Difference between revisions of "Encyclopedia of NanoScience and Nanotechnology"
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'''Alphabetical Classification of NanoScience and NanoTechnology''' | '''Alphabetical Classification of NanoScience and NanoTechnology''' | ||
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[[:Category:Z|Z]] | [[:Category:Z|Z]] | ||
| − | '''Subject Classification of NanoScience and NanoTechnology''' | + | '''756 Topics in Subject Classification of NanoScience and NanoTechnology''' |
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| + | A New Entry: | ||
| + | * <big style="font-size:150%;">[[Nanoimprint Lithography]]</big> | ||
| + | |||
| + | by Dr. '''Helmut Schift'''[[http://www.nanopedia.org/index.php?title=Schift_Helmut]], ODRA/103, 5232 Villigen PSI, Schweiz (Switzerland) | ||
| + | * <big style="font-size:150%;">[[A Review of Tip-based Nanofabrication]]</big> | ||
| + | by Dr. '''Huan Hu''', ZJU-UIUC Joint Institute, International Campus, Zhejiang University, Haining, Zhejiang 314400, China. | ||
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| + | |||
| + | __TOC__ | ||
| + | ='''Advenced Materials'''= | ||
| + | ==AB Initio Microdynamic Approaches for Nanomaterials Simulation== | ||
| + | |||
| + | [[File:Panel1.png|thumb|400px|Figure 1.|Figure 1. Different types of tip-based nanofabrication technologies using AFM as the implementation platform]] | ||
| + | |||
| + | ==Bio Sources for Materials & Fuels== | ||
| + | ==Block Copolymers as Nanoreactors== | ||
| + | ==Borophene & Applications== | ||
| + | ==Carbon Nanostructures & Devices== | ||
| + | ==Characterization of Nanomaterials== | ||
| + | ==CNT-Metal Nanoparticle Composites== | ||
| + | ==Complex Inorganic Nanostructures Based on Nanotubes== | ||
| + | ==Food Technology== | ||
| + | ==Graphene, Fullerenes, Carbon Nanotubes, Low-Dimension Nanostructures== | ||
| + | ==Inorganic/Organic Nanomaterials== | ||
| + | ==Metal Oxide Nanotubes, Chalcogenide Nanotubes== | ||
| + | ==Nano Fibers, Nanotubes, Nanoclays, Nanodots, Nanohelices & Nanorods== | ||
| + | ==Nanocatalysts== | ||
| + | ==Nanocomposites / Bionanocomposites Materials== | ||
| + | ==Nanofluids== | ||
| + | ==Nanomagnetic Materials== | ||
| + | ==Nanomaterial & Biological Activity== | ||
| + | ==Nanoparticles Synthesis & Applications== | ||
| + | ==Nanostructured/Nanoporous Materials & Devices== | ||
| + | ==Nanostructured Coatings, Surfaces & Membranes== | ||
| + | ==Optically Responsive Polymer Nanocomposites== | ||
| + | ==Organic/ Inorganic Nanoparticles== | ||
| + | ==Organic/Inorganic Hybrid Nanomaterials== | ||
| + | ==Photo-Crosslinkable Nano-Objects== | ||
| + | ==Physicochemical Properties Of Nanomaterials== | ||
| + | ==Polymer Nanotechnology== | ||
| + | ==Printed Materials & Systems== | ||
| + | ==Quantam Properties of Nanostructures== | ||
| + | ==Self-Assembling Nanoclusters== | ||
| + | ==Semiconductors, Metals, Ceramics, Polymers== | ||
| + | ==Semiconductors, Metals, Ceramics, Polymers== | ||
| + | ==Soft Nanotechnology & Colloids== | ||
| + | ==Thin Films Modeling, Scale Effects, Nanostructured Thin Films== | ||
| + | |||
| + | ='''Advances in Graphene Physics'''= | ||
| + | ='''Applications of NanoMaterials'''= | ||
| + | ==Bandgap Engineered Quantum Devices== | ||
| + | ==Biological Applications of Nanoparticles== | ||
| + | ==Carbon Nanotube Emitters== | ||
| + | ==Catalysis by Gold Nanoparticles== | ||
| + | ==Energy Applications of Nanomaterials== | ||
| + | ==Molecular Electronics & Nanoelectronics== | ||
| + | ==Nanobots== | ||
| + | ==Nanomechanics== | ||
| + | ==Photonic Crystals & Plasmon Waveguides== | ||
| + | ='''Applications of Nanotechnology'''= | ||
| + | ==Green Nanotechnology== | ||
| + | ==Industrial & Textile Applications== | ||
| + | ==Industrial Applications of Nanotechnology== | ||
| + | ==Nano Art== | ||
| + | ==Nano Fabrication== | ||
| + | ==Nano Safety== | ||
| + | ==Nanomaterial & Nanoparticle Applications== | ||
| + | ==Nanotechnology Applications in Solar Cells== | ||
| + | ==Nanotechnology for Security & Defense== | ||
| + | ==Nanotechnology in Civil & Mechanical Engineering== | ||
| + | ==Potential Applications of Carbon Nanotubes== | ||
| + | ==Renewable & Sustainable Energy Applications== | ||
| + | ==Space Nanotechnology== | ||
| + | ='''Bio NanoTechnology'''= | ||
| + | ==Carbon Nanotechnology== | ||
| + | ==Cellular Engineering== | ||
| + | ==DNA Nanotechnology== | ||
| + | ==Gene Therapy== | ||
| + | ==Green Nanotechnology== | ||
| + | ==Lipid Nanotechnogy== | ||
| + | ==Nanobiology== | ||
| + | ==Protein Nanotechnology== | ||
| + | ='''Bio NanoMaterials & Bio Medical Devices, Applications'''= | ||
| + | ==Arrays of Nanowires for Cellular Applications== | ||
| + | ==Biological & Environmental Surface Interactions of Nanomaterials surface Interactions of Nanomaterials== | ||
| + | ==Biologically Inspired Nano Devices== | ||
| + | ==Biomedical Applications of Gold Nanomaterials== | ||
| + | ==Biosurface Engineering== | ||
| + | ==Controlled Self-Assembly of Re-Engineered Insulin== | ||
| + | ==Curvature on The Properties of Nanomaterials & Biomedical Applications== | ||
| + | ==Dendrimer‐Based Nanocarriers== | ||
| + | ==Direct Chemoselective Synthesis of Glyconanoparticles== | ||
| + | ==DNA‐Based Plasmonic Nanoarchitectures & Uses== | ||
| + | ==Enhanced Electrochemical DNA Sensing== | ||
| + | ==G-Protein Coupled Receptor Signaling at The Nanoscale== | ||
| + | ==Interactions of Nanomaterials with the Immune System== | ||
| + | ==Lanthanide‐Doped Hollow Nanomaterials== | ||
| + | ==Lipid-Coated Nanocrystals & Applications== | ||
| + | ==Membrane Protein Multiplexed Nano-Arrays== | ||
| + | ==Membrane Proteins as Natural Nanomachines== | ||
| + | ==Multifunctional Plasmonic Nanoparticles: Biomedical Applications== | ||
| + | ==Nanobioorganic Chemistry== | ||
| + | ==Nanomagnetic Materials & Applications== | ||
| + | ==Nanomaterial‐Based Advanced Immunoassays== | ||
| + | ==Nanomaterials: Orthopedic Implantable Medical Devices== | ||
| + | ==Nanostructured Bladder Tissue Replacements== | ||
| + | ==Nanowire Arrays & Cell Based Biosensing== | ||
| + | ==Nanowire Based Cell Impalement Devices & Uses== | ||
| + | ==Peptide Nanostructures in Biomedical Technology== | ||
| + | ==Prediction of Cell Settling on Nanostructure Arrays== | ||
| + | ==QSAR Modeling of Nanomaterials== | ||
| + | ==Single Domain Antibodies for High Quality Surface Plasmon Resonance Studies== | ||
| + | ==Structure & Function of Biological Systems on the Nanoscale== | ||
| + | ==Vertical Nanowire Arrays for Protein Detection & Analysis== | ||
| + | ==Virus‐Based Nanomaterials== | ||
| + | ='''Biosensors, Diagnostics & Imagining'''= | ||
| + | ==Analytical Approaches & Instrumentation== | ||
| + | ==Nanoparticles & Imaging Technology== | ||
| + | ==Novel Approaches for Diagnostics== | ||
| + | ==Sensing in the Environment== | ||
| + | ='''Cancer NanoTechnology'''= | ||
| + | ==Chemotherapy== | ||
| + | ==DNA Nanorobots== | ||
| + | ==Nano Colloids== | ||
| + | ==Nano Materials for Cancer Diagnosis & Therapy== | ||
| + | ==Nanotheranostics for Cancer== | ||
| + | ==RNA Nanotechnology for Cancer Treatment== | ||
| + | ==Target Based Drug Delivery== | ||
| + | ='''Carbon Based Nanomaterial’s & Devices'''= | ||
| + | ==Carbon Nanoparticles== | ||
| + | ==Carbon nanotechnology== | ||
| + | ==Carbon Nanotubes== | ||
| + | ==Device Components & Devices== | ||
| + | ==Graphene== | ||
| + | ==Materials Application== | ||
| + | ='''Carbon Nano Chips & Nanostructures'''= | ||
| + | ='''Characterization & Properties of Nanomaterials'''= | ||
| + | ==Chemical Characterization== | ||
| + | ==Magnetic Properties== | ||
| + | ==Mechanical Properties== | ||
| + | ==Optical Properties== | ||
| + | ==Physical Properties Of Nanomaterials== | ||
