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(Click for frequent words.) 63 annealing temperature 61 elastic modulus 61 thermal conductivities 60 gigapascals 59 austenitic stainless steels 58 conductivities 58 thermal diffusivity 58 crystallinity 57 electrical resistivity 57 martensitic 57 dielectric constant 57 chromium chloride 57 ionic conductivity 57 tensile modulus 57 W mK 56 shear modulus 56 thermally stable 56 dielectric constants 56 kg/m3 56 nanomesh 56 electrical conductivity 56 emittance 56 moisture absorption 56 thermal gradients 56 electrical conductance 56 vanadium oxide 56 ceramic composites 56 poly L lysine 56 hafnium oxide 56 hydrophobicity 56 cryogenic temperatures 55 copper oxide superconductors 55 isotherm 55 deformability 55 electron pairing 55 electron scattering 55 Thermal conductivity 55 atmospheric CO2 concentrations 55 megapascals 55 gelation 55 inhomogeneity 55 electrostatics 55 hydrides 55 YBCO 55 piezoelectric properties 55 Fig. 3b 55 oC 55 polyaniline 54 GPa 54 isotope fractionation 54 electron doped 54 photon energies 54 thermal gradient 54 microvolts 54 strontium isotope 54 MgB2 54 thermal conductivity 54 adsorbate 54 oxide thickness 54 tensile stress 54 conductivity 54 pyrogenic 54 flexural strength 54 silicon nanowire 54 #oF [001] 54 -# º F [002] 54 corona discharge 54 Young modulus 54 ohm cm 54 manganite 54 thermal conduction 53 kilopascals 53 vibrational modes 53 dewpoint temperature 53 bismuth telluride 53 boron oxide 53 excitonic 53 conventional superconductors 53 conductance 53 oscillation frequency 53 nMOS 53 pearlite 53 cosmic ray flux 53 osmotic pressure 53 transmissivity 53 º Fahrenheit 53 thermally activated 53 hydrolysis resistance 53 martensite 53 -# ° [002] 53 zeolite membranes 53 polyamides 53 compressibility 53 graphene membranes 53 -# degrees Centigrade 53 recrystallization 53 hydrolytic stability 53 adsorption isotherms 53 dielectric permittivity 53 calcium bromide 53 stoichiometry 53 dielectric breakdown 53 embrittlement 53 irradiance 52 ppbv 52 temperature coefficients 52 magnetic permeability 52 endothermic 52 impermeability 52 permittivity 52 º Celsius 52 magnetocaloric effect 52 uniaxial 52 nanotube arrays 52 thermal conductance 52 velocity dispersion 52 cosmic ray intensity 52 ksi 52 Kelvin -# 52 flexural modulus 52 reaction kinetics 52 degreesC 52 dipole moment 52 supercooling 52 refractive indices 52 birefringence 52 enthalpy 52 longwave radiation 52 #degC [002] 52 ceramic superconductors 52 W/cm2 52 alloying elements 52 asparagine containing food 52 electron mobility 52 heavy fermion 52 interfacial tension 52 fig. S2 52 superparamagnetic 52 W/m2 52 fluid viscosity 52 #oC [001] 52 compressive stress 52 bandgap 52 ferromagnetism 52 nanocomposite material 52 Halifax Weather Overcast 52 oxidative stability 52 ZnO nanowires 52 ASTM E# [002] 51 iron arsenide 51 multicrystalline cells 51 calorific values 51 compressive strength 51 austenitic grades 51 chromium alloy 51 bending stiffness 51 AlGaAs 51 deuterated 51 kelvin -# 51 compressive load 51 absorption coefficient 51 moldability 51 light transmittance 51 cordierite 51 elastic moduli 51 mK 51 cuprate superconductors 51 ˚ C. 51 superlattice 51 μS cm 51 insolation 51 quantum oscillations 51 ferroelectricity 51 supersolid 51 ° C/# 51 molar ratio 51 yr -1 51 Nernst 51 flexural 51 AlGaN GaN 51 Fig. 2A 51 cellulase 51 ˚ F 51 chemical reactivity 51 ductility 51 #degreesC 51 inorganic semiconductors 51 MPa 51 photocurrent 51 diffusion coefficient 51 viscoelastic properties 51 adiabatic 51 differential scanning calorimetry 51 oscillation amplitude 51 #.