Encyclopedia of NanoScience and Nanotechnology
From Nanopedia
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 Subjects in Subject Classification of NanoScience and NanoTechnology
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 Geaphene Physics
- 3 Aplicationd 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 Pecific 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
- 83.11 Quantum Computing
- 83.12 Quantum Devices
- 83.13 Topological Quantum Computation
- 83.14 NanoWires
- 83.15 Overview
- 83.16 Synthesis of Nanowires
- 83.17 Physics of Nanowires
- 83.18 Applications of Nanowires
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 Geaphene Physics
3 Aplicationd 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
5.1 Carbon Nanotechnology
5.2 Cellular Engineering
5.3 DNA Nanotechnology
5.4 Gene Therapy
5.5 Green Nanotechnology
5.6 Lipid Nanotechnogy
5.7 Nanobiology
5.8 Protein 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
7.1 Analytical Approaches & Instrumentation
7.2 Nanoparticles & Imaging Technology
7.3 Novel Approaches for Diagnostics
7.4 Sensing in the Environment
8 Cancer NanoTechnology
8.1 Chemotherapy
8.2 DNA Nanorobots
8.3 Nano Colloids
8.4 Nano Materials for Cancer Diagnosis & Therapy
8.5 Nanotheranostics for Cancer
8.6 RNA Nanotechnology for Cancer Treatment
8.7 Target Based Drug Delivery
9 Carbon Based Nanomaterial’s & Devices
9.1 Carbon Nanoparticles
9.2 Carbon nanotechnology
9.3 Carbon Nanotubes
9.4 Device Components & Devices
9.5 Graphene
9.6 Materials Application
10 Carbon Nano Chips & Nanostructures
11 Characterization & Properties of Nanomaterials
11.1 Chemical Characterization
11.2 Magnetic Properties
11.3 Mechanical Properties
11.4 Optical Properties
11.5 Physical Properties Of Nanomaterials
11.6 Thermal Properties
12 Chemistry & Biology Studies of Graphene
12.1 Biological Interactions Of Graphene-Family Nanomaterials
12.2 Chemical & Biological Graphene Sensors
12.3 Graphene-Assisted Laser Desorption/Ionization for Mass Spectrometry
12.4 Graphene-Enhanced Cell Differentiation & Growth
12.5 Precise Biosensing Through Graphene-Quenched Fluorescence
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
14.1 Computational Hub for Nanotechnology
14.2 Mechanics of Nano Materials
14.3 Microstructure-Based Models & Dislocation Analysis
14.4 Multiscale Modelling for The Materials Improvement & Design
14.5 Software for Modelling of Nano Materials
15 DNA Nanotechnology
15.1 DNA Origami
15.2 DNA Polyhedra
15.3 Dynamic DNA Nanotechnology
15.4 Properties of Nucleic Acids
15.5 Structural & Sequence Designing
15.6 Structural DNA Nanotechnology
15.7 Three-Dimensional Arrays
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
17.1 Calculus
17.2 Chemistry
17.3 Computer Science
17.4 Engineering
17.5 Miniaturization
17.6 Physics
17.7 Quantum Mechanics
17.8 Robotics
17.9 Science
17.10 Self-organization
17.11 Supramolecular Chemistry
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
19.1 Electrochemistry in Nanotechnology
19.2 Energy Applications of Nanotechnology
19.3 Fuel Cells & Hydrogen Storage
19.4 Geothermal Energy
19.5 Low-Energy Nuclear Reactions (LENR)
19.6 Photovoltaic Devices
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
24.1 Biocomposites
24.2 Biodegradable Biomaterials
24.3 Biomolecular Materials
24.4 Biophysics & Biotechnology
24.5 Drug Delivery System
24.6 Graphene Bioplastics
24.7 Graphene Materials
24.8 Vaccines
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
27.1 Anti-Corrosion Coatings
27.2 Application of Graphene Film
27.3 Building Materials
27.4 Catalyst
27.5 Desalination
27.6 Fuel Cells
27.7 Key Fabrication Equipment
27.8 Lubrication Materials
27.9 Metal Composites
27.10 Rubber Composites
27.11 Sensors
27.12 Solar Cells
28 Graphene Chemistry