| + | ==Thermal Properties== | ||
| + | ='''Chemistry & Biology Studies of Graphene'''= | ||
| + | ==Biological Interactions Of Graphene-Family Nanomaterials== | ||
| + | ==Chemical & Biological Graphene Sensors== | ||
| + | ==Graphene-Assisted Laser Desorption/Ionization for Mass Spectrometry== | ||
| + | ==Graphene-Enhanced Cell Differentiation & Growth== | ||
| + | ==Precise Biosensing Through Graphene-Quenched Fluorescence== | ||
| + | ='''Computation, Simulation & Modeling of Nanostructures, Nano Systems & Devices'''= | ||
| + | ==Applications Of Nanomaterials Modelling== | ||
| + | ==Assembly Operations Using Molecular Manipulators== | ||
| + | ==Atomistic Quantum Transport Simulations== | ||
| + | ==Combinational Logic & Finite-State Machines== | ||
| + | ==Mechanics Of Nanomaterials== | ||
| + | ==Microstructure-Based Models & Dislocation Analysis== | ||
| + | ==Multiscale Methods for Charge/Heat Transport for Nano-Meso Scale Devices== | ||
| + | ==Multiscale Modelling for the Materials Improvement & Design== | ||
| + | ==Nanostructured Metals: Manufacturing & Modelling== | ||
| + | ==Nanostructured Multiphase Alloys== | ||
| + | ==Non-Equilibrium Thermodynamics== | ||
| + | ==Quantum Mechanics for Modelling of Nanomaterials== | ||
| + | ==Simulation of Organic Semiconductor Devices== | ||
| + | ==Software for Modelling of Nanomaterials== | ||
| + | ==Technologies Based on Alternative Materials== | ||
| + | ='''Computational Nanotechnology'''= | ||
| + | ==Computational Hub for Nanotechnology== | ||
| + | ==Mechanics of Nano Materials== | ||
| + | ==Microstructure-Based Models & Dislocation Analysis== | ||
| + | ==Multiscale Modelling for The Materials Improvement & Design== | ||
| + | ==Software for Modelling of Nano Materials== | ||
| + | ='''DNA Nanotechnology'''= | ||
| + | ==DNA Origami== | ||
| + | ==DNA Polyhedra== | ||
| + | ==Dynamic DNA Nanotechnology== | ||
| + | ==Properties of Nucleic Acids== | ||
| + | ==Structural & Sequence Designing== | ||
| + | ==Structural DNA Nanotechnology== | ||
| + | ==Three-Dimensional Arrays== | ||
| + | ='''Drug Delivery & Therapeutics'''= | ||
| + | ==Drug Delivery for the Cardiovascular System== | ||
| + | ==Drug Delivery for the Central Nervous System== | ||
| + | ==Drug Delivery for Musculo-Skeletal Disorders== | ||
| + | ==Drug Delivery for the Reproductive System or Urinary System== | ||
| + | ==Drug Delivery for the Immune System== | ||
| + | ==Drug Delivery for Allergic Disorders== | ||
| + | ==Drug Delivery for Nutrition== | ||
| + | ==Nanocapsules for Drug Delivery== | ||
| + | ='''Emerging Trends in Nanotechnology'''= | ||
| + | ==Calculus== | ||
| + | ==Chemistry== | ||
| + | ==Computer Science== | ||
| + | ==Engineering== | ||
| + | ==Miniaturization== | ||
| + | ==Physics== | ||
| + | ==Quantum Mechanics== | ||
| + | ==Robotics== | ||
| + | ==Science== | ||
| + | ==Self-organization== | ||
| + | ==Supramolecular Chemistry== | ||
| + | ='''Emerging Trends in the Field of Graphene nano'''= | ||
| + | ==A Molecular Light-Driven Nanosubmarine== | ||
| + | ==A Nanowrench in the Works== | ||
| + | ==Bubble Pen To Write with Nano Particles== | ||
| + | ==Development of Intelligent Wearable Systems Using Nano Technology== | ||
| + | ==Emerging Opportunities for Graphene-Based Materials== | ||
| + | ==Latest Developments in Graphene Production Methods Towards Wide Scale Commercialization== | ||
| + | ==Nano Fibre Compared with Human Hair== | ||
| + | ==Nano Produces Self-Replicating Microscopic Robots== | ||
| + | ==Nanopores Could Take the Salt Out of Seawater== | ||
| + | ==Nanosensors To Replace RFID Chips on Consumer Products== | ||
| + | ==Nanotechnology Changes Behaviour of Materials Used in Solar -Cells== | ||
| + | ==Nanowires as Hair Spray== | ||
| + | ==Remote Sensing Through Nano Unmanned Aerial Vehicles & Satellites== | ||
| + | ='''Energy Systems & NanoTechnology'''= | ||
| + | ==Electrochemistry in Nanotechnology== | ||
| + | ==Energy Applications of Nanotechnology== | ||
| + | ==Fuel Cells & Hydrogen Storage== | ||
| + | ==Geothermal Energy== | ||
| + | ==Low-Energy Nuclear Reactions (LENR)== | ||
| + | ==Photovoltaic Devices== | ||
| + | ='''Environment, Health & Safety Issues'''= | ||
| + | ==Air Emissions & Ambient Air Quality== | ||
| + | ==Community Health & Safety== | ||
| + | ==Ethical & Social Issues== | ||
| + | ==Hazardous Materials Nano Management== | ||
| + | ==Nanotechnology for Water - Challenges & Solutions== | ||
| + | ==Nanotechnology in Biological Hazard Management== | ||
| + | ==Nanotechnology in Ozone Deplition== | ||
| + | ==Nanotechnology in Physical Hazard Management== | ||
| + | ==Nanotechnology in Pollution Prevention== | ||
| + | ==Nanotechnology in Radiological Hazard Management== | ||
| + | ==Regulation of Nanotechnology== | ||
| + | ==Risks of Nanotechnology== | ||
| + | ='''Future Prospects Of Nanotechnologies & Commercial Viability'''= | ||
| + | ==Brain-Inspired Devices for Artificial Systems== | ||
| + | ==Diamond Nanothreads== | ||
| + | ==DNA-Based Single-Electron Electronic Devices== | ||
| + | ==Light-Seeking Synthetic Nano Robot== | ||
| + | ==Liquid-Repellent Materials== | ||
| + | ==Multi-Function Chips== | ||
| + | ==Nanomedicine For Improved HIV Drug Therapies== | ||
| + | ==Other Potenial Innovative Ideas== | ||
| + | ==Phase-Change Devices & Applications== | ||
| + | ==Quantum Photonic Circuits & Applications== | ||
| + | ==Self-Healable Batteries== | ||
| + | ==Smart Textiles== | ||
| + | ==Smarter Self-Assembly== | ||
| + | ==Super-Powered Bionic Plants== | ||
| + | ==Thermoelectric Screen Printing== | ||
| + | ==Uses of Nano-Materials & Components in Space Exploration== | ||
| + | ='''Graphene Supercapacitors'''= | ||
| + | ==Combining Graphene with Manganese Oxide To Create Innovative Supercapacitors== | ||
| + | ==Graphene Supercapacitors Could Be Printed Onto a DVD== | ||
| + | ==Graphene-Based Supercapacitor Declared To Someday Replace Lithium-Ion Batteries== | ||
| + | ==New 3D Printed Graphene Supercapacitors== | ||
| + | ==New Graphene-Based Supercapacitor Can Store as Much Energy as a NiMH Battery== | ||
| + | ='''Graphene & 2D Materials Based Nanocomposites'''= | ||
| + | ==Characterisation & Modelling of Graphene Materials in Composites== | ||
| + | ==Chemisry of 2-D Materials== | ||
| + | ==Correlation Effects in Graphene & 2D Materials== | ||
| + | ==Fundamental Science of Graphene & 2D Materials Beyond Graphene== | ||
| + | ==Graphene Composites== | ||
| + | ==Science & Applications of Graphene & New 2D Materials== | ||
| + | ='''Graphene & Biomaterials for Health Care'''= | ||
| + | ==Biocomposites== | ||
| + | ==Biodegradable Biomaterials== | ||
| + | ==Biomolecular Materials== | ||
| + | ==Biophysics & Biotechnology== | ||
| + | ==Drug Delivery System== | ||
| + | ==Graphene Bioplastics== | ||
| + | ==Graphene Materials== | ||
| + | ==Vaccines== | ||
| + | ='''Graphene & Applications'''= | ||
| + | ==Applications Of Graphene in Energy== | ||
| + | ==Biological & Toxicity Aspects of Graphene, Graphene Oxide== | ||
| + | ==Biological Interactions of Graphene-Family Nanomaterials== | ||
| + | ==Carbon Nanotubes & Graphene== | ||
| + | ==Characterisation & Modelling of Graphene Materials In Composites== | ||
| + | ==Chemical Functionalisation of Graphene== | ||
| + | ==Chemistry & Biology Studies of Graphene== | ||
| + | ==Controlled Functionalisation of Graphene Oxide Through Surface Modification== | ||
| + | ==Electronic, Optoelectronic Properties of 2D Materials== | ||
| + | ==Graphene & 2D Material Sensors== | ||
| + | ==Graphene & 2D Materials Based Nanocomposites== | ||
| + | ==Graphene & Graphene Oxides== | ||
| + | ==Graphene Based Nanoelectronic Devices== | ||
| + | ==Graphene Based Nanofluids & Nano Lubricants== | ||
| + | ==Graphene for Plasmonics & Optics== | ||
| + | ==Graphene Modification & Functionalization== | ||
