All Stories

  1. The influence of core fluorination on the phase behaviour of rod-like mesogens
  2. Synthesis and in Silico Investigation of Organoselenium-Clubbed Schiff Bases as Potential Mpro Inhibitors for the SARS-CoV-2 Replication
  3. Hierarchical Macroporous PolyDCPD Composites from Surface-Modified Calcite-Stabilized High Internal Phase Emulsions
  4. Switching Chirophilic Self‐assembly: From meso ‐structures to Conglomerates in Liquid and Liquid Crystalline Network Phases of Achiral Polycatenar Compounds
  5. Hockey-Stick Polycatenars: Network formation and transition from one dimensional to three-dimensional liquid crystalline phases
  6. Controlling ambidextrous mirror symmetry breaking in photosensitive supramolecular polycatenars by alkyl-chain engineering
  7. The influences of lateral groups on 4-cyanobiphenyl-benzonitrile- based dimers
  8. Shear-induced birefringence in an optically isotropic cubic liquid crystalline phase
  9. Transition from lamellar to nanostructure mesophases in azobenzene-based hockey-stick polycatenars
  10. Azobenzene-based polycatenars: Investigation on photo switching properties and optical storage devices
  11. Mirror Symmetry Breaking and Network Formation in Achiral Polycatenars with Thioether Tail
  12. Controlling liquid and liquid crystalline network formation by core-fluorination of hydrogen bonded supramolecular polycatenars
  13. 2,3,4-Trihydroxy benzonitrile-based liquid crystals: Fiber forming room temperature nematic phases
  14. Photomanipulation of the Mechanical Properties in a Liquid Crystal with Azo‐Containing Bent‐Core Mesogens
  15. Molecular Packing in Double Gyroid Cubic Phases Revealed via Resonant Soft X-Ray Scattering
  16. Azobenzene-based supramolecular liquid crystals: The role of core fluorination
  17. Cover Feature: Stereochemical Rules Govern the Soft Self‐Assembly of Achiral Compounds: Understanding the Heliconical Liquid‐Crystalline Phases of Bent‐Core Mesogens (Chem. Eur. J. 21/2020)
  18. Stereochemical Rules Govern the Soft Self‐Assembly of Achiral Compounds: Understanding the Heliconical Liquid‐Crystalline Phases of Bent‐Core Mesogens
  19. Effective tuning of optical storage devices using photosensitive bent-core liquid crystals
  20. Controlling the formation of heliconical smectic phases by molecular design of achiral bent-core molecules
  21. Y-shaped tricatenar azobenzenes – functional liquid crystals with synclinic–anticlinic transitions and spontaneous helix formation
  22. Cybotactic nematic phases with wide ranges in photoresponsive polycatenars
  23. Polar Order, Mirror Symmetry Breaking, and Photoswitching of Chirality and Polarity in Functional Bent‐Core Mesogens
  24. Liquid crystalline self-assembly of 2,5-diphenyl-1,3,4-oxadiazole based bent-core molecules and the influence of carbosilane end-groups
  25. Wide nematic phases induced by hydrogen-bonding
  26. Nematic phases driven by hydrogen-bonding in liquid crystalline nonsymmetric dimers
  27. Isothermal Chirality Switching in Liquid-Crystalline Azobenzene Compounds with Non-Polarized Light
  28. Isothermal Chirality Switching in Liquid-Crystalline Azobenzene Compounds with Non-Polarized Light
  29. Development of Polar Order by Liquid‐Crystal Self‐Assembly of Weakly Bent Molecules
  30. Cluster phases of 4-cyanoresorcinol derived hockey-stick liquid crystals
  31. Emergence of polar order and tilt in terephthalate based bent-core liquid crystals
  32. Photosensitive bent-core liquid crystals based on methyl substituted 3-hydroxybenzoic acid
  33. Non-symmetric ether-linked liquid crystalline dimers with a highly polar end group
  34. Helical Nano-crystallite (HNC) Phases: Chirality Synchronization of Achiral Bent-Core Mesogens in a New Type of Dark Conglomerates
  35. Mirror symmetry breaking in cubic phases and isotropic liquids driven by hydrogen bonding
  36. Mirror symmetry breaking in fluorinated bent-core mesogens
  37. Spontaneous Mirror-Symmetry Breaking in Isotropic Liquid Phases of Photoisomerizable Achiral Molecules
  38. Development of polar order and tilt in lamellar liquid crystalline phases of a bent-core mesogen
  39. 4-Methylresorcinol based bent-core liquid crystals with azobenzene wings – a new class of compounds with dark conglomerate phases
  40. Dark conglomerate phases of azobenzene derived bent-core mesogens – relationships between the molecular structure and mirror symmetry breaking in soft matter
  41. 4-Cyanoresorcinol-Based Bent-Core Mesogens with Azobenzene Wings: Emergence of Sterically Stabilized Polar Order in Liquid Crystalline Phases
  42. New azobenzene containing bent-core liquid crystals based on disubstituted resorcinol
  43. A Liquid Crystalline Phase with Uniform Tilt, Local Polar Order and Capability of Symmetry Breaking
  44. Influence of halogen substituent on the mesomorphic properties of five-ring banana-shaped molecules with azobenzene wings
  45. A new room temperature dark conglomerate mesophase formed by bent-core molecules combining 4-iodoresorcinol with azobenzene units
  46. Novel hydrogen-bonded angular supramolecular liquid crystals
  47. Effect of exchange of terminal substituents on the mesophase behavior of laterally methyl substituted phenyl azo benzoates in pure and mixed systems
  48. Hydrogen-bonded supramolecular complexes formed between isophthalic acid and pyridine-based derivatives
  49. Effect of lateral substitution of different polarity on the mesophase behaviour in pure and mixed states of 4-(4′-substituted phenylazo)-2-substituted phenyl-4″-alkoxy benzoates
  50. Supramolecular liquid crystals in binary and ternary systems
  51. Supramolecular Liquid Crystals Induced by Hydrogen-Bonding Interactions Between Non-Mesomorphic Compounds. I. 4-(4′-Pyridylazophenyl)-4″-Substituted Benzoates and 4-Substituted Benzoic Acids
  52. Supramolecular Hydrogen-Bonded Liquid Crystals Formed from 4-(4′-Pyridylazophenyl)-4″-alkoxy Benzoates and 4-Substituted Benzoic Acids
  53. Supramolecular Hydrogen-Bonded Liquid Crystals Formed from 4-(4′-Pyridylazophenyl)-4″–Substituted Benzoates and 4-Alkoxybenzoic Acids
  54. Possibility of mesophase formation in some model compounds based on the N-aryl benzamide group