Molecular Assembly of Biomimetic Systems von Junbai Li

CHF 149.00 inkl. MwSt.
ISBN: 978-3-527-32542-9
Einband: Kartonierter Einband (Kt)
Verfügbarkeit: Lieferbar in ca. 10-20 Arbeitstagen
+ -
In nature, biological systems and physiological processes have evolved over millions of years to improve their properties and functions. Biomimetics is the study and use of the structure and function of living things to create materials or products by reverse engineering. A major advantage of these systems is that both biochemical and physical parameters can be precisely controlled, therefore enabling the utilization of biomimetic systems as experimental models for guiding the research on the biological mutation and evolution in the organisms. Some bioactive molecules such as peptides, proteins, nucleic acids and lipids can undergo self-assembly into well-defined structures similar to the assembly in living organs. Biomimetics is not limited to just copying nature because, with the development of modern biology, scientists can directly utilize biological units themselves to construct new types of systems sometimes as hybrid nanostructured materials. This book covers fundamental aspects and practical techniques of molecular assembly of biomimetic systems, especially, the layer-by-layer assembly, self-assembly, microcontact printing, electron beam lithography and chemical nanolithography. Aimed at graduate students as well as researchers carrying out research and development in nanotechnology, biotechnology and materials sciences.
In nature, biological systems and physiological processes have evolved over millions of years to improve their properties and functions. Biomimetics is the study and use of the structure and function of living things to create materials or products by reverse engineering. A major advantage of these systems is that both biochemical and physical parameters can be precisely controlled, therefore enabling the utilization of biomimetic systems as experimental models for guiding the research on the biological mutation and evolution in the organisms. Some bioactive molecules such as peptides, proteins, nucleic acids and lipids can undergo self-assembly into well-defined structures similar to the assembly in living organs. Biomimetics is not limited to just copying nature because, with the development of modern biology, scientists can directly utilize biological units themselves to construct new types of systems sometimes as hybrid nanostructured materials. This book covers fundamental aspects and practical techniques of molecular assembly of biomimetic systems, especially, the layer-by-layer assembly, self-assembly, microcontact printing, electron beam lithography and chemical nanolithography. Aimed at graduate students as well as researchers carrying out research and development in nanotechnology, biotechnology and materials sciences.
AutorLi, Junbai / He, Qiang / Yan, Xuehai
EinbandKartonierter Einband (Kt)
Erscheinungsjahr2010
Seitenangabe202 S.
LieferstatusLieferbar in ca. 10-20 Arbeitstagen
AusgabekennzeichenEnglisch
Abbildungenschwarz-weiss Illustrationen, Tabellen, schwarz-weiss, farbige Illustrationen
MasseH24.0 cm x B17.0 cm x D1.2 cm 410 g
CoverlagWiley-VCH (Imprint/Brand)
Auflage1. Auflage
Verlagsartikelnummer1132542 000
VerlagWiley-VCH

Über den Autor Junbai Li

Junbai Li is a Director of the Key Lab of Colloid and Interface Science, Institute of Chemistry, Chinese Academy of Sciences (ICCAS). He received his BS and PhD degrees from Jilin University and spent two years as a Postdoctoral Fellow and Group Leader at the Max Planck Institute of Colloids & Surfaces, for the collaborative project "Molecular Assembly of Biomimetic Systems". He then worked as a Full Professor at the Institute of Photographic Chemistry, CAS, before moving to his current position in 1999. His research interests encompass supramolecular chemistry and surface science, including the boundary research areas of organic chemistry, physical chemistry, biochemistry, and materials chemistry. His major interests include the molecular assembly of biomimetic systems, biointerfaces, and nanostructures. Qiang He graduated from the Inner Mongolia University and received his PhD degree on physical chemistry in 2003 from the Institute of Chemistry, the Chinese Academy of Sciences. Then he joined Prof. Li's group and became an associate professor in the Institute of Chemistry, the Chinese Academy of Sciences. He spent four years as a research fellow of the Alexander von Humboldt Foundation in the Max Plank Institute of Colloids and Interfaces, Germany. Currently, he is a full Professor at the Micro/Nano Technology Research Centre, Harbin Institute of Technology, China. His research interests include self-assembled active systems, stimuli-responsive surface patterning for biomedical application. Xuehai Yan received his BE degree in Chemical Engineering in 2002 and MS degree in Applied Chemistry in 2005 from China University of Mining and Technology. Then he joined the Institute of Chemistry, the Chinese Academy of Sciences, where he obtained his PhD in Physical Chemistry in 2008. Currently he is working as a research fellow of the Alexander von Humboldt Foundation at the Max Planck Institute of Colloids and Interfaces in Germany. His research interests are focused on self-assembly of biomolecular materials, in particular the use of amino acids or peptides as an assembly building block, and supramolecular interactions in the process of self-assembly.

Weitere Titel von Junbai Li