29 Graphene Modification & Functionalisation
29.1 2D Materials Heterostructures & Superstructures
29.2 Chemical Functionalisation of Graphene
29.3 Controlled Functionalisation of Graphene Oxide Through Surface Modification
29.4 Field Emission From Graphene
29.5 Graphene Based Nanofluids & Nano Lubricants
29.6 Graphene Based Products
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
35.1 Ethical & Social Issues
35.2 Healthcare & Social Assistance
35.3 Nanotechnology for Water
35.4 Nanotechnology in Pollution Prevention
35.5 Regulation of Nanotechnology
35.6 Risks of Nanotechnology
36 Impact of Nano Biotechnology
36.1 Economic Impact
36.2 Environmental Impact
36.3 Ethics & Regulations
36.4 Societal Impact
36.5 Traditional Approaches
37 Insilico Nanostructure Modelling
37.1 ADF Modelling
37.2 AMBER
37.3 Conformational Analysis
37.4 Free Energy Perturbation
37.5 Gromacs
37.6 Semi Emperical Method
38 Materials Science & Engineering
38.1 Advances in Materials Science
38.2 Energy Materials
38.3 Mining & Metallurgy
38.4 Synthesis & Processing
38.5 Thermodynamics & Kinetics
38.6 Transmission Electron Microscopy
39 Materiomics
39.1 Anti-Encapsulation
39.2 Bio-Inert Materials
39.3 Bio-Metromics
39.4 Cell Material Interactions
39.5 Pro-Fixation
40 Medical Nanotechnology Devices
40.1 Emerging Device Challenges in Futuristic Nanoelectronics
40.2 Microfluidics & Microfabrication
40.3 Nano MEMS
40.4 Nanodiamond Devices
40.5 Nanoelectronics
40.6 Nano-Optics
40.7 Nanorobotics & Nanomanufacturing
40.8 Spintronics
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
44.1 Aerospace & Vehicle Manufacturers
44.2 Catalysis
44.3 Manufacturing & Construction
44.4 Military & Defence
44.5 Textiles
45 Nano BioMaterials
45.1 Bio Mineralization
45.2 Bioimaging & Cancer Diagnosis
45.3 Biomimetic Synthesis
45.4 Fabrication Of Hybrid Micro Swimmers
45.5 Photodynamic Therapy
46 Nano BioMechanics
46.1 Bio-Nano ElectroMagnetic System(Bio-NEMS) & Biomedical Microelectromechanical Systems(Bio-MEMS)
46.2 Computational Nanobiomechanics
46.3 Instrumentation in Nano Biomechanics
46.4 Mechanosynthesis
46.5 Nanomechanical Computational Systems
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
48.1 Bio-Immobilization & Bio-Conjugation
48.2 Bio-Molecular Engineering in Industry
48.3 Biomolecular Engineering Techniques Involved in Polymer Chain Reaction
48.4 Polymerase Chain Reaction
48.5 Recombinant DNA
48.6 Site-Directed Mutagenesis
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 Pecific Drug Delivery
49.10 The Structural Nature of Bio Molecules
49.11 Tissue Engineering
50 Nano Chemistry
50.1 Compose of materials
50.2 Graphene & Fullerenes
50.3 Nanochemistry in Medicine
50.4 Nanocomposites
50.5 Nanocrystals & Clusters
50.6 Nano-Electro-Mechanical Systems
50.7 Nanoenzymes
50.8 Nanolithography
50.9 Nanolithography
50.10 Nanotubes
50.11 Uses of Nanochemicals
51 Nano Composites
51.1 Ceramic Matrix Nanocomposites
51.2 Composite Materials
51.3 Metal Matrix Nanocomposites
51.4 Polymer Matrix Nanocomposites
51.5 Superparamagnetism
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
53.1 Molecular Electronics
53.2 Nano Fabrications
53.3 Nano Radios
53.4 Nanoionic
53.5 Optoelectronic Devices
54 Nano Electronics
54.1 Flexible Electronic Circuits
54.2 Magnetoelectric Random Access Memory (MeRAM)
54.3 Magnetoresistive Random Access Memory (MRAM)
54.4 Nanoemmissive Display Panel
54.5 Nanoparticle Organic Memory Field-Effect Transistor
54.6 Nanotube Transistors
55 Nano Fluidics
55.1 Membrane Science
55.2 Microfluidic Cell Sorting & Analysis
55.3 Nanofluidic Circuitry
55.4 Nanofluidic Devices for DNA Analysis
55.5 Nanofluidic Structures
55.6 Tuneable Microlens Array
56 Nano Materials Synthesis & Characterisation
56.1 Applications of Nano Materials & Devices
