All Stories

  1. Electron diffraction and the hydrogen atom
  2. Location of Organic Structure-Directing Agents in Zeolites Using Diffraction Techniques
  3. Synthesis and Characterization of CIT-13, a Germanosilicate Molecular Sieve with Extra-Large Pore Openings
  4. Locating Organic Guests in Inorganic Host Materials from X-ray Powder Diffraction Data
  5. Synthesis and structural characterization of Zn-containing DAF-1
  6. Highly selective uptake of carbon dioxide on the zeolite |Na10.2KCs0.8|-LTA – a possible sorbent for biogas upgrading
  7. Aluminum Redistribution during the Preparation of Hierarchical Zeolites by Desilication
  8. Serial snapshot crystallography for materials science with SwissFEL
  9. SSZ-87: A Borosilicate Zeolite with Unusually Flexible 10-Ring Pore Openings
  10. Structure analysis of a BEC-type germanosilicate zeolite including the location of the flexible organic cations in the channels
  11. On the relationship between unit cells and channel systems in high silica zeolites with the “butterfly” projection
  12. Crystal Structure of an Indigo@Silicalite Hybrid Related to the Ancient Maya Blue Pigment
  13. Zeolites with Continuously Tuneable Porosity
  14. Zeolites with Continuously Tuneable Porosity
  15. Solving the structures of light-atom compounds with powder charge flipping
  16. High-Silica Zeolite SSZ-61 with Dumbbell-Shaped Extra-Large-Pore Channels
  17. High-Silica Zeolite SSZ-61 with Dumbbell-Shaped Extra-Large-Pore Channels
  18. SSZ-45: A High-Silica Zeolite with Small Pore Openings, Large Cavities, and Unusual Adsorption Properties
  19. Solving the Structures of Polycrystalline Materials: from the Debye-Scherrer Camera to SwissFEL
  20. Synthesis, Structural Elucidation, and Catalytic Properties in Olefin Epoxidation of the Polymeric Hybrid Material [Mo3O9(2-[3(5)-Pyrazolyl]pyridine)]n
  21. Can Laue microdiffraction be used to solve and refine complex inorganic structures?
  22. Correction to Controlling the Aluminum Distribution in the Zeolite Ferrierite via the Organic Structure Directing Agent
  23. Controlling the Aluminum Distribution in the Zeolite Ferrierite via the Organic Structure Directing Agent
  24. SSZ-52, a Zeolite with an 18-Layer Aluminosilicate Framework Structure Related to That of the DeNOx Catalyst Cu-SSZ-13
  25. UsingFOCUSto solve zeolite structures from three-dimensional electron diffraction data
  26. Solving complex open-framework structures from X-ray powder diffraction by direct-space methods using composite building units
  27. Using a non-monochromatic microbeam for serial snapshot crystallography
  28. Electron crystallography as a complement to X-ray powder diffraction techniques
  29. Advances in exploiting preferred orientation in the structure analysis of polycrystalline materials
  30. Synthesis, structure and characterization of ZrPOF-DEA, a microporous zirconium phosphate framework material
  31. Optimizing the input parameters for powder charge flipping
  32. Electron crystallography as a complement to X-ray powder diffraction techniques
  33. Combination of X-ray Powder Diffraction, Electron Diffraction and HRTEM Data
  34. Structure Solution – An Overview
  35. Structure of the Borosilicate Zeolite Catalyst SSZ-82 Solved Using 2D-XPD Charge Flipping
  36. Using phases retrieved from two-dimensional projections to facilitate structure solution from X-ray powder diffraction data
  37. Ionothermal Synthesis and Structure Analysis of an Open-Framework Zirconium Phosphate with a High CO2/CH4 Adsorption Ratio
  38. Ionothermal Synthesis and Structure Analysis of an Open-Framework Zirconium Phosphate with a High CO2/CH4 Adsorption Ratio
  39. A re-examination of the structure of the germanosilicate zeolite SSZ-77
  40. Synthesis of Zn-containing microporous aluminophosphate with the STA-1 structure
  41. The Crystal Structure of D-Ribose-At Last!
  42. Die Kristallstruktur von D-Ribose - endlich!
  43. The Search for Tricyanomethane (Cyanoform)
  44. Stereochemical Models for Discussing Additions toα,β-Unsaturated Aldehydes Organocatalyzed by Diarylprolinol or Imidazolidinone Derivatives - Is There an‘(E)/(Z)-Dilemma’?
