| Te⋯N secondary-bonding interactions in tellurium crystals: Supramolecular aggregation patterns and a comparison with their lighter congeners |
Tiekink (2022 ▸) |
| Metal Coordination Enhances Chalcogen Bonds: CSD Survey and Theoretical Calculations |
Frontera & Bauza (2022 ▸) |
| Chalcogen bonding in coordination chemistry |
Mahmudov et al. (2022 ▸) |
| Harnessing noncovalent interaction of chalcogen bond in organocatalysis: From the catalyst point of view |
Yan et al. (2021 ▸) |
| Supramolecular aggregation patterns featuring Se⋯N secondary-bonding interactions in mono-nuclear selenium compounds: A comparison with their congeners |
Tiekink (2021b
▸) |
| Zero-, one-, two- and three-dimensional supramolecular architectures sustained by Se⋯O chalcogen bonding: A crystallographic survey |
Tiekink (2021c
▸) |
| Participation of S and Se in hydrogen and chalcogen bonds |
Scheiner (2021 ▸) |
| Chalcogen bonding in materials chemistry |
Ho et al. (2020 ▸) |
| Chalcogen bonding in crystalline diselenides and selenocyanates: From molecules of pharmaceutical interest to conducting materials |
Fourmigué & Dhaka (2020 ▸) |
| Chalcogen-bond driven molecular recognition at work |
Biot & Bonifazi (2020 ▸) |
| Anion recognition using chalcogen bonding |
Tanii (2020 ▸) |
| Chalcogen Bonding: An Overview |
Vogel et al. (2019 ▸) |
| Dithienothiophenes at Work: Access to Mechanosensitive Fluorescent Probes, Chalcogen-Bonding Catalysis, and beyond |
Strakova et al. (2019 ▸) |
| The Chalcogen Bond in Crystalline Solids: A World Parallel to Halogen Bond |
Scilabra et al. (2019 ▸) |
| Secondary Forces in Protein Folding |
Newberry & Raines (2019 ▸) |
| Adaptive responses of sterically confined intramolecular chalcogen bonds |
Selvakumar & Singh (2018 ▸) |
| Molecular and supramolecular chemistry of mono- and diselenium analogues of metal dithiocarbamates |
Lee et al. (2018 ▸) |
| Chalcogen bonding in synthesis, catalysis and design of materials |
Mahmudov et al. (2017b
▸) |