| + | ==Graphene Supercapacitors & Graphene Polymer Batteries== | ||
| + | ==Graphene Synthesis== | ||
| + | ==Graphene-Assisted Laser Desorption/Ionization for Mass Spectrometry== | ||
| + | ==Spectroscopy, Metrology & Microscopy Of Graphene & 2D Materials== | ||
| + | ==Surface Chemistry on Graphene & 2D Materials== | ||
| + | ==Synthesis of Graphene & New 2D Materials== | ||
| + | ==Synthesis of Patterned Graphene Films== | ||
| + | ='''Graphene & Graphene Oxide'''= | ||
| + | ==Graphene & Graphene Oxide for Energy (Battery, Capacitor, Catalysis, Solar)== | ||
| + | ==Graphene Based Nanoelectronic Devices== | ||
| + | ==Graphene For Plasmonics & Optics== | ||
| + | ==Growth of Large Area Graphene== | ||
| + | ==Physics & Chemistry Of Graphene== | ||
| + | ==Reduction of Graphene Oxide== | ||
| + | == Synthesis, Characterization, Properties, & Applications== | ||
| + | ='''Graphene Application Technology'''= | ||
| + | ==Anti-Corrosion Coatings== | ||
| + | ==Application of Graphene Film== | ||
| + | ==Building Materials== | ||
| + | ==Catalyst== | ||
| + | ==Desalination== | ||
| + | ==Fuel Cells== | ||
| + | ==Key Fabrication Equipment== | ||
| + | ==Lubrication Materials== | ||
| + | ==Metal Composites== | ||
| + | ==Rubber Composites== | ||
| + | ==Sensors== | ||
| + | ==Solar Cells== | ||
| + | ='''Graphene Chemistry'''= | ||
| + | ='''Graphene Modification & Functionalisation'''= | ||
| + | ==2D Materials Heterostructures & Superstructures== | ||
| + | ==Chemical Functionalisation of Graphene== | ||
| + | ==Controlled Functionalisation of Graphene Oxide Through Surface Modification== | ||
| + | ==Field Emission From Graphene== | ||
| + | ==Graphene Based Nanofluids & Nano Lubricants== | ||
| + | ==Graphene Based Products== | ||
| + | ='''Graphene Nano in Energy & Storage'''= | ||
| + | ==Electrical Energy Storage== | ||
| + | ==Generation of Chemical Energy Resources.== | ||
| + | ==Graphene Enables Long Lasting Lithium-Air Batteries== | ||
| + | == Graphene Features as a Transparent Electrode.== | ||
| + | ==Graphene-Based Batteries== | ||
| + | ==Hydrogen Technologies== | ||
| + | ==Increasing The Efficiency of Energy Production== | ||
| + | ==Nuclear Acident Cleanup & Waste Storage== | ||
| + | ==Revolutionary Graphene Polymer Batteries for Electric Cars== | ||
| + | ==Solarthermal Energy== | ||
| + | ==Sustainable Technologies== | ||
| + | ='''Graphene-like 2D Materials'''= | ||
| + | ==Applications Of 2dmaterials In Electronics, Photonics, Energy & Biomedicine== | ||
| + | ==Chemistry & Modification of 2D materials== | ||
| + | ==Electronic, Optoelectronic Properties & Potential Applications== | ||
| + | ==Growth, Synthesis Techniques & Integration Methods== | ||
| + | ==Integration Of Graphene With Other 2D Materials== | ||
| + | ==Structural, Electronic, Optical & Magnetic Properties of 2D Materials & Devices== | ||
| + | ='''Graphene: Synthesis, Properties & Phenomena'''= | ||
| + | ='''Graphite, Graphene & Their Polymer Nano Composites'''= | ||
| + | ='''Health Impact of Nanotechnology'''= | ||
| + | ==Effect of Nanoparticles on Brain== | ||
| + | ==Effect of Nanoparticles on Circulatory System== | ||
| + | ==Effect of Nanoparticles on Gastro-Intestinal System== | ||
| + | ==Effect of Nanoparticles on Heart== | ||
| + | ==Effect of Nanoparticles on Lungs== | ||
| + | ==Effect of Nanoparticles on Lymphatic System== | ||
| + | ==Effect of Nanoparticles on Orthopedic Implant== | ||
| + | ==Effect of Nanoparticles on Other Organs== | ||
| + | ==Effect of Nanoparticles on Skin== | ||
| + | ='''Health, Safety & Environment'''= | ||
| + | ==Ethical & Social Issues== | ||
| + | ==Healthcare & Social Assistance== | ||
| + | ==Nanotechnology for Water== | ||
| + | ==Nanotechnology in Pollution Prevention== | ||
| + | ==Regulation of Nanotechnology== | ||
| + | ==Risks of Nanotechnology== | ||
| + | ='''Impact of Nano Biotechnology'''= | ||
| + | ==Economic Impact== | ||
| + | ==Environmental Impact== | ||
| + | ==Ethics & Regulations== | ||
| + | ==Societal Impact== | ||
| + | ==Traditional Approaches== | ||
| + | ='''Insilico Nanostructure Modelling'''= | ||
| + | ==ADF Modelling== | ||
| + | ==AMBER== | ||
| + | ==Conformational Analysis== | ||
| + | ==Free Energy Perturbation== | ||
| + | ==Gromacs== | ||
| + | ==Semi Emperical Method== | ||
| + | ='''Materials Science & Engineering'''= | ||
| + | ==Advances in Materials Science== | ||
| + | ==Energy Materials== | ||
| + | ==Mining & Metallurgy== | ||
| + | ==Synthesis & Processing== | ||
| + | ==Thermodynamics & Kinetics== | ||
| + | ==Transmission Electron Microscopy== | ||
| + | ='''Materiomics'''= | ||
| + | ==Anti-Encapsulation== | ||
| + | ==Bio-Inert Materials== | ||
| + | ==Bio-Metromics== | ||
| + | ==Cell Material Interactions== | ||
| + | ==Pro-Fixation== | ||
| + | ='''Medical Nanotechnology Devices'''= | ||
| + | ==Emerging Device Challenges in Futuristic Nanoelectronics== | ||
| + | ==Microfluidics & Microfabrication== | ||
| + | ==Nano MEMS== | ||
| + | ==Nanodiamond Devices== | ||
| + | ==Nanoelectronics== | ||
| + | ==Nano-Optics== | ||
| + | ==Nanorobotics & Nanomanufacturing== | ||
| + | ==Spintronics== | ||
| + | ='''Micro/Nano-fabrication, Nano patterning, Nano Lithography & Nano Imprinting'''= | ||
| + | ==AFM Characterization of Nanometer Scale Devices== | ||
| + | ==Atomic Force Microscopy(AFM) & Functional AFM Probes== | ||
| + | ==Colloid Monolayer Lithography== | ||
| + | ==Electrically Induced Nanopatterning & Rapid Prototyping== | ||
| + | ==Electron Beam Lithography== | ||
| + | ==Film Deposition, Etching & Bonding== | ||
| + | ==Focused Ion Beam Lithography== | ||
| + | ==Laser Printing of Single Nanoparticles== | ||
| + | ==Magnetolithography & Nanosphere Lithography== | ||
| + | ==Molecular Self Assembly== | ||
| + | ==Multiphoton Lithography== | ||
| + | ==Nanoimprint Lithography== | ||
| + | |||
| + | ==Neutral Particle Lithography== | ||
| + | ==Photolithography & Soft Lithography== | ||
| + | ==Proton Beam Writing & Charged-Particle Lithography== | ||
| + | ==Scanning Probe Lithography== | ||
| + | ==Thin Film Technologies== | ||
| + | ==Top-Down & Bottom-Up Nanofabrication== | ||
| + | ==X-Ray Lithography & Ion Projection Lithography== | ||
| + | ='''Molecular Mimics'''= | ||
| + | ==Atom Shuttles== | ||
| + | ==Catenanes & Rotaxanes== | ||
| + | ==Chemical Rotors== | ||
| + | ==Flippers== | ||
| + | ==Molecular Switches== | ||
| + | ==Prodders== | ||
| + | ==Regulation & Ethical Impacts== | ||
| + | ==Rotaxanes & Molecular Computers== | ||
| + | ==Synthesis of Rotaxanes & Catenanes== | ||
| + | ==The Electron Driven Molecular Shuttle Switch== | ||
| + | ==The Light Driven Molecular Shuttle Switch== | ||
| + | ==The ph Driven Molecular Shuttle Switch== | ||
| + | ='''Molecular Nanotechnology'''= | ||
| + | ==Aerospace Transportation== | ||
| + | ==Atom Manipulation== | ||
| + | ==Atoms by Inference== | ||
| + | ==Electron Microscope== | ||
| + | ==Massive Parallelism== | ||
| + | ==Mechanosynthesis== | ||
| + | ==Microelectromechanical Devices== | ||
| + | ==Modern Transmission of Electron Microscope== | ||
| + | ==Molecular Assembler== | ||
| + | ==Molecular Electronics== | ||
| + | ==Molecular Engineering== | ||
| + | ==Molecular Machine== | ||
| + | ==Molecular Manufacturing== | ||
| + | ==Nanodots== | ||
| + | ==Nanomanipulator== | ||
| + | ==Nanotweezers== | ||
| + | ==Phased-Array Optics== | ||
| + | ==Positional Assembly== | ||
| + | ==Replicating Nanorobots== | ||
| + | ==Scanning Electron Microscope== | ||
| + | ==Scanning Probe Microscopy - Atomic Force Microscope== | ||
| + | ==Scanning Tunnelling Microscope== | ||
| + | ==Smart Materials== | ||
| + | ='''Nano Applications'''= | ||
| + | ==Aerospace & Vehicle Manufacturers== | ||
| + | ==Catalysis== | ||
| + | ==Manufacturing & Construction== | ||
