All Stories

  1. The Influence of Intrinsic Framework Flexibility on Adsorption in Nanoporous Materials
  2. Is High-Density Amorphous Ice Simply a “Derailed” State along the Ice I to Ice IV Pathway?
  3. Rational Design of a Low-Cost, High-Performance Metal–Organic Framework for Hydrogen Storage and Carbon Capture
  4. Dynamic acidity in defective UiO-66
  5. In silico design and screening of hypothetical MOF-74 analogs and their experimental synthesis
  6. Unusually Large Band Gap Changes in Breathing Metal–Organic Framework Materials
  7. Molecular simulations of heterogeneous ice nucleation. I. Controlling ice nucleation through surface hydrophilicity
  8. Molecular simulations of heterogeneous ice nucleation. II. Peeling back the layers
  9. Theoretical study of conformational disorder and selective adsorption of small organic molecules in the flexible metal-organic framework material MIL-53-Fe
  10. Computational Approaches to the Design, Crystal Structure Prediction, and Structure–Property Relationships of Metal–Organic Frameworks
  11. Contradistinct Thermoresponsive Behavior of Isostructural MIL-53 Type Metal–Organic Frameworks by Modifying the Framework Inorganic Anion
  12. Chemical and Structural Stability of Zirconium-based Metal-Organic Frameworks with Large Three-Dimensional Pores by Linker Engineering
  13. Chemical and Structural Stability of Zirconium-based Metal-Organic Frameworks with Large Three-Dimensional Pores by Linker Engineering
  14. Periodic MP2, RPA, and Boundary Condition Assessment of Hydrogen Ordering in Ice XV
  15. Zeroing in on ice
  16. Dielectric Properties of Water Ice, the Ice Ih/XI Phase Transition, and an Assessment of Density Functional Theory
  17. GLYCOLALDEHYDE FORMATION VIA THE DIMERIZATION OF THE FORMYL RADICAL
  18. On the accuracy of van der Waals inclusive density-functional theory exchange-correlation functionals for ice at ambient and high pressures
  19. ChemInform Abstract: Transition-Metal-Free Synthesis of Aryl-Substituted tert-Butyl Ynol Ethers Through Addition/Elimination Substitution at an sp Centre.
  20. Impact of functionalized linkers on the energy landscape of ZIFs
  21. The microscopic features of heterogeneous ice nucleation may affect the macroscopic morphology of atmospheric ice crystals
  22. Transition-Metal-Free Synthesis of Aryl-Substitutedtert-Butyl Ynol Ethers through Addition/Elimination Substitution at an sp Centre
  23. ON THE FORMATION OF GLYCOLALDEHYDE IN DENSE MOLECULAR CORES
  24. A Polar Corundum Oxide Displaying Weak Ferromagnetism at Room Temperature
  25. Comparison of the relative stability of zinc and lithium-boron zeolitic imidazolate frameworks
  26. Hierarchically Structure-Directing Effect of Multi-Ammonium Surfactants for the Generation of MFI Zeolite Nanosheets
  27. Hydrogen Bonds and van der Waals Forces in Ice at Ambient and High Pressures
  28. Melting the Ice: On the Relation between Melting Temperature and Size for Nanoscale Ice Crystals
  29. Modular and predictable assembly of porous organic molecular crystals
  30. Proton ordering in cubic ice and hexagonal ice; a potential new ice phase—XIc
  31. Conformer interconversion in a switchable porous organic cage
  32. The polymorphism of ice: five unresolved questions
  33. Unstitching the Nanoscopic Mystery of Zeolite Crystal Formation
  34. Flexibility in a Metal-Organic Framework Material Controlled by Weak Dispersion Forces: The Bistability of MIL-53(Al)
  35. Flexibility in a Metal-Organic Framework Material Controlled by Weak Dispersion Forces: The Bistability of MIL-53(Al)
  36. Growth Mechanisms in SAPO-34 Studied by White Light Interferometry and Atomic Force Microscopy
  37. Point defects at the ice (0001) surface
  38. Structure of Zeolite A (LTA) Surfaces and the Zeolite A/Water Interface
  39. Surface energy and surface proton order of the ice Ih basal and prism surfaces
  40. Isomorphism between ice and silica
  41. Spiral Growth on Nanoporous Silicoaluminophosphate STA-7 as Observed by Atomic Force Microscopy
  42. A theoretical examination of known and hypothetical clathrate hydrate materials
  43. Structural Characterization of Interlayer Expanded Zeolite Prepared From Ferrierite Lamellar Precursor
  44. Modeling dynamics of the external surface of zeolite LTA
