Gerhard Domann scite author profile

Macroelectronic components combining different classes of devices often suffer from the high complexity and costs of the manufacturing processes. The printing of an active‐matrix sensor network using only five functional inks is demonstrated. The result is an all‐printed monolithically integrated touchless input interface, including ferroelectric sensor pixels, organic transistors for impedance matching, and an electrochromic display.

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Inorganic–organic hybrid materials for application in optical devices

Houbertz

et al. 2003

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Fabrication of n‐ and p‐Type Organic Thin Film Transistors with Minimized Gate Overlaps by Self‐Aligned Nanoimprinting

et al. 2010

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A nanoimprinting process that enables fabrication of self‐aligned p‐ and n‐type organic thin film transistors with small channel lengths is presented. Nanoimprint lithography with back‐side exposure permit precise definition of the channel length down to the submicrometer regime and a diminutive gate to source/drain overlap. The self‐aligned manufacturing process enables transistor setups with minimized electrode overlaps resulting in distinct decrease of parasitic capacitances and considerable increase in transition frequency. Fully functional small channel OTFTs with p‐ and n‐type semiconductors are fabricated on glass as well as on flexible substrates with transition frequencies up to 400 kHz.

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Impact of photoinitiators on the photopolymerization and the optical properties of inorganic–organic hybrid polymers

Houbertz

Domann

Schulz

et al. 2004

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Sol-gel synthesis allows one to produce inorganic–organic hybrid polymer materials which can be functionalized in order to tailor their physical and chemical properties. Besides, the resulting material properties are significantly influenced by further technological processing of the materials in thin film technology, i.e., the photochemical and thermal curing of the materials. In order to investigate the relationship between technological processing and material properties, a model system containing methacrylic groups as organically polymerizable units is chosen. The degree of conversion of the C=C double bond of the methacrylic group in dependence of the ultraviolet (UV) initiator concentration upon processing is characterized using Fourier-transform infrared spectroscopy. The data are correlated to measurements of the refractive indices at selected wavelengths.

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Gerhard Domann

Femtosecond laser-induced two-photon polymerization of inorganic–organic hybrid materials for applications in photonics

An All‐Printed Ferroelectric Active Matrix Sensor Network Based on Only Five Functional Materials Forming a Touchless Control Interface

Inorganic–organic hybrid materials for application in optical devices

Fabrication of n‐ and p‐Type Organic Thin Film Transistors with Minimized Gate Overlaps by Self‐Aligned Nanoimprinting

Impact of photoinitiators on the photopolymerization and the optical properties of inorganic–organic hybrid polymers

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