ELECTRICALLY ACTIVE MATERIALS FOR MEDICAL DEVICES

ELECTRICALLY ACTIVE MATERIALS FOR MEDICAL DEVICES

用于医疗设备的电活性材料
生物化学

原价：

￥ 2107.5

售价：

优惠

平台大促低至8折优惠

发货周期：预计3-5周发货

作者

SYED TOFAIL ET AL

出版社

World Scientific Publishing

出版时间

2016年08月05日

装帧

精装

ＩＳＢＮ

9781783269860

复制

页码

576

语种

英文

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暂无评分

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图书简介

Stress induced electrical charges, action potential and electret behavior of bone, muscles, skin and nerve cells have been known for some time. Electrically Active Materials for Medical Devices builds on this knowledge and encourages readers to understand and exploit electrical activity in biomaterials from native, derived, or completely synthetic origin, or a combination thereof. It presents data and insights from both historic and contemporary research that spans over six decades with a view to generate convergence of interdisciplinary knowledge and skills. Divided into four parts, this book first introduces the reader to a general overview of electrically active materials in biology and biomedical science and describes important concepts and pioneering discoveries. The second part discusses common types of materials that are known to generate electrical activity and lays the foundation for these materials for use in medical devices. The third part gives examples of where electrically active materials have been examined for device application. The final part looks for upcoming and emerging concepts, tools and methodologies that are expected to shape the future profile of this field of converging science. Written by specialists in their respective fields, it has been specifically targeted at a readership of professionals, graduate students and researchers in the fields of biomedical engineering, physics, chemistry biology and clinical medicine. Key Features: ○ Unique combination of fundamental science and application ○ A collection of the developments in the field that took place over the span of six decades ○ Contributions from pioneering and leading scientists and practitioners in the field ○ Easy to read approach, written at a non-specialist level ○ Content emphasises authors’ insights into the findings and significance there of rather than a mere technical discussions ○ Discussion on a number of therapeutic application areas in one book ○ First report of washable MRSA resistant textiles in a book ○ First discussion of encrustation and its solutions in a book ○ Protein and cellular interactions within the purview of clinical applications ○ Highly focused and mutually interlinked contents ○ Access to ground breaking research

