, science, materials, science, polymorphism, describes, existence, solid, material, more, than, form, crystal, structure, polymorphism, form, isomerism, crystalline, material, exhibit, phenomenon, allotropy, refers, polymorphism, chemica. In materials science polymorphism describes the existence of a solid material in more than one form or crystal structure Polymorphism is a form of isomerism Any crystalline material can exhibit the phenomenon Allotropy refers to polymorphism for chemical elements Polymorphism is of practical relevance to pharmaceuticals agrochemicals pigments dyestuffs foods and explosives According to IUPAC a polymorphic transition is A reversible transition of a solid crystalline phase at a certain temperature and pressure the inversion point to another phase of the same chemical composition with a different crystal structure 1 According to McCrone polymorphs are different in crystal structure but identical in the liquid or vapor states 2 3 Materials with two polymorphs are called dimorphic with three polymorphs trimorphic etc 4 Contents 1 Examples 1 1 Organic compounds 1 1 1 Benzamide 1 1 2 Maleic acid 1 1 3 1 3 5 Trinitrobenzene 1 1 4 Other organic compounds 1 2 Inorganic compounds 1 2 1 Binary metal oxides 1 2 2 Other inorganic materials 2 Factors affecting polymorphism 3 In pharmaceuticals 3 1 Case studies 3 1 1 Ritonavir 3 1 2 Acetylsalicylic acid 3 1 3 Paracetamol 3 1 4 Cortisone acetate 3 1 5 Carbamazepine 4 Polytypism 5 Theory 6 See also 7 References 8 External linksExamples EditMany compounds exhibit polymorphism It has been claimed that every compound has different polymorphic forms and that in general the number of forms known for a given compound is proportional to the time and money spent in research on that compound 5 2 6 Organic compounds Edit Calcite on left and Aragonite on right two forms of calcium carbonate Note the colors are from impurities Benzamide Edit The phenomenon was discovered in 1832 by Friedrich Wohler and Justus von Liebig They observed that the silky needles of freshly crystallized benzamide slowly converted to rhombic crystals 7 Present day analysis 8 identifies three polymorphs for benzamide the least stable one formed by flash cooling is the orthorhombic form II This type is followed by the monoclinic form III observed by Wohler Liebig The most stable form is monoclinic form I The hydrogen bonding mechanisms are the same for all three phases however they differ strongly in their pi pi interactions Maleic acid Edit In 2006 a new polymorph of maleic acid was discovered fully 124 years after the first crystal form was studied 9 Maleic acid is manufactured on an industrial scale in the chemical industry It forms salt found in medicine The new crystal type is produced when a co crystal of caffeine and maleic acid 2 1 is dissolved in chloroform and when the solvent is allowed to evaporate slowly Whereas form I has monoclinic space group P21 c the new form has space group Pc Both polymorphs consist of sheets of molecules connected through hydrogen bonding of the carboxylic acid groups but in form I the sheets alternate with respect of the net dipole moment whereas in form II the sheets are oriented in the same direction 1 3 5 Trinitrobenzene Edit After 125 years of study 1 3 5 trinitrobenzene yielded a second polymorph The usual form has the space group Pbca but in 2004 a second polymorph was obtained in the space group Pca21 when the compound was crystallised in the presence of an additive trisindane This experiment shows that additives can induce the appearance of polymorphic forms 10 Other organic compounds Edit Acridine has been obtained as eight polymorphs 11 and aripiprazole has nine 12 The record for the largest number of well characterised polymorphs is held by a compound known as ROY 13 14 Glycine