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Polymers & Soft Matter
Is a meta-term.
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Polymers & Soft Matter
Term
Metadata
Polymers & Soft Matter
More specific terms
NT1
↓
Active matter
►
▼
NT2
↓
Active gels
►
▼
NT3
↓
Active nematic gels
NT3
↓
Active polar gels
NT2
↓
Active liquid films
NT2
↓
Active nematics
►
▼
NT3
↓
Active defects
NT3
↓
Lyotroptic active nematics
NT2
↓
Bacteria
►
▼
NT3
↓
Flagella
NT2
↓
Cells
►
▼
NT3
↓
Blood
►
▼
NT4
↓
Blood plasma
NT4
↓
Platelets
NT4
↓
Red blood cells
NT4
↓
White blood cells
NT3
↓
Cell junctions
NT3
↓
Epithelial cells
NT3
↓
Extracellular matrix
NT3
↓
Glial cells
NT3
↓
Nerve cells
►
▼
NT4
↓
Axons
NT3
↓
Spermatozoa
NT3
↓
Stem cells
NT2
↓
Dry active matter
NT2
↓
Microswimmers
►
▼
NT3
↓
Low Reynolds number swimmers
NT2
↓
Organisms
►
▼
NT3
↓
Archea
NT3
↓
Bacteria
►
▼
NT4
↓
Flagella
NT3
↓
Birds
NT3
↓
Fish
NT3
↓
Insects
NT3
↓
Mammals
NT3
↓
Microswimmers
►
▼
NT4
↓
Low Reynolds number swimmers
NT3
↓
Plants
NT3
↓
Viruses
NT2
↓
Proteins
►
▼
NT3
↓
Actin
NT3
↓
Collagen
NT3
↓
Motor proteins
►
▼
NT4
↓
Cytoskeletal motor proteins
►
NT3
↓
Photosystems
NT3
↓
Tubulin
NT2
↓
Self-propelled particles
►
▼
NT3
↓
Active brownian particles
NT3
↓
Self-propelled janus particles
NT1
↓
Aging
NT1
↓
Applications of soft matter
►
▼
NT2
↓
Adhesives
NT2
↓
Biomimetic & bio-inspired materials
NT2
↓
Coatings
NT2
↓
Cosmetics
NT2
↓
Devices
►
▼
NT3
↓
Capacitors
NT3
↓
Diodes
►
▼
NT4
↓
LEDs
NT4
↓
Organic LEDs
NT4
↓
Photodiodes
NT3
↓
Flexible electronics
NT3
↓
Micromechanical devices
NT3
↓
Nanomechanical devices
NT3
↓
Organic sensors
NT3
↓
Solid-state detectors
NT3
↓
Thermoelectric systems
NT3
↓
Transistors
►
▼
NT4
↓
Field-effect transistors
►
NT2
↓
Drug delivery
NT2
↓
Electronic materials
NT2
↓
Electronically polarized systems
►
▼
NT3
↓
Dielectrics
NT3
↓
Ferroelectrics
►
▼
NT4
↓
Antiferroelectrics
NT4
↓
Relaxor ferroelectrics
NT3
↓
Flexoelectrics
NT3
↓
Multiferroics
NT3
↓
Paraelectrics
NT3
↓
Piezoelectrics
NT3
↓
Pyroelectrics
NT2
↓
Flexible electronics
NT2
↓
Food additives
NT2
↓
Functional materials
►
▼
NT3
↓
Energy applications
►
▼
NT4
↓
Batteries
NT4
↓
Magnetic refrigeration
NT4
↓
Solar cells
NT4
↓
Thermoelectric systems
NT3
↓
Energy materials
►
▼
NT4
↓
Hydrogen storage materials
NT4
↓
Photovoltaic absorbers
NT3
↓
Smart materials
►
▼
NT4
↓
Actuating materials
NT4
↓
Self-healing systems
NT4
↓
Shape-memory materials
NT4
↓
Stimuli-responsive materials
NT2
↓
Junctions
►
▼
NT3
↓
Josephson junctions
NT3
↓
Molecular junctions
NT3
↓
Schottky barriers
NT3
↓
Tunnel junctions
►
▼
NT4
↓
Magnetic tunnel junctions
NT3
↓
Weak links
NT2
↓
Laser systems
►
▼
NT3
↓
Chemical lasers
NT3
↓
Dye lasers
NT3
↓
Fiber lasers
NT3
↓
Gas lasers
NT3
↓
Liquid crystal lasers
NT3
↓
Microcavity & microdisk lasers
NT3
↓
Photonic crystal lasers
NT3
↓
Raman lasers
NT3
↓
Random lasers
NT3
↓
Solid state lasers
►
▼
NT4
↓
Diode lasers
NT4
↓
Semiconductor lasers
►
NT4
↓
VCSELs
NT3
↓
Tunable lasers
NT3
↓
X-ray lasers
NT2
↓
Lubricants
NT2
↓
Organic electronics
►
▼
NT3
↓
LEDs
NT3
↓
Organic sensors
NT3
↓
Organic transistors
NT3
↓
Photovoltaic absorbers
NT2
↓
Packaging materials
NT2
↓
Paints
NT2
↓
Tissue engineering
NT2
↓
Waveguides
►
▼
NT3
↓
Waveguide arrays
NT1
↓
Atomic techniques
►
▼
NT2
↓
Atom diffraction
NT2
↓
Atomic force microscopy
►
▼
NT3
↓
Magnetic force microscopy
NT3
↓
