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The study of plant cell physiology is currently experiencing a profound transformation. Novel techniques allow dynamic in vivo imaging with subcellular resolution, covering a rapidly growing range of plant cell physiology. Several basic biological questions that have been inaccessible by the traditional combination of biochemical, physiological and cell biological approaches now see major progress. Instead of grinding up tissues, destroying their organisation, or describing cell- and tissue structure, without a measure for its function, novel imaging approaches can provide the critical link between localisation, function and dynamics. Thanks to a fast growing collection of available fluoresc...
Dr. Tomcik receives research funding from Arxx Therapeutics. The other Topic Editors declare no competing interests.
The study of plant cell physiology is currently experiencing a profound transformation. Novel techniques allow dynamic in vivo imaging with subcellular resolution, covering a rapidly growing range of plant cell physiology. Several basic biological questions that have been inaccessible by the traditional combination of biochemical, physiological and cell biological approaches now see major progress. Instead of grinding up tissues, destroying their organisation, or describing cell- and tissue structure, without a measure for its function, novel imaging approaches can provide the critical link between localisation, function and dynamics. Thanks to a fast growing collection of available fluoresc...
Die vorliegende Arbeit beschreibt den Aufbau einer Roll-to-Roll (R2R)-Anlage und die Entwicklung eines spezifischen Mikrostrukturierungsprozesses für eine Vielzahl verschiedener Materialien von Hochleistungspolymeren über niedrigschmelzende Metalle bis hin zu Glas-Nanokompositmaterial und thermoplastischen Vliesstoffen einschließlich einer auf Lithographie und Galvanik basierenden teilautomatisierten Werkzeugfertigung für die nahtlose R2R-Mikroreplikation. - This work describes the set-up of a roll-to-roll (R2R) system and the development of a specific microstructuring process for a variety of different materials ranging from high-performance polymers and low-melting-point metals to glass nanocomposites and thermoplastic nonwovens, including a lithography and electroplating-based semi-automated tooling production for seamless R2R microreplication.
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