Computational Nanomedicine and Nanotechnology

Lectures with Computer Practicums

Nonfiction, Health & Well Being, Medical, Specialties, Pharmacy, Science & Nature, Technology, Engineering
Cover of the book Computational Nanomedicine and Nanotechnology by Renat R. Letfullin, Thomas F. George, Springer International Publishing
View on Amazon View on AbeBooks View on Kobo View on B.Depository View on eBay View on Walmart
Author: Renat R. Letfullin, Thomas F. George ISBN: 9783319435770
Publisher: Springer International Publishing Publication: February 10, 2017
Imprint: Springer Language: English
Author: Renat R. Letfullin, Thomas F. George
ISBN: 9783319435770
Publisher: Springer International Publishing
Publication: February 10, 2017
Imprint: Springer
Language: English

This textbook, aimed at advanced undergraduate and graduate students, introduces the basic knowledge required for nanomedicine and nanotechnology, and emphasizes how the combined use of chemistry and light with nanoparticles can serve as treatments and therapies for cancer. This includes nanodevices, nanophototherapies, nanodrug design, and laser heating of nanoparticles and cell organelles. In addition, the book covers the emerging fields of nanophotonics and nanoplasmonics, which deal with nanoscale confinement of radiation and optical interactions on a scale much smaller than the wavelength of the light. The applications of nanophotonics and nanoplasmonics to biomedical research discussed in the book range from optical biosensing to photodynamic therapies.

Cutting-edge and reflective of the multidisciplinary nature of nanomedicine, this book effectively combines knowledge and modeling from nanoscience, medicine, biotechnology, physics, optics, engineering, and pharmacy in an easily digestible format. Among the topics covered in-depth are:

• The structure of cancer cells and their properties, as well as techniques for selective targeting of cancer and gene therapy.

• Nanoplasmonics: Lorentz-Mie simulations of optical properties of nanoparticles and the use of plasmonic nanoparticles in diagnosis and therapy.

• Nanophotonics: short and ultrashort laser pulse interactions with nanostructures, time and space simulations of thermal fields in and around the nanobioparticles, and nanoclusters heated by radiation.

• Modeling of soft and hard biological tissue ablation by activated nanoparticles, as well as optical, thermal, kinetic, and dynamic modeling.

• Detection techniques, including the design and methods of activation of nanodrugs and plasmon resonance detection techniques.

• Design and fabrication of nanorobots and nanoparticles.

• Effective implementation of nanotherapy treatments.

• Nanoheat transfer, particularly the heating and cooling kinetics of nanoparticles.

• …and more!

Each chapter contains a set of lectures in the form of text for student readers and PowerPoints for use by instructors, as well as homework exercises. Selected chapters also contain computer practicums, including Maple codes and worked-out examples. This book helps readers become more knowledgeable and versant in nanomedicine and nanotechnology, inspires readers to work creatively and go beyond the ideas and topics presented within, and is sufficiently comprehensive to be of value to research scientists as well as students.

View on Amazon View on AbeBooks View on Kobo View on B.Depository View on eBay View on Walmart

This textbook, aimed at advanced undergraduate and graduate students, introduces the basic knowledge required for nanomedicine and nanotechnology, and emphasizes how the combined use of chemistry and light with nanoparticles can serve as treatments and therapies for cancer. This includes nanodevices, nanophototherapies, nanodrug design, and laser heating of nanoparticles and cell organelles. In addition, the book covers the emerging fields of nanophotonics and nanoplasmonics, which deal with nanoscale confinement of radiation and optical interactions on a scale much smaller than the wavelength of the light. The applications of nanophotonics and nanoplasmonics to biomedical research discussed in the book range from optical biosensing to photodynamic therapies.

Cutting-edge and reflective of the multidisciplinary nature of nanomedicine, this book effectively combines knowledge and modeling from nanoscience, medicine, biotechnology, physics, optics, engineering, and pharmacy in an easily digestible format. Among the topics covered in-depth are:

• The structure of cancer cells and their properties, as well as techniques for selective targeting of cancer and gene therapy.

• Nanoplasmonics: Lorentz-Mie simulations of optical properties of nanoparticles and the use of plasmonic nanoparticles in diagnosis and therapy.

• Nanophotonics: short and ultrashort laser pulse interactions with nanostructures, time and space simulations of thermal fields in and around the nanobioparticles, and nanoclusters heated by radiation.

• Modeling of soft and hard biological tissue ablation by activated nanoparticles, as well as optical, thermal, kinetic, and dynamic modeling.

• Detection techniques, including the design and methods of activation of nanodrugs and plasmon resonance detection techniques.

• Design and fabrication of nanorobots and nanoparticles.

• Effective implementation of nanotherapy treatments.

• Nanoheat transfer, particularly the heating and cooling kinetics of nanoparticles.

• …and more!

Each chapter contains a set of lectures in the form of text for student readers and PowerPoints for use by instructors, as well as homework exercises. Selected chapters also contain computer practicums, including Maple codes and worked-out examples. This book helps readers become more knowledgeable and versant in nanomedicine and nanotechnology, inspires readers to work creatively and go beyond the ideas and topics presented within, and is sufficiently comprehensive to be of value to research scientists as well as students.

More books from Springer International Publishing

Cover of the book Respiratory Contagion by Renat R. Letfullin, Thomas F. George
Cover of the book Performance Evaluation and Benchmarking: Traditional to Big Data to Internet of Things by Renat R. Letfullin, Thomas F. George
Cover of the book Discrete-Time Optimal Control and Games on Large Intervals by Renat R. Letfullin, Thomas F. George
Cover of the book DNA and Histone Methylation as Cancer Targets by Renat R. Letfullin, Thomas F. George
Cover of the book Prediction Methods for Blood Glucose Concentration by Renat R. Letfullin, Thomas F. George
Cover of the book Pulmonary Function by Renat R. Letfullin, Thomas F. George
Cover of the book Neoliberal Psychology by Renat R. Letfullin, Thomas F. George
Cover of the book The Serpin Family by Renat R. Letfullin, Thomas F. George
Cover of the book Carbon Nanotubes for Clean Water by Renat R. Letfullin, Thomas F. George
Cover of the book Human-Computer Systems Interaction by Renat R. Letfullin, Thomas F. George
Cover of the book Ocular Drug Delivery: Advances, Challenges and Applications by Renat R. Letfullin, Thomas F. George
Cover of the book Excel 2013 for Environmental Sciences Statistics by Renat R. Letfullin, Thomas F. George
Cover of the book Fictions of the Press in Nineteenth-Century France by Renat R. Letfullin, Thomas F. George
Cover of the book Internet Science by Renat R. Letfullin, Thomas F. George
Cover of the book Advanced Colonoscopy and Endoluminal Surgery by Renat R. Letfullin, Thomas F. George
We use our own "cookies" and third party cookies to improve services and to see statistical information. By using this website, you agree to our Privacy Policy