Noncontact atomic force microscopy
NT3
↓
Piezoresponse force microscopy
NT2
↓
Field emission & field-ion microscopy
NT2
↓
Ion beam analysis
►
▼
NT3
↓
Elastic back scattering spectroscopy
NT3
↓
Elastic recoil detection
NT3
↓
Nuclear reaction analysis
NT3
↓
Particle-induced x-ray emission
NT3
↓
Rutherford back scattering spectroscopy
NT2
↓
Irradiation
NT2
↓
Mass spectrometry
►
▼
NT3
↓
Secondary ion mass spectrometry
NT3
↓
Time-of-flight mass spectrometry
NT2
↓
Surface scattering
►
▼
NT3
↓
Atom or molecule scattering from surfaces
►
▼
NT4
↓
Helium atom scattering
NT3
↓
Ion scattering from surfaces
NT3
↓
Molecular scattering from surfaces
NT1
↓
Auxetic materials
NT1
↓
Biological materials
►
▼
NT2
↓
Biomolecules
►
▼
NT3
↓
Carbohydrates
NT3
↓
Chromatin
NT3
↓
Enzymes
►
▼
NT4
↓
ATP
NT3
↓
Hormones
NT3
↓
Lipids
NT3
↓
Nucleic acids
►
▼
NT4
↓
DNA
NT4
↓
RNA
NT3
↓
Peptides
NT3
↓
Proteins
►
▼
NT4
↓
Actin
NT4
↓
Collagen
NT4
↓
Motor proteins
►
NT4
↓
Photosystems
NT4
↓
Tubulin
NT3
↓
Viruses
NT2
↓
Cells
►
▼
NT3
↓
Blood
►
▼
NT4
↓
Blood plasma
NT4
↓
Platelets
NT4
↓
Red blood cells
NT4
↓
White blood cells
NT3
↓
Cell junctions
NT3
↓
Epithelial cells
NT3
↓
Extracellular matrix
NT3
↓
Glial cells
NT3
↓
Nerve cells
►
▼
NT4
↓
Axons
NT3
↓
Spermatozoa
NT3
↓
Stem cells
NT2
↓
Microbial multicellular systems
►
▼
NT3
↓
Biofilms
NT3
↓
Microbial mats
NT2
↓
Subcellular structures
►
▼
NT3
↓
Cell membrane
NT3
↓
Cell nucleus
NT3
↓
Cell wall
NT3
↓
Cellular compartments
NT3
↓
Chloroplasts
NT3
↓
Chromosomes
NT3
↓
Cilia
NT3
↓
Cytoskeleton
NT3
↓
Filaments
NT3
↓
Flagella
NT3
↓
Histones
NT3
↓
Membrane structures
NT3
↓
Micelles
►
▼
NT4
↓
Cylindrical micelles
NT4
↓
Disk micelles
NT4
↓
Spherical micelles
NT3
↓
Microtubules
NT3
↓
Mitochondria
NT3
↓
Organelle
NT3
↓
Pseudopods
NT3
↓
Vesicle structures
►
▼
NT4
↓
Giant vesicles
NT4
↓
Unilamellar vesicles
NT2
↓
Tumors
NT1
↓
Cellular automata
NT1
↓
Chirality
NT1
↓
Coarse graining
NT1
↓
Collective behavior
►
▼
NT2
↓
Clustering
NT2
↓
Emergence of patterns
NT2
↓
Flocking
NT2
↓
Foraging
NT2
↓
Jamming
NT2
↓
Swarming
NT1
↓
Colloids
►
▼
NT2
↓
Charged colloids
NT2
↓
Colloidal crystal
NT2
↓
Colloidal gel
NT2
↓
Colloidal glass
NT2
↓
Ferrofluids
NT2
↓
Grafted colloids
NT2
↓
Hard sphere colloids
NT2
↓
Janus particles
NT2
↓
Magnetic colloids
NT2
↓
Patchy particles
NT2
↓
Soft colloids
NT1
↓
Complex fluids
NT1
↓
Composite materials
NT1
↓
Confinement
NT1
↓
Conformation & topology
►
▼
NT2
↓
Distortions & defects
►
▼
NT3
↓
Boojums
NT3
↓
Disclinations & dislocations
NT3
↓
Line defects
NT3
↓
Point defects
NT3
↓
Topological defects
NT2
↓
Polymer conformation & topology
►
▼
NT3
↓
Helix-coil transition
NT3
↓
Polymer knots
NT1
↓
Crystal phenomena
►
▼
NT2
↓
Crystal binding
NT2
↓
Crystal defects
NT2
↓
Crystal forms
NT2
↓
Crystal growth
NT2
↓
Crystal melting
NT2
↓
Crystal orientation
NT2
↓
Crystal stoichiometry
NT2
↓
Crystal structure
NT2
↓
Crystal symmetry
NT2
↓
Crystallization
NT2
↓
Nanocrystals
NT2
↓
Polycrystals
NT2
↓
Quasicrystalline structure
NT1
↓
Crystallography
NT1
↓
Density functional theory
►
▼
NT2
↓
Density functional approximations
►
▼
NT3
↓
DFT+DMFT
NT3
↓
DFT+U
NT3
↓
GGA
NT3
↓
Hybrid functionals
NT3
↓
LDA
NT3
↓
LDA+DMFT
NT3
↓
LDA+U
NT3
↓
Meta-GGA
NT3
↓
Pseudopotentials
NT3
↓
Time-dependent DFT
NT2
↓
Density functional calculations
NT2
↓
Density functional theory development
NT1
↓
Drops & bubbles
►
▼
NT2
↓
Aerosols
NT2
↓
Antibubbles
NT2