#C #.#F [003] 51 thermodynamically 51 MWCNTs 51 intermetallic 51 PLLA 51 superconduct 51 sorption 51 kcal mol 51 Coulomb blockade 51 boron nitride 51 Celsius #.#F 51 adsorptive 51 SQUIDs 51 microcavity 51 photoconductive 51 precipitated silica 51 diamond anvil 51 -# degrees Fahrenheit [002] 51 kinematic viscosity 50 reflow profiles 50 #.degree [002] 50 Liquid helium 50 electroactive 50 optically transparent 50 electron pairs 50 Deg C 50 intermetallic compounds 50 ultrahigh vacuum 50 multicrystalline silicon 50 Nd YAG lasers 50 nanoporous 50 stretchability 50 ferritic grades 50 ⁰ C 50 oxidized mercury 50 airflows 50 unconventional superconductivity 50 austenitic stainless steel 50 weldability 50 diffusivity 50 frictional resistance 50 CFU ml 50 nanomembranes 50 pyrolytic 50 temperature gradient 50 +# º C [002] 50 ruminal 50 magnetoresistance 50 calorimetry 50 rheological properties 50 Antarctic stratosphere 50 -# Celsius [001] 50 atmospheric CO2 levels 50 cuprate 50 thermal insulator 50 Global Warming Potential GWP 50 tectonic uplift 50 flame retardance 50 reduced graphene oxide 50 2ppm 50 ultrananocrystalline diamond 50 chemical inertness 50 absorbance 50 -# ° Celsius [001] 50 biofilm matrix 50 ionic contaminants 50 ultracold temperatures 50 melt viscosity 50 photochemistry 50 bilayers 50 demagnetization 50 kGy 50 degC 50 -# ° C. [002] 50 downwelling 50 coercivity 50 undoped 50 #.#oC [001] 50 graphite whiskers 50 composite laminates 50 rheological 50 cellularity 50 barium titanate 50 -# degrees Celsius [001] 50 SiO2 50 graphitic carbon 50 2oC 50 absorption spectra 50 +# deg C [001] 50 tensile strain 50 micrometer scale 50 emulsion droplets 50 thermal impedance 50 degreesF 50 helicity 50 #Â º C 50 polymer membranes 50 enzyme kinetics 50 ambient temperature 50 Â ° C. 50 transmittance 50 crosslinked 50 selectivities 50 silicon nitride 50 -# º C. 49 plasma renin 49 ab initio calculations 49 pHs 49 permeabilities 49 meV 49 Å -1 49 CaCO 3 49 oxidise 49 sphericity 49 ferritic 49 wettability 49 bosonic 49 cm -1 49 Zinc oxide 49 magnetic excitations 49 carbon dioxide concentrations 49 HEMTs 49 ARPES 49 electrons emitted 49 nitrogen monoxide 49 Wm -2 49 InAs 49 isostatic 49 SiO 2 49 photosynthetic apparatus 49 macroscale 49 equilibrated 49 cementite 49 semiconducting materials 49 -# ˚ C 49 polysiloxane 49 Fig. 2B 49 μV 49 seawater pH 49 titanium dioxide nanotubes 49 aerosol concentrations 49 boron trifluoride 49 carrier mobilities 49 nonlinearities 49 electronic excitations 49 leukocyte count 49 patterning technique 49 gold nanoclusters 49 yttria stabilized zirconia 49 cryogenically cooled 49 MWNT 49 tensile strength 49 thermal EMF 49 anodic 49 exotherm 49 post perovskite 49 temprature 49 diffusion coefficients 49 sulfonated 49 nanobelts 49 ammonium ions 49 Stanyl 49 vinyl esters 49 bandgaps 49 perovskite 49 epitaxial layer 49 silica SiO2 49 indium antimonide 49 nitride layer 49 ferromagnetic materials 49 temporal variability 49 photocatalysts 49 crystalline solids 49 ms -1 49 volumetric efficiency 49 polyimides 49 kelvins 49 Ti 4V 49 sulphate aerosols 49 aspartate aminotransferase 49 crystal lattices 49 ° F/# ° C [002] 49 titania 49 nanoribbon 49 neutrino mass 49 oxide semiconductor 49 -# ° C [001] 49 -# º C [002] 49 fluxes 49 equilibration 49 lattice mismatch 49 fluorescence intensity 49 heterojunction 49 nanocrystalline 49 Dirac fermions 49 C0G 49 ferroelectrics 49 electrochemical capacitors 49 microampere 49 pnictides 49 terahertz quantum cascade 49 #F #C [001] 49 emissivity 49 microcavities 49 respirable 49 nanopatterned 49 aqueous dispersion 49 bi axial 49 waviness 49 polyetheretherketone PEEK 49 millivolts 49 Superconductors 49 kelvin 49 hydroxyl radical 49 temperature gradients 49 reflow temperatures 49 deoxygenated hemoglobin 49 telluride 49 #.