| + | ==Military & Defence== | ||
| + | ==Textiles== | ||
| + | ='''Nano BioMaterials'''= | ||
| + | ==Bio Mineralization== | ||
| + | ==Bioimaging & Cancer Diagnosis== | ||
| + | ==Biomimetic Synthesis== | ||
| + | ==Fabrication Of Hybrid Micro Swimmers== | ||
| + | ==Photodynamic Therapy== | ||
| + | ='''Nano BioMechanics'''= | ||
| + | ==Bio-Nano ElectroMagnetic System(Bio-NEMS) & Biomedical Microelectromechanical Systems(Bio-MEMS)== | ||
| + | ==Computational Nanobiomechanics== | ||
| + | ==Instrumentation in Nano Biomechanics== | ||
| + | ==Mechanosynthesis== | ||
| + | ==Nanomechanical Computational Systems== | ||
| + | ='''Nano Biometrics'''= | ||
| + | ==Biological Computing- A Protein- Based 3D Optical Memory Based on Bacteriorhodopsin== | ||
| + | ==Ion Channels as Sensors== | ||
| + | ==Lipids as Nano - Bricks & Mortar== | ||
| + | ==Lipids Structure== | ||
| + | ==Molecular Mimics== | ||
| + | ==Self-Assembled Monolayers== | ||
| + | ==Self-Organizing Supra Molecular Structures== | ||
| + | ==Three Dimensional Structures Using a 20 Amino Acid Alphabet Nano Scale Motors== | ||
| + | ='''Nano Biomolecular Engineering'''= | ||
| + | ==Bio-Immobilization & Bio-Conjugation== | ||
| + | ==Bio-Molecular Engineering in Industry== | ||
| + | ==Biomolecular Engineering Techniques Involved in Polymer Chain Reaction== | ||
| + | ==Polymerase Chain Reaction== | ||
| + | ==Recombinant DNA== | ||
| + | ==Site-Directed Mutagenesis== | ||
| + | ='''Nano Biotechnology'''= | ||
| + | ==Bioluminescent Magnetic Nanoparticles== | ||
| + | ==Disease Diagnosis== | ||
| + | ==DNANanotechnology== | ||
| + | ==Gene Therapy== | ||
| + | ==Lipid Nanotechnology== | ||
| + | ==Nanoink== | ||
| + | ==Nanosystems== | ||
| + | ==Surface Modified Polystyrene Nanoparticles== | ||
| + | ==Target Specific Drug Delivery== | ||
| + | ==The Structural Nature of Bio Molecules== | ||
| + | ==Tissue Engineering== | ||
| + | ='''Nano Chemistry'''= | ||
| + | ==Compose of materials== | ||
| + | ==Graphene & Fullerenes== | ||
| + | ==Nanochemistry in Medicine== | ||
| + | ==Nanocomposites== | ||
| + | ==Nanocrystals & Clusters== | ||
| + | ==Nano-Electro-Mechanical Systems== | ||
| + | ==Nanozymes== | ||
| + | ==Nanolithography== | ||
| + | ==Nanotubes== | ||
| + | ==Uses of Nanochemicals== | ||
| + | ='''Nano Composites'''= | ||
| + | ==Ceramic Matrix Nanocomposites== | ||
| + | ==Composite Materials== | ||
| + | ==Metal Matrix Nanocomposites== | ||
| + | ==Polymer Matrix Nanocomposites== | ||
| + | ==Superparamagnetism== | ||
| + | ='''Nano Computational Modelling'''= | ||
| + | ==Industrial Applications of Nanomaterials Modelling== | ||
| + | ==Mechanics of Nanomaterials== | ||
| + | ==Microstructure-based Models & Dislocation Analysis== | ||
| + | ==Multiscale Modelling for the Materials Improvement & Design== | ||
| + | ==Nanostructured Multiphase Alloys== | ||
| + | ==Quantum Mechanics for Modelling of Nanomaterials== | ||
| + | ==Software for Modelling of Nanomaterials== | ||
| + | ='''Nano Electronic Devices'''= | ||
| + | ==Molecular Electronics== | ||
| + | ==Nano Fabrications== | ||
| + | ==Nano Radios== | ||
| + | ==Nanoionic== | ||
| + | ==Optoelectronic Devices== | ||
| + | ='''Nano Electronics'''= | ||
| + | ==Flexible Electronic Circuits== | ||
| + | ==Magnetoelectric Random Access Memory (MeRAM)== | ||
| + | ==Magnetoresistive Random Access Memory (MRAM)== | ||
| + | ==Nanoemmissive Display Panel== | ||
| + | ==Nanoparticle Organic Memory Field-Effect Transistor== | ||
| + | ==Nanotube Transistors== | ||
| + | ='''Nano Fluidics'''= | ||
| + | ==Membrane Science== | ||
| + | ==Microfluidic Cell Sorting & Analysis== | ||
| + | ==Nanofluidic Circuitry== | ||
| + | ==Nanofluidic Devices for DNA Analysis== | ||
| + | ==Nanofluidic Structures== | ||
| + | ==Tuneable Microlens Array== | ||
| + | ='''Nano Materials Synthesis & Characterisation'''= | ||
| + | ==Applications of Nano Materials & Devices== | ||
| + | ==Microscopy & Spectroscopic Methods of Measurement at the Nanoscale== | ||
| + | ==Size Dependence of Properties== | ||
| + | ='''Nano Medicine'''= | ||
| + | ==Biocompatibility== | ||
| + | ==Chromallocytes== | ||
| + | ==Dentifrobots== | ||
| + | ==Drug Delivery== | ||
| + | ==Pharmacytes== | ||
| + | ='''Nano Topography'''= | ||
| + | ==Biomimetic Microenvironment Topology== | ||
| + | ==Extra Cellular Matrix (ECM)== | ||
| + | ==Mechanosensitivity== | ||
| + | ==Nanoroughness== | ||
| + | ==Self-Renewal of Human Embryonic Stem Cells== | ||
| + | ='''Nano Toxicology'''= | ||
| + | ==Complications with Nanotoxicity Studies== | ||
| + | ==Computational Toxicology== | ||
| + | ==Cytotoxicity== | ||
| + | ==Ecotoxicology== | ||
| + | ==Genotoxicity== | ||
| + | ==Immunotoxicity== | ||
| + | ==Medical Toxicology== | ||
| + | ==Occupational Toxicology== | ||
| + | ==Regulation & risk Management== | ||
| + | ==Tolerogenic Nanoparticles== | ||
| + | ==Toxicity of Nanomaterials== | ||
| + | ='''Nano Weapons'''= | ||
| + | ==Metamaterial-based optical/EM invisibility suits== | ||
| + | ==Nanocomputers== | ||
| + | ==Nanothermite== | ||
| + | ==Smart Materials== | ||
| + | ='''Nanobiomaterials'''= | ||
| + | ==Biosensors & Biocatalysts== | ||
| + | ==Commercialisation & Exploitation of Nanoscience & Nanotechnology== | ||
| + | ==Hierarchial Organisation in Biological Systems== | ||
| + | ==Interface Between Biological & Nonbiological Entities at the Nanoscale== | ||
| + | ==Medical Devices & Drug Delivery== | ||
| + | ==Nanotechnology for Environmental, Health & Safety== | ||
| + | ==Properties of Cells, Amino acids, Polypeptides, Proteins, DNA/RNA== | ||
| + | ='''Nanophotonics'''= | ||
| + | ==Active Materials Bulk, Quantum Well, Wire Dot & Quantum Dot== | ||
| + | ==Definition of Photon== | ||
| + | ==Description of Light as an Electromagnetic Wave== | ||
| + | ==Fabrication of Photonic Devices, Quantum Dot Materials== | ||
| + | ==General Introduction== | ||
| + | ==Optical Devices== | ||
| + | ==Quantum Aspect of Light== | ||
| + | ==Review of Fundamentals of Lasers== | ||
| + | ='''Nanoscale'''= | ||
| + | ==Chemical Reactivity== | ||
| + | ==Electron & Optical Properties== | ||
| + | ==Mechanical Properties== | ||
| + | ==Molecules & Surfaces== | ||
| + | ==Nucleation== | ||
| + | ==Quantum Smallness== | ||
| + | ==The Size Of Atoms== | ||
| + | ='''Nanoscience & Technology'''= | ||
| + | ==Biogenic Nanoparticles== | ||
| + | ==Carbon Nanotechnology== | ||
| + | ==Exposure Scenarios== | ||
| + | ==Nanomagnetics== | ||
| + | ==Nanospinitronics== | ||
| + | ==Nanostructured Metals: Manufacturing & Modelling== | ||
| + | ==Non Linear Optical Microscopy== | ||
| + | ==Quantam Field Model for Graphene Magnetism== | ||
| + | ='''Nanotech for Energy & Environment'''= | ||
| + | ==Nanomaterials & Nanostructures for Gas Sorption, Storage, & Sensing== | ||
| + | ==Nanomaterials & Photocatalytic Nanoparticles for Water/Air Detoxification== | ||
| + | ==Nanomaterials for Clean & Sustainable Technology== | ||
| + | ==Nanomaterials for Energy Conversion & Heat Transfer== | ||
| + | ==Nanotech for Environment Protection== | ||
| + | ==Nanotech for Fuel Cell & Solar Cell== | ||
| + | ==Nanotech for Oil & Gas== | ||
| + | ==Nanotechnology for Water, Air & Soil Protection== | ||
| + | ==Nanotechnology Materials & Nanotechnology in Energy Application== | ||
| + | ==Renewable Energy Technologies== | ||
| + | ='''Nanotechnology & Cosmetics'''= | ||
| + | ==Cosmetic Formulation== | ||
| + | ==Cosmetic Regulation-Safety Assessment== | ||
| + | ==Nanocosmetics-Company Survey== | ||
| + | ==Nanotechnology Cosmeceuticals: Benefits vs Risks== | ||
| + | ==Present Position of Nanotechnology & Cosmetic Products== | ||
| + | ==Safety of Nanomaterials in Cosmetic Products== | ||
| + | ='''Nanotechnology in Agriculture & Food Industry'''= | ||
| + | ==Nanotechnology & Risk Assessment== | ||