crystallizes as both monoclinic and hexagonal crystals Polymorphism in organic compounds is often the result of conformational polymorphism 15 Inorganic compounds Edit Binary metal oxides Edit Polymorphism in binary metal oxides has attracted much attention because these materials are of significant economic value One set of famous examples have the composition SiO2 which form many polymorphs Important ones include a quartz b quartz tridymite cristobalite moganite coesite and stishovite 16 17 Metal oxides Phase Conditions of P and T Structure Space GroupCrO2 a phase Ambient conditionsCl2 type OrthorhombicRT and 12 3 GPaCr2O3 Corundum phase Ambient conditions Corundum type Rhombohedral R3 c High pressure phase RT and 35 GPa Rh2O3 II typeFe2O3 a phase Ambient conditions Corundum type Rhombohedral R3 c b phase Below 773 K Body centered cubic Ia3 g phase Up to 933 K Cubic spinel structure Fd3 m e phase Rhombic Pna21 Bi2O3 a phase Ambient conditions Monoclinic P21 c b phase 603 923 K and 1 atm Tetragonalg phase 773 912 K or RT and 1 atm Body centered cubicd phase 912 1097 K and 1 atm FCC Fm3 m In2O3 Bixbyite type phase Ambient conditions Cubic Ia3 Corundum type 15 25 GPa at 1273 K Corundum type Hexagonal R3 c Rh2O3 II type 100 GPa and 1000 K OrthorhombicAl2O3 a phase Ambient conditions Corundum type Trigonal R3 c g phase 773 K and 1 atm Cubic Fd3 m SnO2 a phase Ambient conditions Rutile type Tetragonal P42 mnm CaCl2 type phase 15 KBar at 1073 K Orthorhombic CaCl2 type Pnnm a PbO2 type Above 18 KBar a PbO2 type Pbcn TiO2 Rutile Equilibrium phase Rutile type TetragonalAnatase Metastable phase Not stable 18 Tetragonal I41 amd Brookite Metastable phase Not stable 18 Orthorhombic Pcab ZrO2 Monoclinic phase Ambient conditions Monoclinic P21 c Tetragonal phase Above 1443 K Tetragonal P42 nmc Fluorite type phase Above 2643 K Cubic Fm3 m MoO3 a phase 553 673 K amp 1 atm Orthorhombic Pbnm b phase 553 673 K amp 1 atm Monoclinich phase High pressure and high temperature phase Hexagonal P6a m or P6a MoO3 II 60 kbar and 973 K MonoclinicWO3 e phase Up to 220 K Monoclinic Pc d phase 220 300 K Triclinic P1 g phase 300 623 K Monoclinic P21 n b phase 623 900 K Orthorhombic Pnma a phase Above 900 K Tetragonal P4 ncc Other inorganic materials Edit Classical examples of polymorphism are the pair of minerals calcite and aragonite both forms of calcium carbonate Perhaps the most famous example is that of the polymorphs of carbon graphite and diamond b HgS precipitates as a black solid when Hg II salts are treated with H2S With gentle heating of the slurry the black polymorph converts to the red form 19 Factors affecting polymorphism EditAccording to Ostwald s rule usually less stable polymorphs crystallize before the stable form The concept hinges on the idea that unstable polymorphs more closely resemble the state in solution and thus are kinetically advantaged The founding case of fibrous vs rhombic benzamide illustrates the case Another example is provided by two polymorphs of titanium dioxide 18 Polymorphs have disparate stabilities Some convert rapidly at room or any temperature Most polymorphs of organic molecules only differ by a few kJ mol in lattice energy Approximately 50 of known polymorph pairs differ by less than 2 kJ mol and stability differences of more than 10 kJ mol are rare 20 Polymorphism is affected by the details of crystallisation The solvent in all respects affects the nature of the polymorph including concentration other components of the solvent i e species that inhibiting or promote certain growth patterns A decisive factor is often the temperature of the solvent from which crystallisation is carried out Metastable polymorphs are not always reproducibly obtained leading to cases of disappearing polymorphs 5 21 22 In pharmaceuticals EditDrugs receive