#C #.#C 49 +# degC [002] 49 corrugation 49 degrees farenheit 49 thermal decomposition 49 ° F/# ° C [001] 49 ferroelectric polymer 49 nitrides 49 oxide thickness EOT 49 beryllium oxide 49 droplet sizes 48 antimonide 48 oxyhemoglobin 48 electrospray 48 isotherms 48 nitrogen NOx emissions 48 resonance frequency 48 ˚ F. 48 photoemission 48 MgO 48 compressive strain 48 photolysis 48 molten salts 48 processability 48 cm -3 48 serum homocysteine 48 Min temp 48 modulus 48 nanopillars 48 convective heat 48 silica nanoparticles 48 carbides 48 nonmagnetic 48 pore sizes 48 ZrO 2 48 nitrogen doped 48 total solar irradiance 48 -4 ° 48 austenite 48 degrees celcius 48 DFT calculations 48 electrochemical sensor 48 organosilicon 48 UV photons 48 cathodes 48 saturable 48 C# fullerenes 48 photomultiplier 48 superconducting 48 solar irradiance 48 degree celcius 48 hydride 48 van der Waals interactions 48 magnetisation 48 rigid polyurethane foam 48 monotonically 48 stomatal conductance 48 ultimate tensile strength 48 submicrometer 48 alumina ceramic 48 stabilized zirconia 48 thermal equilibrium 48 phonon 48 nanofabric 48 CdSe 48 friction coefficient 48 dielectric strength 48 nT 48 crossflow 48 downgauging 48 flowability 48 Fig. 2a 48 dielectrics 48 electrically insulating 48 heterostructures 48 ohmic 48 polymer nanocomposites 48 radiative transfer 48 Tensile strength 48 dye sensitized cells 48 tumor perfusion 48 magnetically coupled 48 gate electrode 48 trimers 48 oxide particles 48 .3 microns 48 atmospheric CO2 concentration 48 tensile strengths 48 spectral measurements 48 isotopic ratios 48 thermoset rubber 48 polaritons 48 moisture vapor 48 Mg Fe 48 boron carbide 48 particulate contamination 48 annealed 48 paramagnetic 48 degF 48 superfluids 48 nonlinear optical 48 cm ^ sup 48 Fig. 4A 48 ferrites 48 UV wavelengths 48 crystalline Si 48 photostability 48 plasmon 48 CMOS transistors 48 cyclohexanone 48 nickel chromium 48 #MPa 48 purities 48 interfacial 48 nonlinearity 48 x ray absorption spectroscopy 48 ug g 48 bilayer graphene 48 metallic alloys 48 solar insolation 48 PZT 48 dielectric layer 48 indium gallium 48 metallic nanostructures 48 mu m 48 mT 48 photoluminescence 48 corrosion inhibition 48 variabilities 48 Skeletal muscle 48 anomalously warm 48 neutron radiation 48 Fig. 1E 48 Supplementary Fig 48 polycrystalline 48 thermo mechanical 48 semiconductive 48 cyclic voltammetry 48 relaxivity 48 #.#-#.# degrees Fahrenheit [002] 48 polymer membrane 48 temperature coefficient 48 inhomogeneous 48 Raman spectra 48 serum LDL cholesterol 48 flame retardancy 48 P3HT 48 glacial interglacial cycles 48 ZnS 48 #x# ^ 48 solar minima 48 thermally induced 48 ° C ambient temperature 47 anthropogenic carbon dioxide 47 degree Celcius 47 surgical decompression 47 Jovian planets 47 dissolved oxygen pH 47 topological insulators 47 GaP 47 MeV 47 milligauss 47 viscoelasticity 47 InN 47 #.degree [001] 47 nanoparticle arrays 47 spin precession 47 atomic lattice 47 deformation 47 semiconducting properties 47 calcined kaolin 47 Ionic liquids 47 molybdenum disulfide 47 -5 ° C. 47 nanosized 47 elastic deformation 47 eumelanin 47 physico chemical properties 47 bilayer 47 geological timescales 47 PbS 47 fermion 47 epididymal 47 radiative recombination 47 titania nanotubes 47 #ppb gold 47 polyvinylidene fluoride PVDF 47 catalytically active 47 nanofilms 47 piezoelectric crystals 47 ultraviolet lasers 47 weakly interacting 47 hydrophobic interactions 47 -# ° F [001] 47 nanometric 47 hypercapnia 47 1ppm 47 superconductive 47 #.