1. TiO2 Nanomaterials as Electrochemical Biosensors for Cancer Diagnostics
2. Reconstitution of ion channels in planar lipid bilayers: new approaches
3. Shear-Induced Lamellar/Onion Transition in Surfactant Systems
Advances in Biomembranes and Lipid Self-Assembly, Volume 27, formerly titled Advances in Planar Lipid Bilayers and Liposomes, provides a global platform for a broad community of experimental and theoretical researchers studying cell membranes, lipid model membranes, and lipid self-assemblies from the micro- to the nanoscale.
Planar lipid bilayers are widely studied due to their ubiquity in nature and find their application in the formulation of biomimetic model membranes, and in the design of artificial dispersion of liposomes. Moreover, lipids self-assemble into a wide range of other structures, including micelles and the liquid crystalline hexagonal and cubic phases.
Consensus has been reached that curved membrane phases do play an important role in nature as well, especially in dynamic processes, such as vesicles fusion and cell communication. Self-assembled lipid structures have enormous potential as dynamic materials ranging from artificial lipid membranes, to cell membranes, from biosensing, to controlled drug delivery, and from pharmaceutical formulations, to novel food products.
An assortment of chapters in this volume represents both original research as well as comprehensive reviews written by world leading experts and young researchers.
- Surveys recent theoretical and experimental results on lipid micro- and nanostructures
- Presents potential uses of applications, like clinically relevant diagnostic and therapeutic procedures, biotechnology, pharmaceutical engineering and food products
- Includes both original research and comprehensive reviews written by world leading experts and young researchers
- Provides a global platform for a broad community of experimental and theoretical researchers studying cell membranes, lipid model membranes, and lipid self-assemblies from the micro- to the nanoscale
Experts in the field of chemistry, physics and biology of lipid micro- and nanostructures and biological membranes, and a podium for non-specialists working on the interdisciplinary front
- No. of pages:
- © Academic Press 2018
- 1st April 2018
- Academic Press
- Hardcover ISBN:
Aleš Iglič received his B.Sc. and Ph.D. degrees in physics and M.Sc. degree in biophysics from the Department of Physics, and the Ph.D. degree in electrical engineering from the Faculty of Electrical Engineering, all from the University of Ljubljana. He is a Full Professor and the Head of Laboratory of Biophysics of the Faculty of Electrical Engineering at University of Ljubljana. His main research interests are in electrostatics, mechanics and statistical physics of lipid nanostructures and biological membranes. He is devoted to higher education, basic research in biophysics and close contacts to clinical practice. Prof. Iglič was visiting scientist and professor at Åbo Academy University in Turku (Finland), Friedrich Schiller University in Jena (Germany) and Czech Technical University in Prague (Czech Republic). He established collaborations with researchers from different universities across the Europe, USA and India and was supervisor of many M.Sc., Ph.D. and postdoctoral students from Slovenia, Czech Republic, Poland, Iran, Bulgaria, Germany, India and Israel. Since 2009 is the editor of Elsevier book series »Advances in Planar Lipid Bilayers and Liposomes« (APLBL).
Faculty of Electrical Engineering, University of Ljubljana, Slovenia
Michael Rappolt has been appointed as Professor of Lipid Biophysics (School of Food Science and Nutrition) in April 2013. He received his MSc and PhD in physics from the University of Hamburg and achieved his habilitation at the University of Ljubljana in the Faculty of Health Sciences. He was Senior Researcher at the Synchrotron Trieste Outstation (Italy), Institute of Biophysics and Nanosystems Research (Austrian Academy of Sciences), before becoming Assistant Professor at Graz University of Technology. Professor Michael Rappolt is a leading authority on investigating the structure and dynamics of lipid membranes using small-angle X-ray scattering. His recent research activities have concentrated on the study of drug/membrane interactions with potential applications to drug delivery and food. Further research topics concentrate on characterising crystallization processes in food, the investigation of colloid interfaces and the determination of particle structures on the nanoscale. He also seeks to transfer standard measurement techniques applied in food research – such as mechanic (sound and shear) and thermodynamic sample manipulations to synchrotron sites – to understand food on a smaller (nanometre) and faster (microsecond) scale.
University of Leeds, UK
Universitat Tubingen, Germany