Crystallography Open Database
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Searching journal of publication like 'Powder Diffraction'
COD ID  |
Links | Formula  |
Space group |
Cell parameters | Cell volume |
Bibliography |
|---|---|---|---|---|---|---|
| 9017811 | CIF | Ca O4 S | A m m a | 7.00136; 6.99339; 6.24171 90; 90; 90 | 305.614 | Antao, S. Crystal-structure analysis of four mineral samples of anhydrite, Ca(SO4), using synchrotron high-resolution powder X-ray diffraction data Powder Diffraction, 2011, 26, 326-330 |
| 9017810 | CIF | Ca O4 S | A m m a | 7.00071; 6.99274; 6.24125 90; 90; 90 | 305.535 | Antao, S. Crystal-structure analysis of four mineral samples of anhydrite, Ca(SO4), using synchrotron high-resolution powder X-ray diffraction data Powder Diffraction, 2011, 26, 326-330 |
| 9017809 | CIF | Ca O4 S | A m m a | 7.00032; 6.99234; 6.24097 90; 90; 90 | 305.487 | Antao, S. Crystal-structure analysis of four mineral samples of anhydrite, Ca(SO4), using synchrotron high-resolution powder X-ray diffraction data Powder Diffraction, 2011, 26, 326-330 |
| 9017808 | CIF | Al7 Ca6 F0.87 O16 | I -4 3 d | 11.96269; 11.96269; 11.96269 90; 90; 90 | 1711.93 | Costa, U.; Ballirano, P. Improved powder X-ray data for the cement phase Ca12Al14O32F2 (C11A7f) Powder Diffraction, 2000, 15, 56-61 |
| 9016547 | CIF | C Ca O3 | P b n m | 4.1291; 7.1581; 8.4764 90; 90; 90 | 250.533 | Le Bail, A.; Ouhenia, S.; Chateigner, D. Microtwinning hypothesis for a more ordered vaterite model Note: Meyer (1959) model, not preferred Powder Diffraction, 2011, 26, 16-21 |
| 9016342 | CIF | Ni Ti | P 1 1 21/m | 2.8894; 4.1334; 4.6321 90; 90; 96.929 | 54.917 | Sitepu, H. Texture and structural refinement using neutron diffraction data from molybdite (MoO3) and calcite (CaCO3) powders and a Ni-rich Ni50.7Ti49.30 alloy Note: Aged Powder Diffraction, 2009, 24, 315-326 |
| 9016227 | CIF | Ni0.493 Ti0.507 | P m -3 m | 3.01302; 3.01302; 3.01302 90; 90; 90 | 27.353 | Sitepu, H. Texture and structural refinement using neutron diffraction data from molybdite (MoO3) and calcite (CaCO3) powders and a Ni-rich Ni50.7Ti49.30 alloy Note: Aged Powder Diffraction, 2009, 24, 315-326 |
| 9016022 | CIF | C Ca O3 | R -3 c :H | 4.99026; 4.99026; 17.0684 90; 90; 120 | 368.103 | Sitepu, H. Texture and structural refinement using neutron diffraction data from molybdite (MoO3) and calcite (CaCO3) powders and a Ni-rich Ni50.7Ti49.30 alloy Note: Generalized spherical-harmonic model Powder Diffraction, 2009, 24, 315-326 |
| 9015898 | CIF | C Ca O3 | P 63/m m c | 4.1304; 4.1304; 8.4749 90; 90; 120 | 125.213 | Le Bail, A.; Ouhenia, S.; Chateigner, D. Microtwinning hypothesis for a more ordered vaterite model Note: Kamhi (1963) model, not preferred Powder Diffraction, 2011, 26, 16-21 |
| 9015813 | CIF | Ni Ti | P 1 1 21/m | 2.8758; 4.12644; 4.6325 90; 90; 96.964 | 54.567 | Sitepu, H. Texture and structural refinement using neutron diffraction data from molybdite (MoO3) and calcite (CaCO3) powders and a Ni-rich Ni50.7Ti49.30 alloy Note: Annealed Powder Diffraction, 2009, 24, 315-326 |