↓
Drops
►
▼
NT3
↓
Drops of complex fluids
NT2
↓
Microbubbles
NT2
↓
Nanobubbles
NT1
↓
Electric field effects
NT1
↓
Electron techniques
►
▼
NT2
↓
Andreev point contact spectroscopy
NT2
↓
Auger electron spectroscopy
NT2
↓
Electron diffraction
►
▼
NT3
↓
Convergent beam electron diffraction
NT3
↓
Low-energy electron diffraction
►
▼
NT4
↓
Current-voltage low-energy electron diffraction
NT4
↓
Spot-profile analysis LEED
NT3
↓
Reflection high-energy electron diffraction
NT2
↓
Electron energy loss spectroscopy
►
▼
NT3
↓
Electron magnetic circular dichroism
NT3
↓
High-resolution electron energy loss spectroscopy
NT2
↓
Electron microscopy
►
▼
NT3
↓
High-resolution electron microscopy
NT3
↓
High-resolution transmission electron microscopy
NT3
↓
Lorentz microscopy
NT3
↓
Low-energy electron microscopy
NT3
↓
Scanning electron microscopy
►
▼
NT4
↓
Cryo-scanning electron microscopy
NT4
↓
Environmental scanning electron microscopy
NT3
↓
Scanning transmission electron microscopy
►
▼
NT4
↓
Cryo-transmission electron microscopy
NT3
↓
Transmission electron microscopy
NT2
↓
Energy loss near-edge fine structure
NT2
↓
Inelastic electron tunneling spectroscopy
NT1
↓
Emulsions
NT1
↓
Fibers
NT1
↓
Finite-element method
NT1
↓
First-principles calculations
►
▼
NT2
↓
Basis sets
►
▼
NT3
↓
Plane wave
NT2
↓
Density functional theory
►
▼
NT3
↓
Density functional approximations
►
▼
NT4
↓
DFT+DMFT
NT4
↓
DFT+U
NT4
↓
GGA
NT4
↓
Hybrid functionals
NT4
↓
LDA
NT4
↓
LDA+DMFT
NT4
↓
LDA+U
NT4
↓
Meta-GGA
NT4
↓
Pseudopotentials
NT4
↓
Time-dependent DFT
NT3
↓
Density functional calculations
NT3
↓
Density functional theory development
NT2
↓
GW method
NT2
↓
High-throughput calculations
NT2
↓
Quantum chemistry methods
►
▼
NT3
↓
Configuration interaction
NT3
↓
Coupled cluster
NT3
↓
Hartree-Fock methods
NT3
↓
Molecular orbital theory
NT1
↓
Fluctuations & noise
►
▼
NT2
↓
Brownian motion
►
▼
NT3
↓
Fractional Brownian motion
NT2
↓
Fluctuation theorems
►
▼
NT3
↓
Work theorems
NT2
↓
Noise
NT2
↓
Random walks
►
▼
NT3
↓
Continuous-time random walk
NT3
↓
Levy flights
NT1
↓
Foams
►
▼
NT2
↓
Conformal foams
NT1
↓
Gels
►
▼
NT2
↓
Aerogel
NT2
↓
Clay gels
NT2
↓
Hydrogels
NT2
↓
Microgels
NT2
↓
Organogels
NT2
↓
Xerogels
NT1
↓
Glassy systems
NT1
↓
Granular materials
►
▼
NT2
↓
Dry granular materials
NT2
↓
Granular chains
NT2
↓
Granular fluids
NT2
↓
Granular gases
NT2
↓
Granular monolayers
NT2
↓
Granular solids
NT2
↓
Impact craters
NT2
↓
Vibrofluidized granular materials
NT2
↓
Wet granular materials
NT1
↓
Granular packing
►
▼
NT2
↓
Granular compaction
NT1
↓
Infrared techniques
►
▼
NT2
↓
Brewster reflection spectroscopy
NT2
↓
Brillouin scattering & spectroscopy
►
▼
NT3
↓
Brillouin light spectroscopy
NT2
↓
Fourier transform infrared spectroscopy
NT2
↓
Infrared spectroscopy
NT2
↓
Raman spectroscopy
NT2
↓
Rayleigh scattering
NT2
↓
Surface differential reflectance spectroscopy
NT2
↓
Surface-enhanced Raman spectroscopy
NT2
↓
Time-resolved infrared spectroscopy
NT1
↓
Interactions & forces
►
▼
NT2
↓
Acoustic interactions
NT2
↓
Capillary interactions
NT2
↓
Depletion interactions
NT2
↓
Elastic forces
NT2
↓
Electromagnetic interactions
NT2
↓
Electrostatic interactions
►
▼
NT3
↓
Electrostatic double layer forces
NT2
↓
Excluded volume interaction
NT2
↓
Fluctuation mediated interactions
►
▼
NT3
↓
Casimir effect
NT2
↓
Hydrogen bonds
NT2
↓
Hydrophilic interactions
NT2
↓
Hydrophobic interactions