56.2 Microscopy & Spectroscopic Methods of Measurement at the Nanoscale
56.3 Size Dependence of Properties
57 Nano Medicine
57.1 Biocompatibility
57.2 Chromallocytes
57.3 Dentifrobots
57.4 Drug Delivery
57.5 Pharmacytes
58 Nano Topography
58.1 Biomimetic Microenvironment Topology
58.2 Extra Cellular Matrix (ECM)
58.3 Mechanosensitivity
58.4 Nanoroughness
58.5 Self-Renewal of Human Embryonic Stem Cells
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
60.1 Metamaterial-based optical/EM invisibility suits
60.2 Nanocomputers
60.3 Nanothermite
60.4 Smart Materials
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
63.1 Chemical Reactivity
63.2 Electron & Optical Properties
63.3 Mechanical Properties
63.4 Molecules & Surfaces
63.5 Nucleation
63.6 Quantum Smallness
63.7 The Size Of Atoms
64 Nanoscience & Technology
64.1 Biogenic Nanoparticles
64.2 Carbon Nanotechnology
64.3 Exposure Scenarios
64.4 Nanomagnetics
64.5 Nanospinitronics
64.6 Nanostructured Metals: Manufacturing & Modelling
64.7 Non Linear Optical Microscopy
64.8 Quantam Field Model for Graphene Magnetism
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
66.1 Cosmetic Formulation
66.2 Cosmetic Regulation-Safety Assessment
66.3 Nanocosmetics-Company Survey
66.4 Nanotechnology Cosmeceuticals: Benefits vs Risks
66.5 Present Position of Nanotechnology & Cosmetic Products
66.6 Safety of Nanomaterials in Cosmetic Products
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
69.1 Bioactive Nanoparticles for Water Disinfections
69.2 Ground Water & Softening Application
69.3 Nanostructured Membranes For Water Purification
69.4 Photo Catalytic Water Treatment
69.5 Reverse Osmosis
70 Nanotechnology in Water Treatment
70.1 Bimetallic Iron Nanoparticles
70.2 Bioactive Nanoparticles for Water Disinfections
70.3 Nanoscale Semiconductor Photocatalysts.
70.4 Nanostructured Membranes for Water Purification
70.5 Self-Assembled Monolayer on Mesoporous Supports (SAMMS)
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
72.1 Dermal Absorption of Insoluble Nanoparticles
72.2 Grey Goo Theory
72.3 Nano Sized Vesicle Drug Carrier
72.4 Phagocytosis of Bacteria, Viruses by Mammalian Cells
72.5 Transparency of Nanoparticle Dispersion
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
74.1 Biodistribution
74.2 Cytotoxicity
74.3 Fullerene Toxicity
74.4 Genotoxicity
74.5 Nano-Visualisation
74.6 Oatings & Charges
74.7 Xenobiotech
75 Nanotoxicology
75.1 Clinical Nanotoxicology
75.2 Drug & Chemical Nanotoxicology
75.3 Organ Nanotoxicity
75.4 Pediatric Nanotoxicology
75.5 Systems Nanotoxicology
76 Nanozymes
76.1 Abzymes
76.2 Bio immetrics
76.3 Cyclodextrin
76.4 Metilo Proteins
76.5 Synzyme
77 Physics of Graphene
78 Polymer Nanotechnology
78.1 Bio-Hybrid Nanofibres
78.2 Bio-Hybrid Polymer Nanotubes
78.3 Biopolymer
78.4 Copolymer
78.5 Electroactive Polymers
78.6 Nanocarbon Tubes
78.7 Nanocomposite
78.8 Silicon Nanospheres
79 Regulation of Nanotechnology
79.1 Detection, Tracking & Monitoring
79.2 Green Chemistry
79.3 Life Cycle of Nanoproducts
79.4 Product Based Regulations
79.5 Safety Standard for Nanoproducts
79.6 Science Based Regulations
80 Risks Assessment & Management of Nanotechnology
80.1 Nano Risk Framework
80.2 Nano Risk Management System
80.3 Risk Assessment of Nanomaterials
80.4 Risk Characterisation
80.5 Risk Management of Nanomaterials
81 Scope of Nanomaterials
81.1 Ceramics
81.2 Dendrimers
81.3 Microporous Materials
81.4 Nano Clays
81.5 Nitrides
81.6 Quantum Dots
82 Societal Impact of Nanotechnology
82.1 Economy
82.2 Food Systems
82.3 Nano Weapons
82.4 Privacy Concern
82.5 Risk of Nanoparticles on Public Health
82.6 Safety & Security
82.7 Technology
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
A List of Entries Added After March [math]1^{st}[/math], 2017.