regulatory approval for only a single polymorph In a classic patent dispute the GlaxoSmithKline defended its patent for the polymorph type II of the active ingredient in Zantac against competitors while that of the polymorph type I had already expired 23 Polymorphism in drugs can also have direct medical implications since dissolution rates depend on the polymorph Polymorphic purity of drug samples can be checked using techniques such as powder X ray diffraction IR Raman spectroscopy and utilizing the differences in their optical properties in some cases 24 Case studies Edit Ritonavir Edit The antiviral drug ritonavir exists as two polymorphs which differ greatly in efficacy Such issues were solved by reformulating the medicine into gelcaps and tablets rather than the original capsules 25 Acetylsalicylic acid Edit A second polymorph of acetylsalicylic acid was reported only in 2005 26 27 A new crystal type was found after attempted co crystallization of aspirin and levetiracetam from hot acetonitrile In form I pairs of aspirin molecules form centrosymmetric dimers through the acetyl groups with the acidic methyl proton to carbonyl hydrogen bonds In form II each aspirin molecule forms the same hydrogen bonds but with two neighbouring molecules instead of one With respect to the hydrogen bonds formed by the carboxylic acid groups both polymorphs form identical dimer structures The aspirin polymorphs contain identical 2 dimensional sections and are therefore more precisely described as polytypes 28 Paracetamol Edit Paracetamol powder has poor compression properties which poses difficulty in making tablets A second polymorph was found with more suitable compressive properties 29 Cortisone acetate Edit Cortisone acetate exists in at least five different polymorphs four of which are unstable in water and change to a stable form Carbamazepine Edit Carbamazepine estrogen paroxetine 30 and chloramphenicol also show polymorphism Polytypism EditPolytypes are a special case of polymorphs where multiple close packed crystal structures differ in one dimension only Polytypes have identical close packed planes but differ in the stacking sequence in the third dimension perpendicular to these planes Silicon carbide SiC has more than 170 known polytypes although most are rare All the polytypes of SiC have virtually the same density and Gibbs free energy The most common SiC polytypes are shown in Table 1 Table 1 Some polytypes of SiC 31 Phase Structure Ramsdell notation Stacking sequence Commenta SiC hexagonal 2H AB wurtzite forma SiC hexagonal 4H ABCBa SiC hexagonal 6H ABCACB the most stable and common forma SiC rhombohedral 15R ABCACBCABACABCBb SiC face centered cubic 3C ABC sphalerite or zinc blende formA second group of materials with different polytypes are the transition metal dichalcogenides layered materials such as molybdenum disulfide MoS2 For these materials the polytypes have more distinct effects on material properties e g for MoS2 the 1T polytype is metallic in character while the 2H form is more semiconducting 32 Another example is tantalum disulfide where the common 1T as well as 2H polytypes occur but also more complex mixed coordination types such as 4Hb and 6R where the trigonal prismatic and the octahedral geometry layers are mixed 33 Here the 1T polytype exhibits a charge density wave with distinct influence on the conductivity as a function of temperature while the 2H polytype exhibits superconductivity ZnS and CdI2 are also polytypical 34 It has been suggested that this type of polymorphism is due to kinetics where screw dislocations rapidly reproduce partly disordered sequences in a periodic fashion Theory EditIn terms of thermodynamics two types of polymorphic behaviour are recognized For a monotropic system plots of the free energies of the various