| + | ==Nanotechnology for Controlled Release== | ||
| + | ==Nanotechnology in Agriculture== | ||
| + | ==Nanotechnology in Food Industry== | ||
| + | ==Nanotechnology in Food Microbiology== | ||
| + | ==Nanotechnology Research - Agriculture & Food Industry== | ||
| + | ==Potential for Regulatory Control== | ||
| + | ==Regulatory Approaches to Nanotechnology in the Food Industry== | ||
| + | ='''Nanotechnology in Tissue Engineering'''= | ||
| + | ==Applications of Nanotechnology in Stem Cell Research== | ||
| + | ==Carbon Nanotubes== | ||
| + | ==Nano Biotechnology: From Stem Cell, Tissue Engineering To Cancer Research== | ||
| + | ==Nanobiomaterials== | ||
| + | ==Nanocomposites== | ||
| + | ==Nanofibers== | ||
| + | ==Nanostructured Extracellular Matrices== | ||
| + | ==Nanotechnology & Tissue Engineering== | ||
| + | ==Regulation on Advanced Therapy Medicinal Products/Tissue Engineering== | ||
| + | ==Tissue Engineering== | ||
| + | ='''Nanotechnology in Waste Water Treatment'''= | ||
| + | ==Bioactive Nanoparticles for Water Disinfections== | ||
| + | ==Ground Water & Softening Application== | ||
| + | ==Nanostructured Membranes For Water Purification== | ||
| + | ==Photo Catalytic Water Treatment== | ||
| + | ==Reverse Osmosis== | ||
| + | ='''Nanotechnology in Water Treatment'''= | ||
| + | ==Bimetallic Iron Nanoparticles== | ||
| + | ==Bioactive Nanoparticles for Water Disinfections== | ||
| + | ==Nanoscale Semiconductor Photocatalysts.== | ||
| + | ==Nanostructured Membranes for Water Purification== | ||
| + | ==Self-Assembled Monolayer on Mesoporous Supports (SAMMS)== | ||
| + | ='''Nanotechnology Safety'''= | ||
| + | ==Environmental Impact of Nanotechnology== | ||
| + | ==Exposure Scenarios== | ||
| + | ==Health Impact of Nanotechnology== | ||
| + | ==Measurement of Health Risk== | ||
| + | ==Nanotoxicology== | ||
| + | ==Regulation & Ethical Impacts== | ||
| + | ==Regulation Of Nanotechnology== | ||
| + | ==Risk Assessment & Management== | ||
| + | ==Risk Assessment & Management== | ||
| + | ==Societal Impact of Nanotechnology== | ||
| + | ='''Nanotechnology: Cosmetic & Sunscreen Safety'''= | ||
| + | ==Dermal Absorption of Insoluble Nanoparticles== | ||
| + | ==Grey Goo Theory== | ||
| + | ==Nano Sized Vesicle Drug Carrier== | ||
| + | ==Phagocytosis of Bacteria, Viruses by Mammalian Cells== | ||
| + | ==Transparency of Nanoparticle Dispersion== | ||
| + | ='''Nanotechnology: Environmental Effects & Industrial Safety'''= | ||
| + | ==Bioaccumulation, Biodegradability Of Nanomaterials== | ||
| + | ==Characterization of Nanomaterials for Toxicity Assessment== | ||
| + | ==Engineered Nanomaterials & Biological Interactions== | ||
| + | ==Exposure & Risk Evaluation of Nanomaterials== | ||
| + | ==Health & Safety Implications of Engineered Nanomaterials== | ||
| + | ==Industrial Safety Measures for Workers at the Nano Manufacturing Hubs== | ||
| + | ==Inhalation Studies for Safety Assessment of Nanomaterials== | ||
| + | ==Nanoparticles for Nuetralizaion of Toxic Materials== | ||
| + | ==Nanoparticles for Water Purification== | ||
| + | ==Nanotoxicity in Cells== | ||
| + | ==Need & Impact of Global Regulations on Nanomaterials== | ||
| + | ==Potential Adverse Health Impacts of Fibrous Nanomaterials== | ||
| + | ==Risk Management of Nanomaterials== | ||
| + | ==Toxicity of Nanomaterials== | ||
| + | ==Toxicity Screening & Intracellular Detection of Nanomaterials== | ||
| + | ='''Nanotoxicity'''= | ||
| + | ==Biodistribution== | ||
| + | ==Cytotoxicity== | ||
| + | ==Fullerene Toxicity== | ||
| + | ==Genotoxicity== | ||
| + | ==Nano-Visualisation== | ||
| + | ==Oatings & Charges== | ||
| + | ==Xenobiotech== | ||
| + | ='''Nanotoxicology'''= | ||
| + | ==Clinical Nanotoxicology== | ||
| + | ==Drug & Chemical Nanotoxicology== | ||
| + | ==Organ Nanotoxicity== | ||
| + | ==Pediatric Nanotoxicology== | ||
| + | ==Systems Nanotoxicology== | ||
| + | ='''Nanozymes'''= | ||
| + | ==Abzymes== | ||
| + | ==Bio immetrics== | ||
| + | ==Cyclodextrin== | ||
| + | ==Metilo Proteins== | ||
| + | ==Synzyme== | ||
| + | ='''Physics of Graphene'''= | ||
| + | ='''Polymer Nanotechnology'''= | ||
| + | ==Bio-Hybrid Nanofibres== | ||
| + | ==Bio-Hybrid Polymer Nanotubes== | ||
| + | ==Biopolymer== | ||
| + | ==Copolymer== | ||
| + | ==Electroactive Polymers== | ||
| + | ==Nanocarbon Tubes== | ||
| + | ==Nanocomposite== | ||
| + | ==Silicon Nanospheres== | ||
| + | ='''Regulation of Nanotechnology'''= | ||
| + | ==Detection, Tracking & Monitoring== | ||
| + | ==Green Chemistry== | ||
| + | ==Life Cycle of Nanoproducts== | ||
| + | ==Product Based Regulations== | ||
| + | ==Safety Standard for Nanoproducts== | ||
| + | ==Science Based Regulations== | ||
| + | ='''Risks Assessment & Management of Nanotechnology'''= | ||
| + | ==Nano Risk Framework== | ||
| + | ==Nano Risk Management System== | ||
| + | ==Risk Assessment of Nanomaterials== | ||
| + | ==Risk Characterisation== | ||
| + | ==Risk Management of Nanomaterials== | ||
| + | ='''Scope of Nanomaterials'''= | ||
| + | ==Ceramics== | ||
| + | ==Dendrimers== | ||
| + | ==Microporous Materials== | ||
| + | ==Nano Clays== | ||
| + | ==Nitrides== | ||
| + | ==Quantum Dots== | ||
| + | ='''Societal Impact of Nanotechnology'''= | ||
| + | ==Economy== | ||
| + | ==Food Systems== | ||
| + | ==Nano Weapons== | ||
| + | ==Privacy Concern== | ||
| + | ==Risk of Nanoparticles on Public Health== | ||
| + | ==Safety & Security== | ||
| + | ==Technology== | ||
| + | ='''Synthesis of Graphene & 2D Materials'''= | ||
| + | ==Biological & Toxicity Aspects of Graphene, Graphene Oxide & 2D Materials== | ||
| + | ==Characterisation of Single-Layer Graphene== | ||
| + | ==Graphene & 2D Material Sensors== | ||
| + | ==Graphene & Graphene-Related & 2D Materials in Composite Forms== | ||
| + | ==Graphene: Innovation & Commercialization.== | ||
| + | ==Graphene-Related Biomedical & Environment Research== | ||
| + | ==Meterology of Graphene & 2D Materials== | ||
| + | ==Spectroscopy & Microscopy of Graphene & 2D Materials== | ||
| + | ==Surface Chemistry on Graphene & 2D Materials== | ||
| + | ==Synthesis of Patterned Graphene Films on Thin Nickel Layers== | ||
| + | |||
| + | ='''A List of Entries Added After March <math>1^{st}</math>, 2017.'''= | ||
| + | |||
| + | =='''Quantum Computing'''== | ||
| + | =='''Quantum Devices'''== | ||
| + | =='''Topological Quantum Computation'''== | ||
| + | ===Majorana Quantum Wires=== | ||
| + | ===Majorana Devices=== | ||
| + | =='''NanoWires'''== | ||
| + | ===Overview=== | ||
| + | ===Synthesis of Nanowires=== | ||
| + | ===Suspension=== | ||
| + | ===VLS Growth=== | ||
| + | ===Solution-Phase Synthesis=== | ||
| + | ===Non-catalytic Growth=== | ||
| + | ===Physics of Nanowires=== | ||
| + | ===Conductivity of Nanowires=== | ||
| + | ===Welding Nanowires=== | ||
| + | ===Applications of Nanowires=== | ||
| + | ===Electronic Devices=== | ||
| + | ===Sensing Of Proteins & Chemicals Using Semiconductor Nanowires=== | ||
| + | ===Limitations of Sensing With Silicon Nanowire FET Devices=== | ||
| + | =='''Carbohydrate Nanostructures'''== | ||
| + | =='''NanoPapers'''== | ||
| + | =='''NanoScience in Dermatology'''== | ||
| + | =='''Nanotherapeutics'''== | ||
| + | =='''Friction and Rheology on the Nanometer Scale'''== | ||
| + | =='''Bionanomaterials for Dental Applications'''== | ||
| + | =='''Nanotechnology in Endodontics'''== | ||
Latest revision as of 07:30, 24 February 2020
Alphabetical Classification of NanoScience and NanoTechnology
A B C D E F G H I K L M N O P Q R S T Q U V W X Y Z
756 Topics in Subject Classification of NanoScience and NanoTechnology
A New Entry:
by Dr. Helmut Schift[[1]], ODRA/103, 5232 Villigen PSI, Schweiz (Switzerland)
by Dr. Huan Hu, ZJU-UIUC Joint Institute, International Campus, Zhejiang University, Haining, Zhejiang 314400, China.
