Two-Component Dendritic Gel: Effect of Stereochemistry on the Supramolecular Chiral Assembly

The self‐assembly of diaminododecane solubilised by four different stereoisomeric dendritic peptides to form gel‐phase materials in toluene was investigated. The second generation dendritic peptides were based on D‐ and L‐lysine building blocks, and each contained three chiral centres. By designing...

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Bibliographic Details
Published in:Chemistry : a European journal 2004-12, Vol.10 (23), p.5901-5910
Main Authors: Hirst, Andrew R., Smith, David K., Feiters, Martin C., Geurts, Huub P. M.
Format: Article
Language:English
Subjects:
chirality
Circular Dichroism
dendrimers
Dendrimers - chemical synthesis
Dendrimers - chemistry
gels
Gels - chemistry
Hot Temperature
Microscopy, Electron, Scanning
Molecular Conformation
Molecular Structure
Nanotechnology
Peptides - chemical synthesis
Peptides - chemistry
Stereoisomerism
supramolecular chemistry
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Summary:The self‐assembly of diaminododecane solubilised by four different stereoisomeric dendritic peptides to form gel‐phase materials in toluene was investigated. The second generation dendritic peptides were based on D‐ and L‐lysine building blocks, and each contained three chiral centres. By designing dendritic peptides in which the configurations of the chiral centres were modified, and applying them as gelator units, the assembly of stereoisomers could be investigated. In all cases, the self‐assembly of gelator units resulted in macroscopic gelation. However, the degree of structuring was modulated by the stereoisomers employed, an effect which changed the morphology and macroscopic behavior of the self‐assembled state. Enantiomeric (L,L,L or D,D,D) gelator units formed fibrous molecular assemblies, whilst the racemic gel (50 % L,L,L : 50 % D,D,D) formed a flat structure with a “woven” appearance. Gelator units based on L,D,D or D,L,L dendritic peptides also formed fibrous assemblies, but small‐angle X‐ray scattering indicated significant morphological differences were caused by the switch in chirality. Furthermore, the macroscopic stability of the gel was diminished when these peptides were compared with their L,L,L or D,D,D analogues. In this paper it is clearly shown that individual stereocentres, on the molecular level, are directly related to the helicity within the fibre. It is argued that the chirality controls the pattern of hydrogen bonding within the assembly, and hence determines the extent of fibre formation and the macroscopic gel strength. Information on the molecular scale, in the form of the stereochemistry of the dendritic lysine building blocks controls the nanoscale morphology of the fibrillar aggregates and the macroscopic thermal properties of the gel phase material formed (see picture).
ISSN:0947-6539
1521-3765
DOI:10.1002/chem.200400502