Heinrich Leicht scite author profile

We introduced the preparation of hybrid composites using technical cellulose as a matrix material from rice husks with a natural SiO 2 content from 0% to 19.4%. In this work, the physicochemical characteristics of the resulting hybrid composites have been investigated. The presence of SiAOAC chemical bonds in the resulting hybrid composites was determined by infrared spectroscopy. Microscopic analysis showed the complete removal of the mineral component and lignin from the cell wall of the rice husk fibers. This allows obtaining of an expanded surface of the fibers (101.7 m 2 /g) with uniform distribution of the TiO 2 aggregates. It could be shown that with content increasing of natural silicon dioxide in the hybrid composite the decomposition rate of H 2 O 2 also increases.

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Electrically conductive polymer nanocomposites for thermal comfort in electric vehicles

Leicht

Kraus

Baudrit

et al. 2022

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Structural properties of nanocomposites based on resole‐type phenol‐formaldehyde oligomers and detonation nanodiamonds

Шкодич

Темникова

Boyko

et al. 2019

J of Applied Polymer Sci

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Using the methods of infrared spectroscopy (IRS) and X-ray photoelectron spectroscopy (XPS), it was shown that short-term high-energy machining of detonation nanodiamonds (DND) leads to structural changes in the crystal structure and functional composition of the surface layer on particles. The possibility of spontaneous formation for stable colloidal systems with a narrow size distribution of mechanically activated DND in phenol-formaldehyde oligomers (PFO) was established. By molecular spectroscopy it was revealed that π ! π* interactions of the aromatic rings of PFO are caused by orientational phenomena as a result of hydrogen bonds between an activated DND surface and functional groups of PFO. The effect of DND concentration on the curing reaction parameters ofpsgr the phenolformaldehyde oligomer was determined by differential scanning calorimetry (DSC). The concentration effect of mechanically activated nanodiamonds on the physical and mechanical characteristics of a composite material based on phenol-formaldehyde binder and polyamide paper (Nomex) was studied.

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Heinrich Leicht

Adhesive bonding of 3D-printed plastic components

The external surface area of carbon additives as key to enhance the dynamic charge acceptance of lead-carbon electrodes

Hybrid composites based on technical cellulose from rice husk

Electrically conductive polymer nanocomposites for thermal comfort in electric vehicles

Structural properties of nanocomposites based on resole‐type phenol‐formaldehyde oligomers and detonation nanodiamonds

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