| 9015733 | CIF | Ni Ti0.921 | P 1 1 21/m | 2.92617; 4.17272; 4.69631 90; 90; 97.4036 | 56.864 | Sitepu, H. Structural refinement of neutron powder diffraction data of two-stage martensitic phase transformations in Ti50.75Ni47.75Fe1.50 shape memory alloy Powder Diffraction, 2007, 22, 209-218 |
| 9015581 | CIF | Ni0.106 Ti0.942 | P m -3 m | 3.0191; 3.0191; 3.0191 90; 90; 90 | 27.519 | Sitepu, H. Structural refinement of neutron powder diffraction data of two-stage martensitic phase transformations in Ti50.75Ni47.75Fe1.50 shape memory alloy Powder Diffraction, 2007, 22, 209-218 |
| 9015401 | CIF | Mo O3 | P b n m | 3.9624; 13.86; 3.6971 90; 90; 90 | 203.041 | Sitepu, H. Texture and structural refinement using neutron diffraction data from molybdite (MoO3) and calcite (CaCO3) powders and a Ni-rich Ni50.7Ti49.30 alloy Note: Generalized spherical-harmonic model Powder Diffraction, 2009, 24, 315-326 |
| 9015390 | CIF | C Ca O3 | R -3 c :H | 4.99029; 4.99029; 17.0687 90; 90; 120 | 368.114 | Sitepu, H. Texture and structural refinement using neutron diffraction data from molybdite (MoO3) and calcite (CaCO3) powders and a Ni-rich Ni50.7Ti49.30 alloy Note: March model Powder Diffraction, 2009, 24, 315-326 |
| 9015346 | CIF | Ni Ti0.885 | P -3 | 7.3715; 7.3715; 5.302 90; 90; 120 | 249.507 | Sitepu, H. Structural refinement of neutron powder diffraction data of two-stage martensitic phase transformations in Ti50.75Ni47.75Fe1.50 shape memory alloy Powder Diffraction, 2007, 22, 209-218 |
| 9015084 | CIF | Al2 Ca6 H64 O50 S3 | P 3 1 c | 11.229; 11.229; 21.478 90; 90; 120 | 2345.34 | Goetz-Neunhoeffer F; Neubauer, J. Refined ettringite (Ca6Al2(SO4)3(OH)12*26H2O) structure for quantitative X-ray diffraction analysis Powder Diffraction, 2006, 21, 4-11 |
| 9014993 | CIF | C H5 Cl Mg2 O6 | R 3 c :H | 22.6791; 22.6791; 7.22336 90; 90; 120 | 3217.52 | Sugimoto, K.; Dinnebier, R. E.; Schlecht, T. Crystal structure of dehydrated chlorartinite by X-ray powder diffraction Note: this is a dehydrated chlorartinite Powder Diffraction, 2007, 22, 64-67 |
| 9014987 | CIF | Mo O3 | P b n m | 3.9624; 13.86; 3.6971 90; 90; 90 | 203.041 | Sitepu, H. Texture and structural refinement using neutron diffraction data from molybdite (MoO3) and calcite (CaCO3) powders and a Ni-rich Ni50.7Ti49.30 alloy Note: March model Powder Diffraction, 2009, 24, 315-326 |
| 9014557 | CIF | F2 Pb | F m -3 m | 5.9397; 5.9397; 5.9397 90; 90; 90 | 209.553 | Achary, S. N.; Tyagi, A. K. Synthesis and characterization of mixed fluorides with PbF2 and ScF3 Powder Diffraction, 2005, 20, 254-258 |
| 9014315 | CIF | Ni Ti | P -3 | 7.341; 7.341; 5.26996 90; 90; 120 | 245.951 | Sitepu, H. Texture and structural refinement using neutron diffraction data from molybdite (MoO3) and calcite (CaCO3) powders and a Ni-rich Ni50.7Ti49.30 alloy Note: Aged Powder Diffraction, 2009, 24, 315-326 |
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