NT2
↓
Magnetic interactions
►
▼
NT3
↓
Dipolar interaction
NT3
↓
Exchange bias
NT3
↓
Exchange interaction
NT3
↓
RKKY interaction
NT2
↓
Osmotic interactions
NT2
↓
Stereochemical interactions
►
▼
NT3
↓
π-π stacking
NT2
↓
Van der Waals interaction
NT1
↓
Interfaces
►
▼
NT2
↓
Gas-liquid interfaces
NT2
↓
Liquid-liquid interfaces
NT2
↓
Liquid-solid interfaces
NT2
↓
Solid-gas interfaces
NT2
↓
Solid-solid interfaces
NT2
↓
Vacuum interfaces
NT1
↓
Ionic fluids
NT1
↓
Lattice-Boltzmann methods
NT1
↓
Liquid crystals
►
▼
NT2
↓
Bent-core liquid crystals
NT2
↓
Biaxial liquid crystals
NT2
↓
Biological liquid crystals
NT2
↓
Cholesteric liquid crystals
NT2
↓
Columnar liquid crystals
NT2
↓
Discotic liquid crystals
NT2
↓
Ferroelectric liquid crystals
NT2
↓
Ferromagnetic liquid crystals
NT2
↓
Liquid crystal blue phase
NT2
↓
Lyotropic liquid crystals
►
▼
NT3
↓
Chromonic liquid crystals
NT2
↓
Metallotropic liquid crystals
NT2
↓
Nematic liquid crystals
NT2
↓
Smectic liquid crystals
NT2
↓
Thermotropic liquid crystals
NT1
↓
Macromolecules
NT1
↓
Mechanical deformation
►
▼
NT2
↓
Anelastic deformation
NT2
↓
Bending
NT2
↓
Creep
NT2
↓
Elastic deformation
NT2
↓
Fatigue
NT2
↓
Plastic deformation
NT2
↓
Shear deformation
NT2
↓
Strain
►
▼
NT3
↓
Epitaxial strain
NT2
↓
Twist deformation
NT1
↓
Microwave techniques
►
▼
NT2
↓
Coherent Raman electron spin resonance spectroscopy
NT2
↓
Dielectric spectroscopy
NT2
↓
Electron nuclear double resonance
NT2
↓
Electron paramagnetic resonance
NT2
↓
Electron spin resonance
NT1
↓
Mode coupling theory
NT1
↓
Molecular dynamics
NT1
↓
Monte Carlo methods
►
▼
NT2
↓
Entropic sampling methods
NT2
↓
Heatbath algorithm
NT2
↓
Hybrid Monte Carlo algorithm
NT2
↓
Langevin algorithm
NT2
↓
Metropolis algorithm
NT2
↓
Path-integral Monte Carlo
NT2
↓
Quantum Monte Carlo
►
▼
NT3
↓
Diffusion quantum Monte Carlo
NT2
↓
Simulated annealing
NT1
↓
Multiscale modeling
NT1
↓
Neutron techniques
►
▼
NT2
↓
Neutron diffraction
NT2
↓
Neutron imaging
►
▼
NT3
↓
Neutron tomography
NT2
↓
Neutron irradiation
NT2
↓
Neutron pair-distribution function analysis
NT2
↓
Neutron reflectometry
NT2
↓
Neutron scattering
►
▼
NT3
↓
Inelastic neutron scattering
NT3
↓
Quasi elastic neutron scattering
NT3
↓
Small angle neutron scattering
NT2
↓
Neutron spin echo spectroscopy
►
▼
NT3
↓
Spin echo small angle neutron scattering
NT2
↓
Time-of-flight neutron spectroscopy
NT1
↓
Optical techniques
►
▼
NT2
↓
Cavity resonators
►
▼
NT3
↓
Whispering gallery mode resonators
NT2
↓
Coherent control
NT2
↓
Confocal imaging
NT2
↓
Electroluminescence
NT2
↓
Ellipsometry
NT2
↓
Fluorescence spectroscopy
NT2
↓
Four-wave mixing
NT2
↓
High-harmonic generation
►
▼
NT3
↓
Optical second-harmonic generation
NT2
↓
Homodyne & heterodyne detection
NT2
↓
Imaging & optical processing
►
▼
NT3
↓
Ghost imaging
NT3
↓
Holography
NT3
↓
Tomography
NT2
↓
Kerr effect
►
▼
NT3
↓
Magneto-optical Kerr effect
►
▼
NT4
↓
Surface magneto-optical Kerr effect
NT2
↓
Laser techniques
►
▼
NT3
↓
Attosecond laser irradiation
NT3
↓
Attosecond laser spectroscopy
NT3
↓
Femtosecond laser irradiation
NT3
↓
Femtosecond laser spectroscopy
NT3
↓
Laser ablation
NT3
↓
Laser-beam impact phenomena
NT3
↓
Optical pumping
NT3
↓
Optical tweezers
NT3
↓
Pump-probe spectroscopy
►
▼
NT4
↓
Transient absorption spectroscopy
NT4
↓
Ultrafast pump-probe spectroscopy
NT3
↓
Two-photon polymerization
NT2
↓
Light scattering
►
▼
NT3
↓