  45. Structure determination of the zeolite IM-5 using electron crystallography
  46. Exceptional Ion-Exchange Selectivity in a Flexible Open Framework Lanthanum(III)tetrakisphosphonate
  47. Synthesis, Structure, and Characterization of Two Photoluminescent Zirconium Phosphate−Quinoline Compounds
  48. ChemInform Abstract: Using Electron Microscopy to Complement X-Ray Powder Diffraction Data to Solve Complex Crystal Structures
  49. Synthesis and Structural Characterization of the Aluminosilicate LZ-135, a Zeolite Related to ZSM-10
  50. Optimized Synthesis and Structural Characterization of the Borosilicate MCM-70
  51. Structural Aspects of 1,3,5-Benzenetrisamides−A New Family of Nucleating Agents
  52. Using electron microscopy to complement X-ray powder diffraction data to solve complex crystal structures
  53. Combining precession electron diffraction data with X-ray powder diffraction data to facilitate structure solution
  54. Journal club
  55. Ordered silicon vacancies in the framework structure of the zeolite catalyst SSZ-74
  56. Combining Structure Modeling and Electron Microscopy to Determine Complex Zeolite Framework Structures
  57. Combining Structure Modeling and Electron Microscopy to Determine Complex Zeolite Framework Structures
  58. Metal−Peptide Frameworks (MPFs):  “Bioinspired” Metal Organic Frameworks
  59. Solving complex zeolite structures — how far can we go?
  60. Zeolite structure determination using electron crystallography
  61. Synthesis and structure analysis of the layer silicate DLM-2
  62. Synthesis, characterization and crystal structure analysis of an open-framework zirconium phosphate
  63. Charge flipping combined with histogram matching to solve complex crystal structures from powder diffraction data
  64. Zeolite Structures
  65. New advances in zeolite structure analysis
  66. Complex zeolite structure solved by combining powder diffraction and electron microscopy
  67. Chemical information and intuition in solving crystal structures
  68. Introduction
  69. Experimental methods for estimating the relative intensities of overlapping reflections
  70. Synthesis and structure of Mu-33, a new layered aluminophosphate
  71. Synthesis and structure analysis of the potassium calcium silicate CAS-1. Application of a texture approach to structure solution using data collected in transmission mode
  72. Zeolite structures
  73. Editorial: Structure Determination from Powder Diffraction Data
  74. Exploiting texture to estimate the relative intensities of overlapping reflections
  75. Structure analysis of the novel microporous aluminophosphate IST-1 using synchrotron powder diffraction data and HETCOR MAS NMR
  76. The application of structure envelopes in structure determination from powder diffraction data
  77. Rietveld refinement of a chabazite-like aluminophosphate containing a [Ni(1,2-diaminoethane)2O2]2− complex bridge
  78. Chapter 3 Zeolite structures
  79. Product characterization by x-ray powder diffraction
  80. NMR Characterization and Rietveld Refinement of the Structure of Rehydrated AlPO4-34
  81. Characterization and structural analysis of differently prepared samples of dehydrated VPI-5
  82. An Ordered Form of the Extra-Large-Pore Zeolite UTD-1:  Synthesis and Structure Analysis from Powder Diffraction Data
  83. VPI-5 at 90°C
  84. Rietveld refinement of the calcined form of SAPO-40
  85. Cyclo-?-peptides: Structure and tubular stacking of cyclic tetramers of 3-aminobutanoic acid as determined from powder diffraction data
  86. Synthesis optimization and structure analysis of the zincosilicate molecular sieve VPI-9
  87. A re-examination of the structure of SAPO-40
  88. Is the VFI topology compatible with tetrahedral AI?
  89. Location of the 18-crown-6 template in EMC-2 (EMT) Rietveld refinement of the calcined and as-synthesized forms
  90. Practical Aspects of Powder Diffraction Data Analysis
  91. Advances in Powder Diffraction Methods for Zeolite Structure Analysis
  92. Characterization and Rietveld refinement of the large pore molecular sieve SAPO-40
  93. AIPO4-based molecular sieves synthesized in the presence of di-n-propylamine: Are the structures related?
  94. Rietveld refinement of the crystal structure of the new zeolite mineral gobbinsite
  95. Rietveld refinement of the crystal structure of the new zeolite mineral gobbinsite
  96. Crystal structures of the ammonium and hydrogen forms of zeolite rho
  97. Ruthenium(II) complexes of benzylphosphines
  98. Crystal structure of vacuum-dehydrated fully ammonium-exchanged zeolite A
  99. Crystal structures of fully zinc(II)-exchanged zeolite A, hydrated and partially dehydrated at 600.degree. C
  100. Crystal structures of hydrated and partially dehydrated fully cadmium(II)-exchanged zeolite A
  101. Migration of framework oxide ions. Crystal structures of fully cadmium(II)-exchanged zeolite A evacuated at 600 and 700.degree.C
  102. Cadmium(I) and dicadmium(I). Crystal structures of cadmium(II)-exchanged zeolite A evacuated at 500.degree.C and of its cadmium sorption complex
  103. Zero-coordinate cadmium(II). Over ion exchange. Crystal structures of hydrated and dehydrated zeolite A exchanged with cadmium chloride to give cadmium chloride hydroxide (Cd9.5Cl4(OH)3-A)
  104. Structure determination of zeolites by electron crystallography