Contents
- 1 Advenced Materials
- 1.1 AB Initio Microdynamic Approaches for Nanomaterials Simulation
- 1.2 Bio Sources for Materials & Fuels
- 1.3 Block Copolymers as Nanoreactors
- 1.4 Borophene & Applications
- 1.5 Carbon Nanostructures & Devices
- 1.6 Characterization of Nanomaterials
- 1.7 CNT-Metal Nanoparticle Composites
- 1.8 Complex Inorganic Nanostructures Based on Nanotubes
- 1.9 Food Technology
- 1.10 Graphene, Fullerenes, Carbon Nanotubes, Low-Dimension Nanostructures
- 1.11 Inorganic/Organic Nanomaterials
- 1.12 Metal Oxide Nanotubes, Chalcogenide Nanotubes
- 1.13 Nano Fibers, Nanotubes, Nanoclays, Nanodots, Nanohelices & Nanorods
- 1.14 Nanocatalysts
- 1.15 Nanocomposites / Bionanocomposites Materials
- 1.16 Nanofluids
- 1.17 Nanomagnetic Materials
- 1.18 Nanomaterial & Biological Activity
- 1.19 Nanoparticles Synthesis & Applications
- 1.20 Nanostructured/Nanoporous Materials & Devices
- 1.21 Nanostructured Coatings, Surfaces & Membranes
- 1.22 Optically Responsive Polymer Nanocomposites
- 1.23 Organic/ Inorganic Nanoparticles
- 1.24 Organic/Inorganic Hybrid Nanomaterials
- 1.25 Photo-Crosslinkable Nano-Objects
- 1.26 Physicochemical Properties Of Nanomaterials
- 1.27 Polymer Nanotechnology
- 1.28 Printed Materials & Systems
- 1.29 Quantam Properties of Nanostructures
- 1.30 Self-Assembling Nanoclusters
- 1.31 Semiconductors, Metals, Ceramics, Polymers
- 1.32 Semiconductors, Metals, Ceramics, Polymers
- 1.33 Soft Nanotechnology & Colloids
- 1.34 Thin Films Modeling, Scale Effects, Nanostructured Thin Films
- 2 Advances in Graphene Physics
- 3 Applications of NanoMaterials
- 3.1 Bandgap Engineered Quantum Devices
- 3.2 Biological Applications of Nanoparticles
- 3.3 Carbon Nanotube Emitters
- 3.4 Catalysis by Gold Nanoparticles
- 3.5 Energy Applications of Nanomaterials
- 3.6 Molecular Electronics & Nanoelectronics
- 3.7 Nanobots
- 3.8 Nanomechanics
- 3.9 Photonic Crystals & Plasmon Waveguides
- 4 Applications of Nanotechnology
- 4.1 Green Nanotechnology
- 4.2 Industrial & Textile Applications
- 4.3 Industrial Applications of Nanotechnology
- 4.4 Nano Art
- 4.5 Nano Fabrication
- 4.6 Nano Safety
- 4.7 Nanomaterial & Nanoparticle Applications
- 4.8 Nanotechnology Applications in Solar Cells
- 4.9 Nanotechnology for Security & Defense
- 4.10 Nanotechnology in Civil & Mechanical Engineering
- 4.11 Potential Applications of Carbon Nanotubes
- 4.12 Renewable & Sustainable Energy Applications
- 4.13 Space Nanotechnology
- 5 Bio NanoTechnology
- 6 Bio NanoMaterials & Bio Medical Devices, Applications
- 6.1 Arrays of Nanowires for Cellular Applications
- 6.2 Biological & Environmental Surface Interactions of Nanomaterials surface Interactions of Nanomaterials
- 6.3 Biologically Inspired Nano Devices
- 6.4 Biomedical Applications of Gold Nanomaterials
- 6.5 Biosurface Engineering
- 6.6 Controlled Self-Assembly of Re-Engineered Insulin
- 6.7 Curvature on The Properties of Nanomaterials & Biomedical Applications
- 6.8 Dendrimer‐Based Nanocarriers
- 6.9 Direct Chemoselective Synthesis of Glyconanoparticles
- 6.10 DNA‐Based Plasmonic Nanoarchitectures & Uses
- 6.11 Enhanced Electrochemical DNA Sensing
- 6.12 G-Protein Coupled Receptor Signaling at The Nanoscale
- 6.13 Interactions of Nanomaterials with the Immune System
- 6.14 Lanthanide‐Doped Hollow Nanomaterials
- 6.15 Lipid-Coated Nanocrystals & Applications
- 6.16 Membrane Protein Multiplexed Nano-Arrays
- 6.17 Membrane Proteins as Natural Nanomachines
- 6.18 Multifunctional Plasmonic Nanoparticles: Biomedical Applications
- 6.19 Nanobioorganic Chemistry
- 6.20 Nanomagnetic Materials & Applications
- 6.21 Nanomaterial‐Based Advanced Immunoassays
- 6.22 Nanomaterials: Orthopedic Implantable Medical Devices
- 6.23 Nanostructured Bladder Tissue Replacements
- 6.24 Nanowire Arrays & Cell Based Biosensing
- 6.25 Nanowire Based Cell Impalement Devices & Uses
- 6.26 Peptide Nanostructures in Biomedical Technology
- 6.27 Prediction of Cell Settling on Nanostructure Arrays
- 6.28 QSAR Modeling of Nanomaterials
- 6.29 Single Domain Antibodies for High Quality Surface Plasmon Resonance Studies
- 6.30 Structure & Function of Biological Systems on the Nanoscale
- 6.31 Vertical Nanowire Arrays for Protein Detection & Analysis
- 6.32 Virus‐Based Nanomaterials
- 7 Biosensors, Diagnostics & Imagining
- 8 Cancer NanoTechnology
- 9 Carbon Based Nanomaterial’s & Devices
- 10 Carbon Nano Chips & Nanostructures
- 11 Characterization & Properties of Nanomaterials
- 12 Chemistry & Biology Studies of Graphene
- 13 Computation, Simulation & Modeling of Nanostructures, Nano Systems & Devices
- 13.1 Applications Of Nanomaterials Modelling
- 13.2 Assembly Operations Using Molecular Manipulators
- 13.3 Atomistic Quantum Transport Simulations
- 13.4 Combinational Logic & Finite-State Machines
- 13.5 Mechanics Of Nanomaterials
- 13.6 Microstructure-Based Models & Dislocation Analysis
- 13.7 Multiscale Methods for Charge/Heat Transport for Nano-Meso Scale Devices
- 13.8 Multiscale Modelling for the Materials Improvement & Design
- 13.9 Nanostructured Metals: Manufacturing & Modelling
- 13.10 Nanostructured Multiphase Alloys
- 13.11 Non-Equilibrium Thermodynamics
- 13.12 Quantum Mechanics for Modelling of Nanomaterials
- 13.13 Simulation of Organic Semiconductor Devices
- 13.14 Software for Modelling of Nanomaterials
- 13.15 Technologies Based on Alternative Materials
- 14 Computational Nanotechnology
- 15 DNA Nanotechnology
- 16 Drug Delivery & Therapeutics
- 16.1 Drug Delivery for the Cardiovascular System
- 16.2 Drug Delivery for the Central Nervous System
- 16.3 Drug Delivery for Musculo-Skeletal Disorders
- 16.4 Drug Delivery for the Reproductive System or Urinary System
- 16.5 Drug Delivery for the Immune System
- 16.6 Drug Delivery for Allergic Disorders
- 16.7 Drug Delivery for Nutrition
- 16.8 Nanocapsules for Drug Delivery
- 17 Emerging Trends in Nanotechnology
- 18 Emerging Trends in the Field of Graphene nano
- 18.1 A Molecular Light-Driven Nanosubmarine
- 18.2 A Nanowrench in the Works
- 18.3 Bubble Pen To Write with Nano Particles
- 18.4 Development of Intelligent Wearable Systems Using Nano Technology
- 18.5 Emerging Opportunities for Graphene-Based Materials
- 18.6 Latest Developments in Graphene Production Methods Towards Wide Scale Commercialization
- 18.7 Nano Fibre Compared with Human Hair
- 18.8 Nano Produces Self-Replicating Microscopic Robots
- 18.9 Nanopores Could Take the Salt Out of Seawater
- 18.10 Nanosensors To Replace RFID Chips on Consumer Products
- 18.11 Nanotechnology Changes Behaviour of Materials Used in Solar -Cells
- 18.12 Nanowires as Hair Spray
- 18.13 Remote Sensing Through Nano Unmanned Aerial Vehicles & Satellites
- 19 Energy Systems & NanoTechnology
- 20 Environment, Health & Safety Issues
- 20.1 Air Emissions & Ambient Air Quality
- 20.2 Community Health & Safety
- 20.3 Ethical & Social Issues
- 20.4 Hazardous Materials Nano Management
- 20.5 Nanotechnology for Water - Challenges & Solutions
- 20.6 Nanotechnology in Biological Hazard Management
- 20.7 Nanotechnology in Ozone Deplition
- 20.8 Nanotechnology in Physical Hazard Management
- 20.9 Nanotechnology in Pollution Prevention
- 20.10 Nanotechnology in Radiological Hazard Management