Diffusive wave spectroscopy
NT3
↓
Inelastic light scattering
NT3
↓
Photon correlation spectroscopy
NT3
↓
Static light scattering
NT3
↓
Time-resolved light scattering spectroscopy
NT2
↓
Luminescence
NT2
↓
Optical desorption spectroscopy
NT2
↓
Optical interferometry
NT2
↓
Optical metallography
NT2
↓
Optical microscopy
►
▼
NT3
↓
Annular dark-field imaging
NT3
↓
Dark-field microscopy
NT3
↓
Phase contrast optical microscopy
NT3
↓
Polarized optical microscopy
NT2
↓
Optical nanoscopy
NT2
↓
Photoexcitation
NT2
↓
Photoionization
NT2
↓
Photoluminescence
►
▼
NT3
↓
Fluorescence
►
▼
NT4
↓
Fluorescence recovery after photobleaching
NT4
↓
Light sheet fluorescence microscopy
NT3
↓
Phosphorescence
NT3
↓
Time-resolved photoluminescence
NT2
↓
Photon counting
NT2
↓
Reflectivity
NT1
↓
Pattern formation
►
▼
NT2
↓
Chemical waves
NT2
↓
Spiral & scroll waves
NT2
↓
Turbulent mixing
NT1
↓
Patterning
NT1
↓
Phase behavior
NT1
↓
Phase transitions
►
▼
NT2
↓
Critical phenomena
►
▼
NT3
↓
Critical exponents
NT3
↓
Critical field
NT2
↓
Dynamical phase transitions
NT2
↓
Exotic phases of matter
NT2
↓
Jamming
NT2
↓
Nucleation
NT2
↓
Order parameters
►
▼
NT3
↓
Charge order
NT3
↓
Magnetic order
►
▼
NT4
↓
Antiferromagnetism
NT4
↓
Asperomagnetism
NT4
↓
Diamagnetism
NT4
↓
Ferrimagnetism
NT4
↓
Ferromagnetism
NT4
↓
Frustrated magnetism
►
NT4
↓
Metamagnetism
NT4
↓
Paramagnetism
NT4
↓
Sperimagnetism
NT4
↓
Speromagnetism
NT4
↓
Superparamagnetism
NT3
↓
Nematic order
NT3
↓
Orbital order
NT3
↓
Stripes
NT3
↓
Structural order parameter
NT3
↓
Superconducting order parameter
►
▼
NT4
↓
d-wave
NT4
↓
f-wave
NT4
↓
p-wave
NT4
↓
s-wave
NT2
↓
Phase diagrams
NT2
↓
Phase separation
►
▼
NT3
↓
Dynamics of phase separation
NT3
↓
Microphase separation
NT3
↓
Spinodal decomposition
NT3
↓
Surface-driven phase separation
NT2
↓
Phase transitions by order
►
▼
NT3
↓
BKT transition
NT3
↓
First order phase transitions
NT3
↓
Second order phase transitions
NT2
↓
Quantum phase transitions
►
▼
NT3
↓
Quantum criticality
NT2
↓
Specific phase transitions
►
▼
NT3
↓
Crystallization
NT3
↓
Gelation
NT3
↓
Glass transition
NT3
↓
Liquid crystal phase transitions
NT3
↓
Liquid-gas phase transition
NT3
↓
Liquid-liquid phase transition
►
▼
NT4
↓
Spinodal decomposition
NT3
↓
Liquid-solid phase transition
NT3
↓
Magnetic phase transitions
►
▼
NT4
↓
Spin state transition
NT3
↓
Martensitic phase transition
NT3
↓
Metal-insulator transition
NT3
↓
Mott-superfluid transition
NT3
↓
Nematic phase transition
NT3
↓
Solid-solid transformations
NT3
↓
Structural phase transition
NT3
↓
Superconducting phase transition
NT3
↓
Superconductor-insulator transition
NT2
↓
Transition temperature
NT1
↓
Phase-field modeling
NT1
↓
Photoelectron techniques
►
▼
NT2
↓
Photoelectron diffraction
NT2
↓
Photoelectron emission microscopy
NT2
↓
Photoemission spectroscopy
►
▼
NT3
↓
Angle-resolved photoemission spectroscopy
NT3
↓
Spin-resolved photoemission spectroscopy
NT3
↓
Time & angle resolved photoemission spectroscopy
NT3
↓
Time-resolved two-photon photoemission spectroscopy
NT3
↓
Two-photon photoelectron spectroscopy
NT3
↓
Ultraviolet photoelectron spectroscopy
NT1
↓
Polydisperse materials
NT1
↓
Polymer behavior
►
▼
NT2
↓
Chain stiffness
NT2
↓
Persistence length
NT2
↓
Polymer conformation changes
NT2
↓
Polymer entanglement
NT2
↓
Polymer folding
NT2
↓
Polymer translocation
NT2
↓
Reptation
NT1
↓
Polymer theory
►
▼
NT2
↓
Ideal-chain models