#nm [002] 47 CF4 47 capacitive coupling 47 high temperature superconductors 47 reverse micelles 47 diurnal variation 47 crystallites 47 manganese oxide 47 Gallium arsenide 47 Min Temp #.# 47 #C #F [003] 47 θ 47 mercury Hg 47 K dielectrics 47 hydrolytic 47 intermolecular forces 47 multijunction solar cells 47 lanthanum oxide 47 refractive index 47 cyclicity 47 Mott insulator 47 bulk heterojunction 47 bending rigidity 47 solvation 47 degree Centigrade 47 #.#C above 47 chalcogenides 47 +# ° F 47 tempera tures 47 enzymatic digestion 47 electrical insulator 47 ° Fahrenheit 47 +# ° F. 47 ultra violet radiation 47 ^ sup -1 47 photoelectron spectroscopy 47 hPa 47 fluence 47 superlattices 47 resonant frequencies 47 nanomolar 47 lactate dehydrogenase 47 corrosive atmospheres 47 friability 47 argon ion 47 mAh g 47 zero valent iron 47 interparticle 47 clamping voltages 47 electroluminescence EL 47 silicate 47 √ Hz 47 dispersive 47 silicon oxynitride 47 supercooled liquid 47 bistability 47 micrometre 47 supersaturation 47 m ^ sup 47 sitosterol 47 mcg ml 47 oxygenated hemoglobin 47 micrometre sized 47 #deg C 47 magnesium ion 47 electrically conducting 47 silicon dioxide SiO2 47 ε 47 thermosets 47 caustic soda sodium hydroxide 47 cadmium sulfide 47 nontreated 47 nanofluids 47 expiratory flow 47 fig. S1 47 ytterbium 47 monofilaments 47 temperature 47 #ppm Cu 47 graphene nanoribbons 47 nonoverlapping 47 Fig. 2b 47 lumbar lordosis 47 millidarcies 47 SAC alloys 47 serum lipid 47 hemoglobin Hb 47 isotope ratio 47 -# degrees Celcius 47 pulmonary arterial 47 halides 47 cyclic loading 47 halogenated 47 LiNbO3 47 -# deg C 47 polymeric materials 47 DeNOx 47 Fig. 1b 47 mercury mmHg 47 magnetic dipole 47 zirconate 47 tensile 47 FeO 47 zirconium oxide 47 catalytic reactions 47 austenitic 47 nanomagnets 47 transparent conductive oxides 47 afterload 47 climate forcings 47 nanoribbons 47 +# degreesC 47 Basotect 47 membrane permeability 47 cm ² 47 cobalt atom 47 nanotubes nanowires 47 metallicity 47 pyroxene 47 leakage currents 47 #Â ° C 47 barometric pressures 47 micron thick 47 membrane electrode assemblies MEAs 47 friction COF 47 denaturation 47 upper troposphere 47 g cc 47 biaxial 47 aragonite 47 meridional flow 47 thermodynamically stable 47 Fig. 4B 47 gravitational acceleration 47 input capacitance 47 CIS CIGS 47 fused silica 47 carcinogenic polycyclic aromatic hydrocarbons 47 metal hydrides 47 dipolar 47 proteinaceous 47 chlorine monoxide 47 germanium substrates 47 ZnSe 47 carbon steels 47 isotope ratios 47 anionic 46 dichromate 46 ferromagnet 46 gallium indium arsenide 46 nanostructural 46 water vapor permeability 46 geothermal gradient 46 carotid artery thickness 46 gate dielectric 46 PMOS transistors 46 -4 degrees Fahrenheit 46 orbital eccentricity 46 superconductors 46 metal halides 46 #lm [002] 46 UV absorbance 46 + #.