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This book describes the state of the art in the field of bioanalytical nano- and microsystems with optical functionality. In 12 chapters distinguished scientists and leaders in their respective fields show how various optical technologies have been miniaturized and integrated over the last few decades in order to be combined with nano- and microsystems for applications in the life sciences. The main detection and characterization technologies are introduced, and examples of the superiority of these integrated approaches compared to traditional ones are provided. Examples from e.g. the fields…mehr
This book describes the state of the art in the field of bioanalytical nano- and microsystems with optical functionality. In 12 chapters distinguished scientists and leaders in their respective fields show how various optical technologies have been miniaturized and integrated over the last few decades in order to be combined with nano- and microsystems for applications in the life sciences. The main detection and characterization technologies are introduced, and examples of the superiority of these integrated approaches compared to traditional ones are provided. Examples from e.g. the fields of optical waveguides, integrated interferometers, surface plasmon resonance or Raman spectroscopy are introduced and discussed, and it is shown how these approaches have led to novel functionalities and thereby novel applications.
Jürgen Popp, geboren 1966, promovierte 1995 in Chemie an der Universität Würzburg.1996 verbrachte er ein Jahr am Institut für Physik der Yale University, USA. Im Anschluss schloss er sich der Gruppe von Prof. Dr. Dr. h.c. W. Kiefer, University of Würzburg, an, wo er sich im Jahre 2000 habilitierte. Im Mai 2002 folgte er dem Ruf als Professor an die Uni-versität von Jena. Für seine Arbeit wurdeer 1995 mit den Fakultätspreis in Chemie ausgezeichnet, 1997 erhielt der den Bayerischen Habilitationsförderpreis, 2001 den Förderpreis der Würzburger Korporationen und 2002 den Kirchhoff-Bunsen Preis. Seine Forschungsinteressen konzentrieren sich auf Biophysikalischeche Systeme, die Beleuchtung molekularer Strukturaktivitäten oder strukturdynamische Beziehungen in Biomolekülen, die Erforschung einzelner Mikropartikel sowie die Entwicklung von neuer spektroskopischer Messtechniken.Seit 2000 ist er außerdem wissenschaftlicher Beirat der Zeitschrift "Journal of Raman Spectroscopy".
Inhaltsangabe
Colour sensors and their applications.- Addressing of concentration spaces for bioscreenings by micro segmented flow with microphotometric and microfluorimetric detection.- Nanotechnology for diagnostic and sensing: soft and advanced imaging/sensing approaches to analyze biomolecules.- Integrated Optical microsystems for interferometric analytics.- Label-free photonic chips for biosensing.- Surface Plasmon Resonance bioanalytical platform to appraise the interaction between antimicrobial peptides and lipid membranes.- Biological applications of Surface Plasmon Resonance Imaging.- Lab-on-a-Chip Surface Enhanced Raman Spectroscopy (LOC-SERS).- Microfluidic Raman spectroscopy for biochemical sensing and analysis.- Polymeric microfluidic devices for high performance optical imaging and detection methods in bioanalytics.- Chip Systems for analysis of nucleic acids with integrated amplification and detection.- Optofluidic microsystems for application in biotechnology and life sciences.
Colour sensors and their applications.- Addressing of concentration spaces for bioscreenings by micro segmented flow with microphotometric and microfluorimetric detection.- Nanotechnology for diagnostic and sensing: soft and advanced imaging/sensing approaches to analyze biomolecules.- Integrated Optical microsystems for interferometric analytics.- Label-free photonic chips for biosensing.- Surface Plasmon Resonance bioanalytical platform to appraise the interaction between antimicrobial peptides and lipid membranes.- Biological applications of Surface Plasmon Resonance Imaging.- Lab-on-a-Chip Surface Enhanced Raman Spectroscopy (LOC-SERS).- Microfluidic Raman spectroscopy for biochemical sensing and analysis.- Polymeric microfluidic devices for high performance optical imaging and detection methods in bioanalytics.- Chip Systems for analysis of nucleic acids with integrated amplification and detection.- Optofluidic microsystems for application in biotechnology and life sciences.
Colour sensors and their applications.- Addressing of concentration spaces for bioscreenings by micro segmented flow with microphotometric and microfluorimetric detection.- Nanotechnology for diagnostic and sensing: soft and advanced imaging/sensing approaches to analyze biomolecules.- Integrated Optical microsystems for interferometric analytics.- Label-free photonic chips for biosensing.- Surface Plasmon Resonance bioanalytical platform to appraise the interaction between antimicrobial peptides and lipid membranes.- Biological applications of Surface Plasmon Resonance Imaging.- Lab-on-a-Chip Surface Enhanced Raman Spectroscopy (LOC-SERS).- Microfluidic Raman spectroscopy for biochemical sensing and analysis.- Polymeric microfluidic devices for high performance optical imaging and detection methods in bioanalytics.- Chip Systems for analysis of nucleic acids with integrated amplification and detection.- Optofluidic microsystems for application in biotechnology and life sciences.
Colour sensors and their applications.- Addressing of concentration spaces for bioscreenings by micro segmented flow with microphotometric and microfluorimetric detection.- Nanotechnology for diagnostic and sensing: soft and advanced imaging/sensing approaches to analyze biomolecules.- Integrated Optical microsystems for interferometric analytics.- Label-free photonic chips for biosensing.- Surface Plasmon Resonance bioanalytical platform to appraise the interaction between antimicrobial peptides and lipid membranes.- Biological applications of Surface Plasmon Resonance Imaging.- Lab-on-a-Chip Surface Enhanced Raman Spectroscopy (LOC-SERS).- Microfluidic Raman spectroscopy for biochemical sensing and analysis.- Polymeric microfluidic devices for high performance optical imaging and detection methods in bioanalytics.- Chip Systems for analysis of nucleic acids with integrated amplification and detection.- Optofluidic microsystems for application in biotechnology and life sciences.
Rezensionen
From the reviews:
"This book, from Springer's Chemical Sensors and Biosensors series, focuses on recent findings regarding the use of optics and photonics in bioanalytical applications. ... This book is the one to choose if one is seeking a good overview of recent developments in the broad field of optical nano- and microsystems and their application in the life sciences. ... all of the discussions provide valuable insight into current and emerging applications of such systems." (Timo Mappes, Analytical and Bioanalytical Chemistry, Vol. 405 (17), 2013)
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