►
▼
NT3
↓
Bead-spring models
NT3
↓
Continuous Gaussian chain model
NT3
↓
Freely-jointed chain
NT3
↓
Freely-rotating chain
NT3
↓
Hindered rotation model
NT3
↓
Worm-like chain model
NT2
↓
Maxwell model
NT2
↓
Polymer scaling theory
NT2
↓
Rouse model
NT2
↓
Self-consistent field theory
NT2
↓
Tube theories
NT2
↓
Zimm model
NT1
↓
Polymers
►
▼
NT2
↓
Block copolymers
NT2
↓
Charged polymers
NT2
↓
Conducting polymers
NT2
↓
Conjugated polymers
NT2
↓
Elastomers
NT2
↓
Liquid crystalline polymers
NT2
↓
Membrane structures
NT2
↓
Polyelectrolytes
NT2
↓
Polymer blends
NT2
↓
Polymer brushes
NT2
↓
Polymer composites
►
▼
NT3
↓
Polymer-nanoparticle composites
NT2
↓
Polymer gels
NT2
↓
Polymer glasses
NT2
↓
Polymer melts
NT2
↓
Polymer solutions
►
▼
NT3
↓
Good solvent
NT3
↓
Poor solvent
NT3
↓
Semidilute theta solutions
NT3
↓
Theta solvent
NT2
↓
Polymer suspensions
NT2
↓
Polymer thin films
NT2
↓
Polymers by architecture
►
▼
NT3
↓
Brush polymer
NT3
↓
Comb polymers
NT3
↓
Cross-linked polymers
NT3
↓
Dendritic polymers
NT3
↓
H-polymer
NT3
↓
Linear polymer
NT3
↓
Polymer networks
NT3
↓
Ring polymers
NT3
↓
Star polymers
NT2
↓
Semicrystalline polymers
NT2
↓
Single polymer chains
►
▼
NT3
↓
DNA
NT3
↓
Rodlike polymer
NT3
↓
Wormlike chain
NT2
↓
Stereochemistry
►
▼
NT3
↓
Atactic polymers
NT3
↓
Eutactic polymers
NT3
↓
Isotactic polymers
NT3
↓
Syndiotactic polymers
NT2
↓
Thermosetting polymers
NT1
↓
Renormalization group
►
▼
NT2
↓
Density matrix renormalization group
NT2
↓
Functional renormalization group
NT2
↓
Matrix product states
NT2
↓
Numerical Renormalization Group
NT2
↓
Projected entangled pair states
NT2
↓
Tensor network renormalization
NT1
↓
Resonance techniques
►
▼
NT2
↓
Cyclotron resonance
NT2
↓
Dynamic nuclear polarization
NT2
↓
Electron nuclear double resonance
NT2
↓
Electron paramagnetic resonance
NT2
↓
Electron spin resonance
NT2
↓
Ferromagnetic resonance
NT2
↓
Mössbauer spectroscopy
►
▼
NT3
↓
Mössbauer emission spectroscopy
NT2
↓
Muon spin resonance
NT2
↓
Nuclear magnetic resonance
►
▼
NT3
↓
Functional magnetic resonance imaging
NT3
↓
Magnetic resonance imaging
NT2
↓
Nuclear quadrupole resonance
NT2
↓
Nuclear spin resonance
NT2
↓
Optically detected magnetic resonance
NT2
↓
Tunnel diode resonance
NT1
↓
Rheology
►
▼
NT2
↓
Flow boundary effects
►
▼
NT3
↓
Flow boundary instabilities
NT3
↓
Flow confinement
NT3
↓
Slip boundary effects
NT3
↓
Wall slip
NT2
↓
Phase properties
NT1
↓
Rheology techniques
►
▼
NT2
↓
Creep testing
NT2
↓
Dynamic mechanical analysis
NT2
↓
Extensional flow measurements
NT2
↓
Microrheology
NT2
↓
Oscillatory measurements
►
▼
NT3
↓
Oscillatory frequency measurements
NT3
↓
Oscillatory shear measurements
NT3
↓
Oscillatory stress measurements
NT2
↓
Pendant drop test
NT2
↓
Stress relaxation
NT2
↓
Viscometers
►
▼
NT3
↓
Capillary rheometer
NT3
↓
Concentric cylinder rheometer
NT3
↓
Cone & plate rheometer
NT3
↓
Parallel plate rheometer
NT3
↓
Sliding plate rheometer
NT3
↓
Slit rheometer
NT2
↓
Yield stress
NT1
↓
Sample preparation
►
▼
NT2
↓
Annealing
NT2
↓
Arc discharge
NT2
↓
Chemical synthesis
NT2
↓
Cold working
NT2
↓
Compaction
NT2
↓
Crystal growth
NT2
↓
Crystallization
NT2
↓
Electropolishing
NT2
↓
Electrospinning
NT2
↓
Epitaxy
►
▼
NT3
↓
Chemical beam epitaxy
NT3
↓
Liquid epitaxy
NT3
↓
Molecular beam epitaxy
NT2
↓
Etching
►
▼
NT3
↓
Plasma etching
NT2
↓
Evaporation
NT2
↓
Film deposition
►
▼
NT3
↓
Chemical deposition
