Karin Stana Kleinschek – författare

The authors describe how sustainable textile fibers from crops such as quinoa, grass, hops, corn and wheat stems, etc. have recently begun to generate great interest. The structure-property relationships of such non-conventional cellulose fibers are studied in this brief, as are their sorption and surface properties which are of primary importance. A systematic review of each fiber's properties is given, the emphasis is placed on the water sorption capacity, the fiber's surface potential, and fibrillation properties.

The authors describe how sustainable textile fibers from crops such as quinoa, grass, hops, corn and wheat stems, etc. have recently begun to generate great interest. The structure-property relationships of such non-conventional cellulose fibers are studied in this brief, as are their sorption and surface properties which are of primary importance. A systematic review of each fiber''s properties is given, the emphasis is placed on the water sorption capacity, the fiber''s surface potential, and fibrillation properties.

The book Function-oriented bioengineered skin equivalents - continuous development towards complete skin replication aims to provide potential readers with a comprehensive summary of the available information on various in vitro skin models, from historical background to different modeling approaches and their applications.

The book Function-oriented bioengineered skin equivalents -  continuous development towards complete skin replication aims to provide potential readers with a comprehensive summary of the available information on various in vitro skin models, from historical background to different modeling approaches and their applications. Particular emphasis is placed on presenting the current technological components available for the development of engineered skin equivalents by summarizing advances in cell cultivation, materials science, and bioengineering. Using examples of the current-state-of-art, we describe the advantages, limitations, and challenges of developing in vitro skin models for successful use in clinical applications and skin-related research.

This is the first concise book that includes different aspects of naturally-derived components for wound healing. After a short introduction into modern solutions in wound-care and modern techniques in wound-dressing development, the authors, leaders in the field, explore natural-based components (drugs, extracts, materials etc.);

This is the first concise book that includes different aspects of naturally-derived components for wound healing. It presents the first exhaustive review of modern techniques in wound dressing development. With a growing, ageing population and the rapid growth of the wound-care market, the authors explore the current trend of bio-based products (active components and host materials) in this field. After a short introduction into modern solutions in wound-care and modern techniques in wound-dressing development, the authors, leaders in the field, explore natural-based components (drugs, extracts, materials etc.); safety and efficiency assessments (biocompatibility, cytotoxicity and in vitro performance etc.); and model films as a platform for the development of new wound dressings.

A succinct handbook explaining interdisciplinary processing, methods, and applications of bio-based materials

This book merges the two most important trends in biomaterials: functionalization and renewable chemistry. It covers a variety of biopolymers and various approaches for the transformation of these biopolymers into functional units. Sample topics covered by the two well-qualified authors include:

Fundamental knowledge of biopolymers–natural ones, such as cellulose and other polysaccharides, and synthetic ones, such as polyethylene The origin, classifications, chemical nature, and isolation methods of specific biopolymers The different classical and modern approaches for the transformation of biopolymers into different shapes, ranging from thin films (model surfaces), to nanoparticles, to nanofibers, all the way to 3D scaffolds The morphology, structure, shape, thermal, electrical, and surface properties of biomaterials

This all-inclusive reference guide, which covers fundamentals, methods, and applications alike, is a key resource for both students and practicing scientists involved in programs of study or disciplines that intersect with the field of biomaterials.