05493nam 2200709 a 450 991095504790332120250123182010.0978352765145035276514549783527651474352765147097835276514813527651489(CKB)2560000000104417(EBL)1211846(OCoLC)851161681(SSID)ssj0001013185(PQKBManifestationID)11574417(PQKBTitleCode)TC0001013185(PQKBWorkID)10953330(PQKB)10326377(MiAaPQ)EBC1211846(Au-PeEL)EBL1211846(CaPaEBR)ebr10718843(CaONFJC)MIL497743(MiAaPQ)EBC7104664(Au-PeEL)EBL7104664(Perlego)999734(EXLCZ)99256000000010441720130617d2013 uy 0engur|n|---|||||txtccrNanomachines fundamentals and applications /Joseph WangWeinheim an der Bergstrasse, Germany Wiley-VCHc20131 online resource (174 p.)New York Academy of Sciences Ser.Description based upon print version of record.9783527331208 3527331204 Includes bibliographical references at the end of each chapters and index.Cover; Related Titles; Title page; Copyright page; Contents; Preface; 1: Fundamentals - Small-Scale Propulsion; 1.1 Introduction; 1.2 Nanomachines History; 1.3 Challenges to Nanoscale Propulsion; 1.4 Low Reynolds Number Hydrodynamics; References; 2: Motion of Natural Nanoswimmers; 2.1 Introduction; 2.2 Chemically Powered Motor Proteins; 2.2.1 Biological Motors: Active Workhorses of Cells; 2.2.2 Protein Motors: Basic Operation; 2.2.3 Kinesins; 2.2.4 Myosins; 2.2.5 Dyneins; 2.2.6 Biomotor-based Active Nanoscale Transport in Microchip Devices; 2.3 Rotary Biomotors; 2.4 Swimming Microorganisms2.4.1 Bacterial Flagella - Escherichia coli2.4.2 Sperm Motility; 2.4.3 Cilia-Driven Swimming of Paramecium; 2.4.4 Bacteria Transporters and Actuators; References; 3: Molecular Machines; 3.1 Stimuli-Responsive Rotaxane, Pseudorotaxane, and Catenane Nanomachines; 3.2 Molecular Rotary Motors; 3.3 Light-Driven Molecular Machines based on cis-trans Photoisomerization; 3.3.1 Azobenzene-based Nanomachines; 3.4 Nanocars; 3.5 DNA Nanomachines; 3.5.1 Autonomous Enzyme-Assisted DNA Nanomachines; 3.5.2 DNA Spiders; 3.5.3 pH and Light Switchable DNA Machines; References4: Self-Propelling Chemically Powered Devices4.1 Self-Propelling Catalytic Nanowires; 4.1.1 Propulsion Mechanism of Catalytic Nanowire Motors; 4.1.2 Magnetically Directed Movement of Catalytic Nanowire Motors; 4.2 Catalytic Tubular Microengines; 4.2.1 Bubble-Propulsion Mechanism of Tubular Microengines; 4.2.2 Preparation of Tubular Microengines; 4.3 Catalytic Janus Microparticles: Spherical Motors; 4.3.1 Preparation of Catalytic Janus Particle Motors; 4.3.2 Propulsion Mechanisms of Catalytic Janus Spherical Motors; 4.4 Controlled Motion of Chemically Powered Nano/Microscale Motors4.4.1 Thermally Controlled Nanomotors4.4.2 Light Control of Catalytic Motors; 4.4.3 Potential Control of Catalytic Motors; 4.5 Alternative Fuels for Chemically Powered Micro/Nanoscale Motors; 4.6 Collective Behavior: Toward Swarming and Chemotaxis; 4.6.1 Triggered Self-Organization of Microparticles; 4.6.2 Chemotaxis: Movement along Concentration Gradients; 4.7 Biocatalytic Propulsion; 4.8 Motion Based on Asymmetric Release of Chemicals; 4.9 Polymerization-Induced Motion; References; 5: Externally Powered Nanomotors - Fuel-Free Nanoswimmers; 5.1 Magnetically Driven Nanomotors5.1.1 Helical Propellers5.1.2 Flexible Swimmers; 5.1.3 Surface Walkers; 5.1.4 Magnetically Actuated Artificial Cilia Array; 5.2 Electrically Driven Nanomotors; 5.2.1 Motion of Miniature Diodes; 5.2.2 Micromotors Driven by Bipolar Electrochemistry; 5.3 Ultrasound-Actuated Micromotors; 5.4 Light-Driven Micromotors; 5.5 Hybrid Nanomotors; References; 6: Applications of Nano/Microscale Motors; 6.1 Cargo Towing: Toward Drug Delivery; 6.1.1 Cargo-Loading Schemes; 6.1.2 Cargo Release Strategies; 6.1.3 Drug Delivery: Realizing the Fantastic Voyage Vision; 6.2 Biosensing and Target Isolation6.2.1 Biomotor-Driven Sensing: Toward "Smart Dust" DevicesThis first-hand account by one of the pioneers of nanobiotechnology brings together a wealth of valuable material in a single source. It allows fascinating insights into motion at the nanoscale, showing how the proven principles of biological nanomotors are being transferred to artificial nanodevices.As such, the author provides engineers and scientists with the fundamental knowledge surrounding the design and operation of biological and synthetic nanomotors and the latest advances in nanomachines. He addresses such topics as nanoscale propulsions, natural biomotors, molecular-scale machinNew York Academy of Sciences Ser.NanotechnologyNanotechnology.620.5Wang Joseph441119MiAaPQMiAaPQMiAaPQBOOK9910955047903321Nanomachines4365124UNINA