►
▼
NT4
↓
Chemical solution deposition
NT4
↓
Chemical vapor deposition
NT4
↓
Plating
NT3
↓
Physical deposition
►
▼
NT4
↓
Langmuir-Blodgett deposition
NT4
↓
Physical vapor deposition
NT4
↓
Spin coating
NT2
↓
Focused ion beam
NT2
↓
Glow discharge
NT2
↓
Heat treatment
NT2
↓
Ion implantation
NT2
↓
Laser ablation
NT2
↓
Laser annealing
NT2
↓
Lithography
NT2
↓
Melt-spinning
NT2
↓
Powder metallurgy
NT2
↓
Precipitation
NT2
↓
Sintering
NT2
↓
Sol-gel process
NT2
↓
Solidification
NT2
↓
Sputtering
NT2
↓
Strain engineering
NT2
↓
Welding
NT1
↓
Scaling methods
NT1
↓
Scanning techniques
►
▼
NT2
↓
Atomic force microscopy
►
▼
NT3
↓
Magnetic force microscopy
NT3
↓
Noncontact atomic force microscopy
NT3
↓
Piezoresponse force microscopy
NT2
↓
Scanning electron microscopy
►
▼
NT3
↓
Cryo-scanning electron microscopy
NT3
↓
Environmental scanning electron microscopy
NT2
↓
Scanning probe microscopy
NT2
↓
Scanning tunneling microscopy
►
▼
NT3
↓
Annular dark-field imaging
NT3
↓
Spin-polarized scanning tunneling microscopy
NT2
↓
Scanning tunneling spectroscopy
NT1
↓
Self-assembly
►
▼
NT2
↓
Aggregation
NT2
↓
Electric field alignment
NT2
↓
Encapsulation
NT2
↓
Magnetic field alignment
NT2
↓
Origami & Kirigami
NT2
↓
Phase separation driven self-assembly
NT2
↓
Supramolecular phase separation
NT1
↓
Single molecule techniques
►
▼
NT2
↓
Tethered particle motion
NT1
↓
Statistical hydrodynamics
NT1
↓
Statistical methods
►
▼
NT2
↓
Asymmetric simple exclusion process
NT2
↓
Brownian dynamics
NT2
↓
Dissipative particle dynamics
NT2
↓
Extreme event statistics
►
▼
NT3
↓
First passage problems
NT2
↓
Fokker–Planck equation
NT2
↓
Full counting statistics
NT2
↓
Ising model
►
▼
NT3
↓
Random field Ising model
NT2
↓
Kardar–Parisi–Zhang equation
NT2
↓
Langevin equation
►
▼
NT3
↓
Stokesian dynamics
NT2
↓
Markovian processes
NT2
↓
Master equation
NT2
↓
Non-Markovian processes
NT2
↓
Phase space dynamics
NT2
↓
Replica theory
NT2
↓
Spatial modeling
NT2
↓
Stochastic analysis
NT2
↓
Stochastic differential equations
NT2
↓
Transfer matrix calculations
NT2
↓
Virial theorem
NT2
↓
XY model
NT1
↓
Surface & interfacial phenomena
►
▼
NT2
↓
Adhesion
NT2
↓
Adsorption
►
▼
NT3
↓
Chemisorption
NT3
↓
Physisorption
NT2
↓
Atom impact & scattering
NT2
↓
Cohesion
►
▼
NT3
↓
Self-healing
NT2
↓
Cracking
NT2
↓
Crazing
NT2
↓
Desorption
NT2
↓
Fracture
NT2
↓
Friction
NT2
↓
Growth
►
▼
NT3
↓
Island
NT2
↓
Ion impact & scattering
NT2
↓
Irradiation effects
►
▼
NT3
↓
Radiation damage
NT2
↓
Island
NT2
↓
Lubrication
NT2
↓
Nucleation on surfaces
NT2
↓
Roughness
NT2
↓
Surface diffusion
NT2
↓
Surface instabilities
►
▼
NT3
↓
Buckling
NT3
↓
Cratering
NT3
↓
Creasing
NT3
↓
Wrinkling
NT2
↓
Surface reconstruction
NT2
↓
Tribology
►
▼
NT3
↓
Abrasion
NT3
↓
Friction
NT3
↓
Lubrication
NT3
↓
Wear
NT2
↓
Wall slip
NT2
↓
Wetting
►
▼
NT3
↓
Capillarity
NT3
↓
Dewetting
NT3
↓
Electrowetting
NT3
↓
Hydrophilic surfaces
NT3
↓
Hydrophobic surfaces
NT3
↓
Oleophobic surfaces
NT3
↓
Omniphobic surfaces
NT3
↓
Wetting transitions
►
▼
NT4
↓
Complete wetting
NT4
↓
Critical wetting
NT4
↓
Partial wetting
NT1
↓
Surfactants, micelles & vesicles
►
▼
NT2
↓
Aggregates
NT2
↓
Langmuir-Blodgett films
NT2
↓
Micelles
►
▼
NT3
↓
Cylindrical micelles
NT3
↓
Disk micelles
NT3
↓
Spherical micelles
NT2
↓
Surfactant bilayers
NT2
↓
Surfactant composites
NT2
↓
Surfactant monolayers
NT2
↓
Vesicle structures
►
▼
NT3
↓
Giant vesicles
NT3
↓