polymorphs against temperature do not cross before all polymorphs melt As a result any transition from one polymorph to another below the melting point will be irreversible For an enantiotropic system a plot of the free energy against temperature shows a crossing point before the various melting points 35 It may also be possible to convert interchangeably between the two polymorphs by heating or cooling or through physical contact with a lower energy polymorph Solid phase transitions which transform reversibly without passing through the liquid or gaseous phases are called enantiotropic In contrast if the modifications are not convertible under these conditions the system is monotropic Experimental data are used to differentiate between enantiotropic and monotropic transitions and energy temperature semi quantitative diagrams can be drawn by applying several rules principally the heat of transition rule the heat of fusion rule and the density rule These rules enable the deduction of the relative positions of the H and Gisobars in the E T diagram 1 See also Edit Wikimedia Commons has media related to Polymorphism Isomorphism crystallography Dimorphism Wiktionary PolyamorphismReferences Edit Polymorphic transition Polymorphicc transition IUPAC Goldbook 2009 doi 10 1351 goldbook P04748 ISBN 978 0 9678550 9 7 a b McCrone W C 1965 Polymorphism In Fox D Labes M Weissberger A eds Physics and Chemistry of the Organic Solid State Vol 2 Wiley Interscience pp 726 767 Dunitz Jack D Bernstein Joel 1995 04 01 Disappearing Polymorphs Accounts of Chemical Research 28 4 193 200 doi 10 1021 ar00052a005 ISSN 0001 4842 Definition of trimorphism mindat org glossary www mindat org Retrieved 2016 10 23 a b Crystal Engineering The Design and Application of Functional Solids Volume 539 Kenneth Richard Seddon Michael Zaworotk 1999 Pharmaceutical Stress Testing Predicting Drug Degradation Second Edition Steven W Baertschi Karen M Alsante Robert A Reed 2011 CRC Press Wohler F Liebig J Ann 1832 Untersuchungen uber das Radikal der Benzoesaure Annalen der Pharmacie in German Wiley 3 3 249 282 doi 10 1002 jlac 18320030302 hdl 2027 hvd hxdg3f ISSN 0365 5490 Thun Jurgen 2007 Polymorphism in Benzamide Solving a 175 Year Old Riddle Angewandte Chemie International Edition 46 35 6729 6731 doi 10 1002 anie 200701383 PMID 17665385 Graeme M Day Andrew V Trask W D Samuel Motherwell William Jones 2006 Investigating the Latent Polymorphism of Maleic Acid Chemical Communications 1 1 54 56 doi 10 1039 b513442k PMID 16353090 Thallapally PK Jetti RK Katz AK 2004 Polymorphism of 1 3 5 trinitrobenzene Induced by a Trisindane Additive Angewandte Chemie International Edition 43 9 1149 1155 doi 10 1002 anie 200352253 PMID 14983460 Schur Einat Bernstein Joel Price Louise S Guo Rui Price Sarah L Lapidus Saul H Stephens Peter W 2019 The Current Acridine Solid Form Landscape Eight Polymorphs and a Hydrate PDF Crystal Growth amp Design 19 8 4884 4893 doi 10 1021 acs cgd 9b00557 S2CID 198349955 Serezhkin Viktor N Savchenkov Anton V 2020 Application of the Method of Molecular Voronoi Dirichlet Polyhedra for Analysis of Noncovalent Interactions in Aripiprazole Polymorphs Crystal Growth amp Design 20 3 1997 2003 doi 10 1021 acs cgd 9b01645 S2CID 213824513 Kramer Katrina 2020 07 29 Red orange yellow reclaims polymorph record with help from molecular cousin chemistryworld com Retrieved 2021 05 07 Tyler Andrew R Ragbirsingh Ronnie McMonagle Charles J Waddell Paul G Heaps Sarah E Steed Jonathan W Thaw Paul Hall Michael J Probert Michael R 2020 Encapsulated Nanodroplet Crystallization of Organic Soluble Small Molecules Chem 6 7 1755 1765 doi 10 1016 j chempr 2020 04 009 PMC 7357602 PMID 32685768 Cruz Cabeza Aurora J Bernstein Joel 2014 Conformational Polymorphism Chemical Reviews 114 4 2170 2191 doi 10 1021 cr400249d