10.1021/cg500497g.s010
Henrik Klien
Henrik
Klien
Wilhelm Seichter
Wilhelm
Seichter
Edwin Weber
Edwin
Weber
Versatility in Complexation of Aprotic Guest Molecules
by Terphenyl-Based Bisfluorenol Hosts. Structural Modes in the Crystalline
Inclusions and of a Guest-Free Host Compound
American Chemical Society
2014
aprotic guest molecules
Structural Modes
Aprotic Guest Molecules
supramolecular inclusion formation
Host
diol hosts 1
crystal structures
Crystalline Inclusions
fluorenol
aprotic guest species
2014-09-03 00:00:00
Dataset
https://acs.figshare.com/articles/dataset/Versatility_in_Complexation_of_Aprotic_Guest_Molecules_by_Terphenyl_Based_Bisfluorenol_Hosts_Structural_Modes_in_the_Crystalline_Inclusions_and_of_a_Guest_Free_Host_Compound/2258461
Crystalline
inclusion compounds of diol hosts <b>1</b> and <b>2</b> typical of a basic 2,2″-[1,1′:4′,4″]-terphenyl
moiety with two attached 9-fluorenol or <i>tert</i>-butyl-substituted
9-fluorenol units and a variety of aprotic guest molecules have been
prepared and studied with reference to their crystal structures. Common
and differing structural features among one another and including
previously described host–guest complexes of <b>1</b> and <b>2</b> with protic instead
of aprotic guest species are distinguished, indicating potential uses
in promising supramolecular inclusion formation and underscoring solvent
inclusion.