#mm 46 ductile 46 CO2 fluxes 46 SAXS 46 ˚ C 46 hydrogen embrittlement 46 micromachine 46 nucleate 46 alloyed steel 46 Inconel 46 iron pnictides 46 silicic acid 46 catalyzed reactions 46 Tellurium 46 scrotal temperatures 46 ß amyloid 46 infected erythrocytes 46 carbonize 46 thermoelectric generators 46 nm excitation 46 homopolymer 46 resorption 46 chlorophyll concentrations 46 kPa 46 calcination 46 respired 46 eutectic alloy 46 varistor 46 δ 46 cuprates 46 nanostructured 46 graphene transistor 46 contractile function 46 copper nanowires 46 tropospheric 46 thermodynamic properties 46 heterogeneous catalysis 46 nanocoatings 46 zinc oxide nanoparticles 46 nitride semiconductor 46 graphene layers 46 pentacene 46 anneal 46 photonic bandgap 46 intracellular pH 46 DSSCs 46 piezoresistive 46 oxidisation 46 helium atoms 46 electro optic plastics 46 Shipment volumes 46 Mercury exosphere 46 m/s2 46 pN 46 electromagnetic phenomena 46 Bulk density 46 ± #ppm [001] 46 thermal inertia 46 adsorption 46 gallium indium phosphide 46 striated muscle 46 crystalline structure 46 defect densities 46 ° С 46 #cm [001] 46 chemically reactive 46 Fig. 1d 46 º -# º 46 quantum criticality 46 ferrous oxide 46 exhaled NO 46 ampacity 46 n butanol 46 SST anomalies 46 vanadium dioxide 46 resins engineered 46 carbon nanofibers 46 mechanical deformations 46 Particulate emissions 46 poleward 46 HSLA steels 46 ° C 46 covalent bonding 46 echogenicity 46 lightfastness 46 piezo actuator 46 oxygen isotope 46 oligomer 46 SWNTs 46 degradability 46 trivalent chromium 46 spectroscopic analysis 46 indium gallium nitride InGaN 46 titanium alloys 46 relativistic speeds 46 neodymium magnetic 46 superconducting wire 46 tungsten halogen 46 insulative 46 poly Si 46 ethanol butanol 46 Intraocular pressure 46 #.#F [001] 46 columbium 46 degrees Farenheit 46 self assembled monolayers 46 silica particles 46 ATPase activity 46 inhomogeneities 46 bacterial decomposition 46 aluminosilicate 46 tribological 46 dihydrogen 46 PEEK OPTIMA 46 UMG silicon 46 absorption spectroscopy 46 oxygen uptake 46 lattice vibrations 46 nonequilibrium 46 +# degrees Centigrade 46 intergranular corrosion 46 #.#dB [003] 46 lasing threshold 46 polymeric membranes 46 silica spheres 46 MTT assay 46 intramolecular 46 liquid electrolytes 46 sonication 46 μmol 46 nanosize 46 Brillouin zone 46 midlatitudes 46 formability 46 rotational inertia 46 anisotropy 46 antiprotons 46 erbium 46 photochemical reactions 46 resonance frequencies 46 desorption 46 phospholipid membranes 46 Kelvins 46 sulfidic 46 Raman scattering 46 CAIs 46 Conductivity 46 1kV 46 polymer gels 46 normoxic 46 heterojunctions 46 breakdown voltages 46 magnetostrictive 46 ceramic membranes 46 hydrous 46 magnetization reversal 46 permeability 46 nano composites 46 thermophysical properties 46 GaN wafers 46 Ozone O3 46 friction coefficients 46 dielectric layers 46 Fluctuating temperatures 46 Si PV 46 mesospheric 46 diffusive 46 laser irradiation 46 carbon nanofiber 46 Soil pH 46 boreal ecosystems 46 monocrystalline silicon 46 ° -# ° [001] 46 organic TFTs 46 Carbon nanotube 46 Appy Sluijs 46 #OHD 46 viscosity 46 deg F 46 #ppm ° C 46 bottomhole pressure 46 collagen elastin 46 #mA [003] 46 MIL HDBK #F 46 diurnal temperature 46 g cm 46 polysulfone 46 gallium indium 46 galvanic corrosion 46 elemental composition 46 nanoglue 46 formamide 46 conjugated polymers 46 vapor permeable 46 frequency transducers 46 microbolometers 46 ionized calcium 46 SUVmax 46 roughening 46 detectably 46 concentration Cmax 46 injection moldable 46 glacial interglacial 46 soluble solids 46 aspheres 46 Cadmium telluride 46 #.#ppm [001] 46 mercuric 46 flowrate 45 CaCO3 45 deplete ozone 45 zinc selenide 45 electrophoretic 45 μg liter 45 turgor 45 ± 5ppm 45 -# degreesC 45 fig. S6 45 pulse amplitude 45 boron nitride nanotubes 45 cryostat 45 multi walled nanotubes 45 μg ml 45 Mechanical ventilation 45 angular displacement 45 cm sec 45 interannual variability