PMID 24350653 Definition of polymorphism mindat org glossary www mindat org Retrieved 2016 10 23 Polymorphism in nanocrystalline binary metal oxides S Sood P Gouma Nanomaterials and Energy 2 NME2 1 15 2013 a b c Anatase to Rutile Transformation ART summarized in the Journal of Materials Science 2011 Newell Lyman C Maxson R N Filson M H 1939 Red Mercuric Sulfide Inorganic Syntheses Inorganic Syntheses Vol 1 pp 19 20 doi 10 1002 9780470132326 ch7 ISBN 9780470132326 Nyman Jonas Day Graeme M 2015 Static and lattice vibrational energy differences between polymorphs CrystEngComm 17 28 5154 5165 doi 10 1039 C5CE00045A Bucar D K Lancaster R W Bernstein J 2015 Disappearing Polymorphs Revisited Angewandte Chemie International Edition 54 24 6972 6993 doi 10 1002 anie 201410356 PMC 4479028 PMID 26031248 Surov Artem O Vasilev Nikita A Churakov Andrei V Stroh Julia Emmerling Franziska Perlovich German L 2019 Solid Forms of Ciprofloxacin Salicylate Polymorphism Formation Pathways and Thermodynamic Stability Crystal Growth amp Design 19 5 2979 2990 doi 10 1021 acs cgd 9b00185 S2CID 132854494 Accredited Degree Programmes PDF Thomas Sajesh P Nagarajan K Row T N Guru 2012 Polymorphism and tautomeric preference in fenobam and the utility of NLO response to detect polymorphic impurities Chemical Communications 48 85 10559 10561 doi 10 1039 C2CC34912D PMID 23000909 Bauer J et al 2004 Ritonavir An Extraordinary Example of Conformational Polymorphism Pharmaceutical Research 18 6 859 866 doi 10 1023 A 1011052932607 PMID 11474792 S2CID 20923508 Peddy Vishweshwar Jennifer A McMahon Mark Oliveira Matthew L Peterson amp Michael J Zaworotko 2005 The Predictably Elusive Form II of Aspirin J Am Chem Soc 127 48 16802 16803 doi 10 1021 ja056455b PMID 16316223 Andrew D Bond Roland Boese Gautam R Desiraju 2007 On the Polymorphism of Aspirin Crystalline Aspirin as Intergrowths of Two Polymorphic Domains Angewandte Chemie International Edition 46 4 618 622 doi 10 1002 anie 200603373 PMID 17139692 Polytypism Online Dictionary of Crystallography reference iucr org Wang In Chun Lee Min Jeong Seo Da Young Lee Hea Eun Choi Yongsun Kim Woo Sik Kim Chang Sam Jeong Myung Yung Choi Guang Jin 14 June 2011 Polymorph Transformation in Paracetamol Monitored by In line NIR Spectroscopy During a Cooling Crystallization Process AAPS PharmSciTech 12 2 764 770 doi 10 1208 s12249 011 9642 x PMC 3134639 PMID 21671200 Disappearing Polymorphs and Gastrointestinal Infringement blakes com 20 July 2012 Archived from the original on 20 July 2012 The basics of crystallography and diffraction Christopher Hammond Second edition Oxford science publishers IUCr page 28 ISBN 0 19 8505531 Li Xiao Zhu Hongwei 2015 03 01 Two dimensional MoS2 Properties preparation and applications Journal of Materiomics 1 1 33 44 doi 10 1016 j jmat 2015 03 003 Wilson J A Di Salvo F J Mahajan S October 1974 Charge density waves and superlattices in the metallic layered transition metal dichalcogenides Advances in Physics 50 8 1171 1248 doi 10 1080 00018730110102718 S2CID 218647397 C E Ryan R C Marshall J J Hawley I Berman amp D P Considine The Conversion of Cubic to Hexagonal Silicon Carbide as a Function of Temperature and Pressure U S Air Force Physical Sciences Research Papers 336 Aug 1967 p 1 26 Carletta Andrea 2015 Solid State Investigation of Polymorphism and Tautomerism of Phenylthiazole thione A Combined Crystallographic Calorimetric and Theoretical Survey Crystal Growth amp Design 15 5 2461 2473 doi 10 1021 acs cgd 5b00237 External links Edit Small Molecule Crystallization PDF at Illinois Institute of Technology website SiC and Polytpism Retrieved from https en wikipedia org w index php title Polymorphism materials science amp oldid 1143686969, wikipedia, wiki, book, books, library,

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