Electrically Mediated Interactions at the Materials/Biology Interface (Syed A M Tofail and Joanna Bauer); Piezoelectricity and Electrostimulation in Bone (Eiichi Fukada); Hydroxyapatite: Past, Present and Future (Sidney B Lang); Engineered Bone Morphogenetic Protein for Hard Tissue Engineering (Yoshihiro Ito); Bioenergetics as a Biological Electrical Circuit (Mohamed Radzi Noor and Tewfik Soulimane); Organic Ferroelectrics (Stephen Ducharme); Basics of Ceramic Hydroxyapatite Electrets (Kimihiro Yamashita); Surface Modification and Electro-thermal Polarization for Bone Tissue Engineering (Subhadip Bodhak, Susmita Bose and Amit Bandyopadhyay); Electro-Thermal Polarization of Hydroxyapatite Ceramics and Coatings for Bone Tissue Engineering Applications (Subhadip Bodhak, Susmita Bose and Amit Bandyopadhyay); Low Temperature Poling and Piezoelectric Behaviour in Calcium Phosphates (Abbasi A Gandhi, Ciarra Quinn and Syed A M Tofail); Ferroelectricity in Synthetic Biomaterials: Hydroxyapatite and Polypeptides (Maxim Ivanov, Svitlana Kopyl, Syed A M Tofail, Kate Ryan, Brian J Rodriguez, Vladimir Ya Shur and Andrei L Kholkin); Biological Activity on Piezoelectric PVDF (Marc A Fernandez-Yague, Catalina Vallejo-Giraldo, Gemma Orpella Aceret, Abhay Pandit and Manus J Biggs); Photocatalytic and Antimicrobial Properties of Silver Phosphate, Hydroxyapatite and Their Composites (Olivier Monfort, Ewa Dworniczek, Gustav Plesch); Photocatalytic and Antimicrobial Activity of Titania Nanoparticles (Ewa Dworniczek, Roman Franiczek, Katarzyna Kowal, Igor Buzalewicz, Halina Podbielska, Syed AM Tofail and Joanna Bauer); Nanosilver and Silver Doped Nanomaterials (Joanna Bauer, Katarzyna Kowal, Katarzyna Wysocka-Król and Halina Podbielska); Contact Poling of Polyurethane, Charge Stability and Interactions with P Mirabilis (Abassi A Gandhi, Olga Korostynska, Sylvain Robin, Fathima Laffir, Tewfik Soulimane, Shay Lavelle and Syed A M Tofail); Physiological Role of Piezoelectricity in Biological Building Blocks (Aimee Stapleton, Mohamed R Noor and Syed AM Tofail); Intelligent Gels: Soft and Wet Nano-Machine of the Next Era (Ken-Ichi Sano, Ryuzo Kawamura and Yoshihito Osada); Detection of Protein Adsorption on Hydroxyapatite Using Electromagnetic Sensors (Marcela Salazar-Alvarez, Olga Korostynska, Alex Mason, Syed A M Tofail and Edmond Magner); Intracoronary Application of TiO2 Coated Cardiovascular Stents (Magdalena Wawrzyńska, Marta Kopaczyńska, Beata Sobieszczańska, Agnieszka Ulatowska-Jarża, Iwona Hołowacz, Dariusz Biały, Urszula Pasławska, Łukasz Wasyluk, Syed AM Tofail, Joanna Bauer and Halina Podbielska); Energy Harvesting with Biomaterials (Indrani Coondoo, Svitlana Kopyl, Maxim Ivanov, Vladimir Ya Shur and Andrei L Kholkin); Washable, Photosterilizable Antimicrobial Textiles (Katarzyna Kowal, Patrick Cronin, Ewa Dworniczek, Jacek Zeglinski, Igor Buzalewicz, Magdalena Wawrzynska, Halina Podbielska, Peter Tiernan, Joanna Bauer, Mohamed R Noor, Tewfik Soulimane and Syed AM Tofail); Durability of Antimicrobial Textiles (Katarzyna Kowal, Patrick Cronin, Joanna Bauer, Peter Tiernan Halina Podbielska and Syed AM Tofail); Antimicrobial Air Filters (Mohamed Radzi Noor, Katarzyna Kowal, Peter Tiernan, Tewfik Soulimane and Syed AM Tofail); Photocatalytic and Antibacterial Functionality Evaluation of Nano-boron Coated Textiles (Wazir Akbar, Ayse Karagoz, Gozde Aktas and G Bahar Basim); Direct e-Beam Poling of Microdomains in Hydroxyapatite Thin Films (Maros Gregor, Tomas Plecenik and Andrej Plecenik); Interaction of Bone Proteins and Cells with Electrostatic Domains on Hydroxyapatite films (Marcela Salazar-Alvarez, Mohamed Radzi Noor, Tewfik Soulimane, Edmond Magner and Syed A M Tofail); Hydroxyapatite Thick Films as Pressure Sensors (Olga Korostynska, Giorgi Gigilashvili, Alex Mason and Syed A M Tofail); Piezoresponse Force Microscopy for Bioelectromechanics (Kate Ryan, Sabine M Neumayer, Denise Denning, Jill Guyonnet, Ensieh Hosseini, Arwa Bazaid, Andrei L Kholkin and Brian J Rodriguez); Label Free Infra-Red Nanoscopy: Impact on Biology and Medical Devices (Susan M Daly, Rabah Mouras, Christophe Silien and Syed A M Tofail); Electroporation in Modern Oncology (Joanna Wezgowiec, Julita Kulbacka and Malgorzata Kotulska); Harnessing Nanoscale Physics for Next-Generation Electronic Medical Devices (Shane O’Mahony, Pierre-Andre Cazade and Damien Thompson); Electromechanics of Bone: Mechanobiological Considerations (Siobhan Coyle, Brian Lenehan and David A Hoey); Electro-Bio-Chemical Investigation by Integrated Hybrid Nanoscopes (Lekshmi Kailas and Syed A M Tofail);

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