Unilamellar vesicles
NT1
↓
Synthesis
►
▼
NT2
↓
Polymer synthesis
NT2
↓
Polymerization
NT1
↓
Theories of collective dynamics & active matter
►
▼
NT2
↓
Vicsek model
NT1
↓
Thermal techniques
►
▼
NT2
↓
Calorimetry
►
▼
NT3
↓
Differential scanning calorimetry
NT2
↓
Differential thermal analysis
NT2
↓
Dynamic mechanical analysis
NT2
↓
Pyrometry
NT2
↓
Specific heat measurements
NT2
↓
Thermodilatometry
NT2
↓
Thermogravimetric analysis
NT2
↓
Thermomechanical analysis
NT2
↓
Thermoreflectance
NT1
↓
Thermodynamics
►
▼
NT2
↓
Interface & surface thermodynamics
NT2
↓
Nonequilibrium & irreversible thermodynamics
►
▼
NT3
↓
Entropy production
NT2
↓
Quantum thermodynamics
NT2
↓
Thermodynamics of computation
NT2
↓
Thermodynamics of mixing
NT1
↓
Transport phenomena
►
▼
NT2
↓
Ballistic transport
NT2
↓
Carrier dynamics
NT2
↓
Carrier generation & recombination
NT2
↓
Classical transport
NT2
↓
Diffusion
►
▼
NT3
↓
Anomalous diffusion
NT3
↓
Self-diffusion
NT2
↓
Diffusiophoresis
NT2
↓
Dissipative dynamics
NT2
↓
Electrical conductivity
NT2
↓
Electron relaxation
NT2
↓
Electrophoresis
NT2
↓
Hall effect
►
▼
NT3
↓
Anomalous Hall effect
NT3
↓
Quantum anomalous Hall effect
NT3
↓
Quantum Hall effect
►
▼
NT4
↓
Fractional quantum Hall effect
NT4
↓
Integer quantum Hall effect
NT3
↓
Quantum spin Hall effect
NT3
↓
Spin Hall effect
►
▼
NT4
↓
Inverse spin Hall effect
NT3
↓
Topological Hall effect
NT2
↓
Hopping transport
NT2
↓
Ionic transport
NT2
↓
Kane-Mele model
NT2
↓
Kondo effect
NT2
↓
Localization
►
▼
NT3
↓
Anderson localization
NT3
↓
Many-body localization
NT3
↓
Weak antilocalization
NT3
↓
Weak localization
NT2
↓
Percolation
NT2
↓
Quantum transport
NT2
↓
Skin effect
NT2
↓
Thermophoresis
NT1
↓
Transport phenomena
NT1
↓
X-ray techniques
►
▼
NT2
↓
Energy spectroscopy for chemical analysis
NT2
↓
Energy-dispersive x-ray spectroscopy
NT2
↓
Hard x-ray photoelectron spectroscopy
NT2
↓
X-ray absorption spectroscopy
►
▼
NT3
↓
X-ray absorption fine structure spectroscopy
NT3
↓
X-ray absorption near-edge spectroscopy
NT2
↓
X-ray diffraction
►
▼
NT3
↓
Grazing incidence X-ray diffraction
NT3
↓
X-ray diffraction topography
NT3
↓
X-ray powder diffraction
NT2
↓
X-ray emission spectroscopy
NT2
↓
X-ray fluorescence holography
NT2
↓
X-ray holography
NT2
↓
X-ray imaging
NT2
↓
X-ray magnetic circular dichroism
NT2
↓
X-ray magnetic linear dichroism
NT2
↓
X-ray pair-distribution function analysis
NT2
↓
X-ray photoelectron diffraction
NT2
↓
X-ray photoelectron spectroscopy
NT2
↓
X-ray photoemission electron microscopy
NT2
↓
X-ray photon correlation spectroscopy
NT2
↓
X-ray reflectivity
NT2
↓
X-ray scattering
►
▼
NT3
↓
Coherent X-ray scattering
NT3
↓
Resonant elastic x-ray scattering
NT3
↓
Resonant inelastic x-ray scattering
NT3
↓
Small-angle x-ray scattering
NT3
↓
X-ray diffuse scattering
NT3
↓
X-ray resonant magnetic scattering
NT2
↓
X-ray standing waves
NT2
↓
X-ray tomography
Date of creation
14-Sep-2018
Modified
15-Sep-2018
Accepted term
14-Sep-2018
Descendant terms
254
ARK
ark:/99152/t3v87pxl01p1w4
More specific terms
76
Alternative terms
0
Related terms
0
Notes
0
Metadata
BS8723-5
DC
MADS
SKOS-Core
VDEX
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Central terms
Laser systems
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Wetting
Ideal-chain models
Viscometers
Electronically polarized systems
Junctions
Distortions & defects
Surface instabilities
Tribology