Dorit Meinhold scite author profile

A novel strategy for the preparation of thin hydrogel coatings on top of polymer bulk materials was elaborated for the example of poly(ethylene terephthalate) (PET) surfaces layered with poly(vinylpyrrolidone) (PVP). PVP layers were deposited on PET foils or SiO2 surfaces (silicon wafer or glass coverslips) precoated with PET and subsequently cross-linked by electron beam treatment. The obtained films were characterized by ellipsometry, X-ray photoelectron spectroscopy, infrared spectroscopy in attenuated total reflection, atomic force microscopy (AFM), and electrokinetic measurements. Ellipsometric experiments and AFM force-distance measurements showed that the cross-linked layers swell in aqueous solutions by a factor of about 7. Electrokinetic experiments indicated a strong hydrodynamic shielding of the charge of the underlying PET layer by the hydrogel coatings and further proved that the swollen films were stable against shear stress and variation of pH. In conclusion, electron beam cross-linking ofpreadsorbed hydrophilic polymers permits a durable fixation of swellable polymer networks on polymer supports which can be adapted to materials in a wide variety of shapes.

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Structural chemistry and guest inclusion of a new supramolecular material showing sensitivity to organic solvent vapors

Meinhold

Seichter

Köhnke

et al. 1997

Advanced Materials

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Clathrate formation—the formation of crystalline inclusion compounds—is one approach to chemical sensing of vapors and gases. The synthesis of a new diol host compound is described and absorptive clathrate formation and thermal clathrate decomposition are reported for acetone as the guest. It is shown that the sorptive uptake of a guest vapor by the crystalline host compound is not merely surface adsorption but true clathrate formation, involving a solid‐state transformation. It is suggested that the use of the host as a chemical sensor is not far off.

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Haase

Meinhold

Thomas

et al. 2002

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Inclusion Compounds of Bulky Binaphthyl-type Bis-fluorenol Hosts

Weber

Meinhold

Haase

et al. 2005

Supramolecular Chemistry

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Inclusion properties of a new family of clathrate hosts(1 -4) containing two 9-hydroxy-9-fluorenyl units or chloro-, bromo-and t-butyl-substituted derivatives of this group attached in the 3,3 0 -position to a basic 2,2 0 -binaphthyl construction element are reported (115 examples of clathrates). The crystal structures of six selected clathrates, involving dimethylsulfoxide, cyclopentanol, diethylether, benzylamine, chloroform and acetone as the guest, have been determined by X-ray diffraction, showing varied modes of supramolecular interaction dependent on the host and guest constitutions, while the formation of an intramolecular hydrogen bond between the hydroxy groups of the fluorenol units is a common structural feature (except in 3a) controlling twisted conformation of the host molecules.

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Dorit Meinhold

A star-PEG–heparin hydrogel platform to aid cell replacement therapies for neurodegenerative diseases

Hydrogel Characteristics of Electron-Beam-Immobilized Poly(vinylpyrrolidone) Films on Poly(ethylene terephthalate) Supports

Structural chemistry and guest inclusion of a new supramolecular material showing sensitivity to organic solvent vapors

Untitled

Inclusion Compounds of Bulky Binaphthyl-type Bis-fluorenol Hosts

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