Kumar / Hormes / Leuschner | Nanofabrication Towards Biomedical Applications | Buch | 978-3-527-31115-6 | www.sack.de

Buch, Englisch, 420 Seiten, Format (B × H): 170 mm x 240 mm, Gewicht: 974 g

Kumar / Hormes / Leuschner

Nanofabrication Towards Biomedical Applications

Techniques, Tools, Applications, and Impact
1. Auflage 2005
ISBN: 978-3-527-31115-6
Verlag: WILEY-VCH

Techniques, Tools, Applications, and Impact

Buch, Englisch, 420 Seiten, Format (B × H): 170 mm x 240 mm, Gewicht: 974 g

ISBN: 978-3-527-31115-6
Verlag: WILEY-VCH

This book focuses on the materials, synthetic methods, tools and techniques being developed in the nanoregime towards the life sciences -- in particular biology, biotechnology and medicine.
Readers from materials science, engineering, chemistry, biology and medical backgrounds will find detailed accounts of the design and synthesis of nanomaterials and the tools and techniques involved in their production for applications in biology, biotechnology and medicine.
Kumar / Hormes / Leuschner Nanofabrication Towards Biomedical Applications jetzt bestellen!

Zielgruppe

Materialwissenschaftler, Chemiker, Biophysiker, Molekularbiologen

Autoren/Hrsg.

Kumar, Challa S. S. R.
Hormes, Josef
Leuschner, Carola

Fachgebiete

Weitere Infos & Material

1. Fabrication of Nanomaterials
 
1.1 Synthetic Approaches to Metallic Nanomaterials
 
1.2 Synthetic Approaches to Carbon Nanomaterials
 
1.3 Nanostructured Systems from Low-Dimensional Building Blocks
 
1.4 Nanostructured Collagen Mimics in Tissue Engineering
 
1.5 Molecular Biomimetics: Building Materials the Nature's Way, One molecule at a Time
 
2. Characterization Tools for Nanomaterials and Nanosystems
 
2.1 Electron Microscopy Techniques for Characterization of Nanomaterials
 
2.2 X-ray Absorption and X-ray Diffraction Tools for Characterization of Nanomaterials
 
2.3 Single-molecule Detection in Nanotechnology and Biology
 
2.4 Nanotechnologies for Cellular and Molecular Imaging by MRI
 
3. Application of Nanotechnology in Biomedical Research
 
3.1 Nanotechnology in Non-Viral Gene Delivery
 
3.2 Nanoparticles for Cancer Drug Delivery
 
3.3 Diagnostic and Therapeutic Applications of Metal Nanoshells
 
3.4 Decorporation of Biohazards Utilizing Nanoscale Magnetic Carrier Systems
 
3.5 Nanotechnology in Biological Agent Decontamination
 
4. Impact of Biomedical Nanotechnology on Education, Industry and Society
 
4.1 Too Small to See : Educating the Next Generation in Nanoscale Science and Engineering
 
4.2 Nanobiomedical Technology: Financial, Legal, Clinical, Political, Ethical and Societal Challenges to Implementation

I. Fabrication of Nanomaterials
Synthetic Approaches to Metallic Nanomaterials
Synthetic Approaches for Carbon Nanomaterials
Nanostructured Systems from Low-Dimensional Building Blocks
Nanostructured Collagen Mimics in Tissue Engineering
Molecular Biomimetics: Building Materials Nature's Way, One Molecule at a Time
II. Characterization Tools for Nanomaterials and Nanosystems
Electron Microscopy Techniques for Characterization of Nanomaterials
X-ray Methods for the Characterization of Nanomaterials
Single-molecule Detection and Manipulation in Nanotechnology and Biology
Nanotechnologies for Cellular and Molecular Imaging by MRI
III. Application of Nanotechnology in Biomedical Research
Nanotechnology in Non-Viral Gene Delivery
Nanoparticles for Cancer Drug Delivery
Diagnostic and Therapeutic Applications of Metal Nanoshells
Decorporation of Biohazards Utilizing Nanoscale Magnetic Carrier Systems
Nanotechnology in Biological Agent Decontamination
IV. Impact of Biomedical Nanotechnology on Education, Industry and Society
Too Small to See : Educating the Next Generation in Nanoscale Science and Engineering
Nanobiomedical Technology: Financial, Legal, Clinical, Political, Ethical and Societal Challenges to Implementation

Challa Kumar is currently the Group Leader of Nanofabrication at the Center for Advanced Microstructures and Devices (CAMD), Baton Rouge, USA. His research interests are in developing novel synthetic methods for functional nanomaterials and innovative therapeutic, diagnostic and sensor tools based on nanotechnology. He has eight years of industrial R&D experience working for ICI plc and UB Ltd prior to joining CAMD in 2001. He has worked at the Max Planck Institute for Biochemistry in Munich, Germany, as a post doctoral fellow and at the Max Planck Institute for Kohlenforschung, Mülheim, Germany, as an invited scientist. He obtained his Ph.D. degree in synthetic organic chemistry from Sri Sathya Sai Institute of Higher Learning, Prashanti Nilayam, India.
 
Josef Hormes is currently the Director of the Center for Advanced Microstructures and Devices (CAMD) and Professor of Physics at Louisiana State University. Prior to joining CAMD in 1999, he was Director of the Synchrotron Radiation Facility at Bonn University, Germany, for over 15 years. He was also a visiting professor at the Imperial College, London, UK, and the Institute of Physics in Stockholm, Sweden. He has been actively involved in 'nano' research especially in the application of X-ray absorption spectroscopic tools for characterization of nanomaterials. He has more than 180 peer-reviewed publications, and obtained his doctoral degree and habilitation in Physics from Bonn University, Germany.
 
Carola Leuschner is currently Assistant Professor in the Department of Reproductive Biotechnology at Pennington Biomedical Research Center (PBRC), Baton Rouge, USA. Her research interests are in the field of drug development for cancer with emphasis on breast, prostate and ovarian cancer, eradication of metastases and multi-drug resistant cancers in vitro and in vivo. Prior to joining PBRC, she was an Instructor in the Department of Diet and Heart Disease, Louisiana State University. Dr. Leuschner had her postdoctoral training in the Department of Technical Microbiology of Hamburg University, and prior to that, obtained her Ph.D. degree in Biochemistry from the University of Hannover, both Germany.

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