- 20.11 Regulation of Nanotechnology
- 20.12 Risks of Nanotechnology
- 21 Future Prospects Of Nanotechnologies & Commercial Viability
- 21.1 Brain-Inspired Devices for Artificial Systems
- 21.2 Diamond Nanothreads
- 21.3 DNA-Based Single-Electron Electronic Devices
- 21.4 Light-Seeking Synthetic Nano Robot
- 21.5 Liquid-Repellent Materials
- 21.6 Multi-Function Chips
- 21.7 Nanomedicine For Improved HIV Drug Therapies
- 21.8 Other Potenial Innovative Ideas
- 21.9 Phase-Change Devices & Applications
- 21.10 Quantum Photonic Circuits & Applications
- 21.11 Self-Healable Batteries
- 21.12 Smart Textiles
- 21.13 Smarter Self-Assembly
- 21.14 Super-Powered Bionic Plants
- 21.15 Thermoelectric Screen Printing
- 21.16 Uses of Nano-Materials & Components in Space Exploration
- 22 Graphene Supercapacitors
- 22.1 Combining Graphene with Manganese Oxide To Create Innovative Supercapacitors
- 22.2 Graphene Supercapacitors Could Be Printed Onto a DVD
- 22.3 Graphene-Based Supercapacitor Declared To Someday Replace Lithium-Ion Batteries
- 22.4 New 3D Printed Graphene Supercapacitors
- 22.5 New Graphene-Based Supercapacitor Can Store as Much Energy as a NiMH Battery
- 23 Graphene & 2D Materials Based Nanocomposites
- 23.1 Characterisation & Modelling of Graphene Materials in Composites
- 23.2 Chemisry of 2-D Materials
- 23.3 Correlation Effects in Graphene & 2D Materials
- 23.4 Fundamental Science of Graphene & 2D Materials Beyond Graphene
- 23.5 Graphene Composites
- 23.6 Science & Applications of Graphene & New 2D Materials
- 24 Graphene & Biomaterials for Health Care
- 25 Graphene & Applications
- 25.1 Applications Of Graphene in Energy
- 25.2 Biological & Toxicity Aspects of Graphene, Graphene Oxide
- 25.3 Biological Interactions of Graphene-Family Nanomaterials
- 25.4 Carbon Nanotubes & Graphene
- 25.5 Characterisation & Modelling of Graphene Materials In Composites
- 25.6 Chemical Functionalisation of Graphene
- 25.7 Chemistry & Biology Studies of Graphene
- 25.8 Controlled Functionalisation of Graphene Oxide Through Surface Modification
- 25.9 Electronic, Optoelectronic Properties of 2D Materials
- 25.10 Graphene & 2D Material Sensors
- 25.11 Graphene & 2D Materials Based Nanocomposites
- 25.12 Graphene & Graphene Oxides
- 25.13 Graphene Based Nanoelectronic Devices
- 25.14 Graphene Based Nanofluids & Nano Lubricants
- 25.15 Graphene for Plasmonics & Optics
- 25.16 Graphene Modification & Functionalization
- 25.17 Graphene Supercapacitors & Graphene Polymer Batteries
- 25.18 Graphene Synthesis
- 25.19 Graphene-Assisted Laser Desorption/Ionization for Mass Spectrometry
- 25.20 Spectroscopy, Metrology & Microscopy Of Graphene & 2D Materials
- 25.21 Surface Chemistry on Graphene & 2D Materials
- 25.22 Synthesis of Graphene & New 2D Materials
- 25.23 Synthesis of Patterned Graphene Films
- 26 Graphene & Graphene Oxide
- 26.1 Graphene & Graphene Oxide for Energy (Battery, Capacitor, Catalysis, Solar)
- 26.2 Graphene Based Nanoelectronic Devices
- 26.3 Graphene For Plasmonics & Optics
- 26.4 Growth of Large Area Graphene
- 26.5 Physics & Chemistry Of Graphene
- 26.6 Reduction of Graphene Oxide
- 26.7 Synthesis, Characterization, Properties, & Applications
- 27 Graphene Application Technology
- 28 Graphene Chemistry
- 29 Graphene Modification & Functionalisation
- 30 Graphene Nano in Energy & Storage
- 30.1 Electrical Energy Storage
- 30.2 Generation of Chemical Energy Resources.
- 30.3 Graphene Enables Long Lasting Lithium-Air Batteries
- 30.4 Graphene Features as a Transparent Electrode.
- 30.5 Graphene-Based Batteries
- 30.6 Hydrogen Technologies
- 30.7 Increasing The Efficiency of Energy Production
- 30.8 Nuclear Acident Cleanup & Waste Storage
- 30.9 Revolutionary Graphene Polymer Batteries for Electric Cars
- 30.10 Solarthermal Energy
- 30.11 Sustainable Technologies
- 31 Graphene-like 2D Materials
- 31.1 Applications Of 2dmaterials In Electronics, Photonics, Energy & Biomedicine
- 31.2 Chemistry & Modification of 2D materials
- 31.3 Electronic, Optoelectronic Properties & Potential Applications
- 31.4 Growth, Synthesis Techniques & Integration Methods
- 31.5 Integration Of Graphene With Other 2D Materials
- 31.6 Structural, Electronic, Optical & Magnetic Properties of 2D Materials & Devices
- 32 Graphene: Synthesis, Properties & Phenomena
- 33 Graphite, Graphene & Their Polymer Nano Composites
- 34 Health Impact of Nanotechnology
- 34.1 Effect of Nanoparticles on Brain
- 34.2 Effect of Nanoparticles on Circulatory System
- 34.3 Effect of Nanoparticles on Gastro-Intestinal System
- 34.4 Effect of Nanoparticles on Heart
- 34.5 Effect of Nanoparticles on Lungs
- 34.6 Effect of Nanoparticles on Lymphatic System
- 34.7 Effect of Nanoparticles on Orthopedic Implant
- 34.8 Effect of Nanoparticles on Other Organs
- 34.9 Effect of Nanoparticles on Skin
- 35 Health, Safety & Environment
- 36 Impact of Nano Biotechnology
- 37 Insilico Nanostructure Modelling
- 38 Materials Science & Engineering
- 39 Materiomics
- 40 Medical Nanotechnology Devices
- 41 Micro/Nano-fabrication, Nano patterning, Nano Lithography & Nano Imprinting
- 41.1 AFM Characterization of Nanometer Scale Devices
- 41.2 Atomic Force Microscopy(AFM) & Functional AFM Probes
- 41.3 Colloid Monolayer Lithography
- 41.4 Electrically Induced Nanopatterning & Rapid Prototyping
- 41.5 Electron Beam Lithography
- 41.6 Film Deposition, Etching & Bonding
- 41.7 Focused Ion Beam Lithography
- 41.8 Laser Printing of Single Nanoparticles
- 41.9 Magnetolithography & Nanosphere Lithography
- 41.10 Molecular Self Assembly
- 41.11 Multiphoton Lithography
- 41.12 Nanoimprint Lithography
- 41.13 Neutral Particle Lithography
- 41.14 Photolithography & Soft Lithography
- 41.15 Proton Beam Writing & Charged-Particle Lithography
- 41.16 Scanning Probe Lithography
- 41.17 Thin Film Technologies
- 41.18 Top-Down & Bottom-Up Nanofabrication
- 41.19 X-Ray Lithography & Ion Projection Lithography
- 42 Molecular Mimics
- 42.1 Atom Shuttles
- 42.2 Catenanes & Rotaxanes
- 42.3 Chemical Rotors
- 42.4 Flippers
- 42.5 Molecular Switches
- 42.6 Prodders
- 42.7 Regulation & Ethical Impacts
- 42.8 Rotaxanes & Molecular Computers
- 42.9 Synthesis of Rotaxanes & Catenanes
- 42.10 The Electron Driven Molecular Shuttle Switch
- 42.11 The Light Driven Molecular Shuttle Switch
- 42.12 The ph Driven Molecular Shuttle Switch
- 43 Molecular Nanotechnology
- 43.1 Aerospace Transportation
- 43.2 Atom Manipulation
- 43.3 Atoms by Inference
- 43.4 Electron Microscope
- 43.5 Massive Parallelism
- 43.6 Mechanosynthesis
- 43.7 Microelectromechanical Devices
- 43.8 Modern Transmission of Electron Microscope
- 43.9 Molecular Assembler
- 43.10 Molecular Electronics
- 43.11 Molecular Engineering
- 43.12 Molecular Machine
- 43.13 Molecular Manufacturing
- 43.14 Nanodots
- 43.15 Nanomanipulator
- 43.16 Nanotweezers
- 43.17 Phased-Array Optics
- 43.18 Positional Assembly
- 43.19 Replicating Nanorobots
- 43.20 Scanning Electron Microscope
- 43.21 Scanning Probe Microscopy - Atomic Force Microscope
- 43.22 Scanning Tunnelling Microscope
- 43.23 Smart Materials
- 44 Nano Applications
- 45 Nano BioMaterials
- 46 Nano BioMechanics
- 47 Nano Biometrics