  45. A computational study of magnesium point defects and diffusion in forsterite
  46. Zeolitic imidazole frameworks: structural and energetics trends compared with their zeolite analogues
  47. Comparison of Chiral and Racemic Forms of Zinc Cyclohexanetrans-1,2-Dicarboxylate Frameworks: A Structural, Computational, and Calorimetric Study
  48. Comparison of Chiral and Racemic Forms of Zinc Cyclohexanetrans-1,2-Dicarboxylate Frameworks: A Structural, Computational, and Calorimetric Study
  49. Surface Energy and Surface Proton Order of Ice I h
  50. A general purpose package (MADFOMS) for predicting the morphologies and powder X-ray diffraction patterns of molecular crystals
  51. Modeling of Structures and Reactivity of Solid Catalysts
  52. In situ atomic force microscopy of zeolite A dissolution
  53. Comment upon the screw dislocation structure on HKUST-1 {111} surfaces
  54. 29Si NMR chemical shifts from Density Functional Theory incorporating solvent effects
  55. The role of organic templates in controlling zeolite crystal morphology
  56. Insights into the crystal growth mechanisms of zeolites from combined experimental imaging and theoretical studies
  57. Molecular Modelling in Zeolite Science
  58. Influence of cations on crystal growth mechanism: ABW vs. JBW
  59. A Blind Structure Prediction of Ice XIV
  60. Crystal growth of analcime studied by AFM and atomistic simulation
  61. Proton ordering energetics in ice phases
  62. Computer Modelling of Inorganic Materials
  63. Bulk and Surface Simulation Studies of La1-xCaxMnO3
  64. Incidence and properties of nanoscale defects in silicalite
  65. Thermodynamic and kinetic factors in the hydrothermal synthesis of hybrid frameworks: zinc 4-cyclohexene-1,2-dicarboxylates
  66. Computational Investigation Into the Adsorption of Pollutants Onto Mineral Surfaces: Arsenate and Dolomite
  67. Structure Elucidation of the Highly Active Titanosilicate Catalyst Ti-YNU-1
  68. Structure Elucidation of the Highly Active Titanosilicate Catalyst Ti-YNU-1
  69. Simulating the Dissolution and Growth of Zeolite Beta C
  70. Simulating the Dissolution and Growth of Zeolite Beta C
  71. Atomic scale modelling of the cores of dislocations in complex materials part 2: applications
  72. 25  Computer modelling of inorganic materials
  73. Atomic scale modelling of the cores of dislocations in complex materials part 1: methodology
  74. The interaction of dolomite surfaces with metal impurities: a computer simulation study
  75. Fine Structures of Zeolite-Linde-L (LTL): Surface Structures, Growth Unit and Defects
  76. Predicting the structure of screw dislocations in nanoporous materials
  77. Modeling Nucleation and Growth in Zeolites
  78. NOVEL FRAMEWORK ALUMINIUM DIPHOSPHONATES
  79. Impurities and nonstoichiometry in the bulk and on the (101̄4) surface of dolomite
  80. Modelling oxide thin films
  81. Atomistic models of carbonate minerals: Bulk and surface structures, defects, and diffusion
  82. Surface Structure and Crystal Growth of Zeolite Beta C
  83. Surface Structure and Crystal Growth of Zeolite Beta C
  84. Experimental and computational study of the gas-sensor behaviour and surface chemistry of the solid-solution Cr2–xTixO3 (x ≤ 0.5)
  85. Understanding nucleation and growth using computer simulation
  86. Structure of the (101̄4) surfaces of calcite, dolomite and magnesite under wet and dry conditions
  87. Geometry and electronic structure of [0001]/(1230) Σ = 7 symmetric tilt boundary in ZnO
  88. Dissociation of O2 on the reduced SnO2 (110) surface
  89. Atomistic simulation methodologies for modelling the nucleation, growth and structure of interfaces
  90. Adsorption of benzene at the hydroxylated (111) external surface of faujasite
  91. Atomistic Simulations of the (1014) Surface of Carbonate Minerals
  92. Competitive Adsorption of O2 and H2O at the Neutral and Defective SnO2 (110) Surface
  93. Study of Surface Segregation of Antimony on SnO 2 Surfaces by Computer Simulation Techniques
  94. Exercising control over the influence of the lattice misfit on the structure of oxide–oxide thin film interfaces
  95. Introductory Lecture Computer modelling as a technique in solid state chemistry
  96. Monte Carlo simulations of the first-order phase transition in vanadium dioxide