- 47.1 Biological Computing- A Protein- Based 3D Optical Memory Based on Bacteriorhodopsin
- 47.2 Ion Channels as Sensors
- 47.3 Lipids as Nano - Bricks & Mortar
- 47.4 Lipids Structure
- 47.5 Molecular Mimics
- 47.6 Self-Assembled Monolayers
- 47.7 Self-Organizing Supra Molecular Structures
- 47.8 Three Dimensional Structures Using a 20 Amino Acid Alphabet Nano Scale Motors
- 48 Nano Biomolecular Engineering
- 49 Nano Biotechnology
- 49.1 Bioluminescent Magnetic Nanoparticles
- 49.2 Disease Diagnosis
- 49.3 DNANanotechnology
- 49.4 Gene Therapy
- 49.5 Lipid Nanotechnology
- 49.6 Nanoink
- 49.7 Nanosystems
- 49.8 Surface Modified Polystyrene Nanoparticles
- 49.9 Target Specific Drug Delivery
- 49.10 The Structural Nature of Bio Molecules
- 49.11 Tissue Engineering
- 50 Nano Chemistry
- 51 Nano Composites
- 52 Nano Computational Modelling
- 52.1 Industrial Applications of Nanomaterials Modelling
- 52.2 Mechanics of Nanomaterials
- 52.3 Microstructure-based Models & Dislocation Analysis
- 52.4 Multiscale Modelling for the Materials Improvement & Design
- 52.5 Nanostructured Multiphase Alloys
- 52.6 Quantum Mechanics for Modelling of Nanomaterials
- 52.7 Software for Modelling of Nanomaterials
- 53 Nano Electronic Devices
- 54 Nano Electronics
- 55 Nano Fluidics
- 56 Nano Materials Synthesis & Characterisation
- 57 Nano Medicine
- 58 Nano Topography
- 59 Nano Toxicology
- 59.1 Complications with Nanotoxicity Studies
- 59.2 Computational Toxicology
- 59.3 Cytotoxicity
- 59.4 Ecotoxicology
- 59.5 Genotoxicity
- 59.6 Immunotoxicity
- 59.7 Medical Toxicology
- 59.8 Occupational Toxicology
- 59.9 Regulation & risk Management
- 59.10 Tolerogenic Nanoparticles
- 59.11 Toxicity of Nanomaterials
- 60 Nano Weapons
- 61 Nanobiomaterials
- 61.1 Biosensors & Biocatalysts
- 61.2 Commercialisation & Exploitation of Nanoscience & Nanotechnology
- 61.3 Hierarchial Organisation in Biological Systems
- 61.4 Interface Between Biological & Nonbiological Entities at the Nanoscale
- 61.5 Medical Devices & Drug Delivery
- 61.6 Nanotechnology for Environmental, Health & Safety
- 61.7 Properties of Cells, Amino acids, Polypeptides, Proteins, DNA/RNA
- 62 Nanophotonics
- 62.1 Active Materials Bulk, Quantum Well, Wire Dot & Quantum Dot
- 62.2 Definition of Photon
- 62.3 Description of Light as an Electromagnetic Wave
- 62.4 Fabrication of Photonic Devices, Quantum Dot Materials
- 62.5 General Introduction
- 62.6 Optical Devices
- 62.7 Quantum Aspect of Light
- 62.8 Review of Fundamentals of Lasers
- 63 Nanoscale
- 64 Nanoscience & Technology
- 65 Nanotech for Energy & Environment
- 65.1 Nanomaterials & Nanostructures for Gas Sorption, Storage, & Sensing
- 65.2 Nanomaterials & Photocatalytic Nanoparticles for Water/Air Detoxification
- 65.3 Nanomaterials for Clean & Sustainable Technology
- 65.4 Nanomaterials for Energy Conversion & Heat Transfer
- 65.5 Nanotech for Environment Protection
- 65.6 Nanotech for Fuel Cell & Solar Cell
- 65.7 Nanotech for Oil & Gas
- 65.8 Nanotechnology for Water, Air & Soil Protection
- 65.9 Nanotechnology Materials & Nanotechnology in Energy Application
- 65.10 Renewable Energy Technologies
- 66 Nanotechnology & Cosmetics
- 67 Nanotechnology in Agriculture & Food Industry
- 67.1 Nanotechnology & Risk Assessment
- 67.2 Nanotechnology for Controlled Release
- 67.3 Nanotechnology in Agriculture
- 67.4 Nanotechnology in Food Industry
- 67.5 Nanotechnology in Food Microbiology
- 67.6 Nanotechnology Research - Agriculture & Food Industry
- 67.7 Potential for Regulatory Control
- 67.8 Regulatory Approaches to Nanotechnology in the Food Industry
- 68 Nanotechnology in Tissue Engineering
- 68.1 Applications of Nanotechnology in Stem Cell Research
- 68.2 Carbon Nanotubes
- 68.3 Nano Biotechnology: From Stem Cell, Tissue Engineering To Cancer Research
- 68.4 Nanobiomaterials
- 68.5 Nanocomposites
- 68.6 Nanofibers
- 68.7 Nanostructured Extracellular Matrices
- 68.8 Nanotechnology & Tissue Engineering
- 68.9 Regulation on Advanced Therapy Medicinal Products/Tissue Engineering
- 68.10 Tissue Engineering
- 69 Nanotechnology in Waste Water Treatment
- 70 Nanotechnology in Water Treatment
- 71 Nanotechnology Safety
- 71.1 Environmental Impact of Nanotechnology
- 71.2 Exposure Scenarios
- 71.3 Health Impact of Nanotechnology
- 71.4 Measurement of Health Risk
- 71.5 Nanotoxicology
- 71.6 Regulation & Ethical Impacts
- 71.7 Regulation Of Nanotechnology
- 71.8 Risk Assessment & Management
- 71.9 Risk Assessment & Management
- 71.10 Societal Impact of Nanotechnology
- 72 Nanotechnology: Cosmetic & Sunscreen Safety
- 73 Nanotechnology: Environmental Effects & Industrial Safety
- 73.1 Bioaccumulation, Biodegradability Of Nanomaterials
- 73.2 Characterization of Nanomaterials for Toxicity Assessment
- 73.3 Engineered Nanomaterials & Biological Interactions
- 73.4 Exposure & Risk Evaluation of Nanomaterials
- 73.5 Health & Safety Implications of Engineered Nanomaterials
- 73.6 Industrial Safety Measures for Workers at the Nano Manufacturing Hubs
- 73.7 Inhalation Studies for Safety Assessment of Nanomaterials
- 73.8 Nanoparticles for Nuetralizaion of Toxic Materials
- 73.9 Nanoparticles for Water Purification
- 73.10 Nanotoxicity in Cells
- 73.11 Need & Impact of Global Regulations on Nanomaterials
- 73.12 Potential Adverse Health Impacts of Fibrous Nanomaterials
- 73.13 Risk Management of Nanomaterials
- 73.14 Toxicity of Nanomaterials
- 73.15 Toxicity Screening & Intracellular Detection of Nanomaterials
- 74 Nanotoxicity
- 75 Nanotoxicology
- 76 Nanozymes
- 77 Physics of Graphene
- 78 Polymer Nanotechnology
- 79 Regulation of Nanotechnology
- 80 Risks Assessment & Management of Nanotechnology
- 81 Scope of Nanomaterials
- 82 Societal Impact of Nanotechnology
- 83 Synthesis of Graphene & 2D Materials
- 83.1 Biological & Toxicity Aspects of Graphene, Graphene Oxide & 2D Materials
- 83.2 Characterisation of Single-Layer Graphene
- 83.3 Graphene & 2D Material Sensors
- 83.4 Graphene & Graphene-Related & 2D Materials in Composite Forms
- 83.5 Graphene: Innovation & Commercialization.
- 83.6 Graphene-Related Biomedical & Environment Research
- 83.7 Meterology of Graphene & 2D Materials
- 83.8 Spectroscopy & Microscopy of Graphene & 2D Materials
- 83.9 Surface Chemistry on Graphene & 2D Materials
- 83.10 Synthesis of Patterned Graphene Films on Thin Nickel Layers
- 84 A List of Entries Added After March [math]1^{st}[/math], 2017.
- 84.1 Quantum Computing
- 84.2 Quantum Devices
- 84.3 Topological Quantum Computation
- 84.4 NanoWires
- 84.4.1 Overview
- 84.4.2 Synthesis of Nanowires
- 84.4.3 Suspension
- 84.4.4 VLS Growth
- 84.4.5 Solution-Phase Synthesis
- 84.4.6 Non-catalytic Growth
- 84.4.7 Physics of Nanowires
- 84.4.8 Conductivity of Nanowires
- 84.4.9 Welding Nanowires
- 84.4.10 Applications of Nanowires
- 84.4.11 Electronic Devices
- 84.4.12 Sensing Of Proteins & Chemicals Using Semiconductor Nanowires
- 84.4.13 Limitations of Sensing With Silicon Nanowire FET Devices
- 84.5 Carbohydrate Nanostructures
- 84.6 NanoPapers
- 84.7 NanoScience in Dermatology
- 84.8 Nanotherapeutics
- 84.9 Friction and Rheology on the Nanometer Scale
- 84.10 Bionanomaterials for Dental Applications
- 84.11 Nanotechnology in Endodontics
