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1 n direction-dependent, that is, anisotropic, electrical conductivity.
2 of films resulting in an improvement in the electrical conductivity.
3 ures of both high ionic conductivity and low electrical conductivity.
4 from the transport region, enabling enhanced electrical conductivity.
5 is and for other applications that rely upon electrical conductivity.
6 ch as an elevated surface area and excellent electrical conductivity.
7 tubular remodeling significantly affect TATS electrical conductivity.
8 erving the material quality and showing good electrical conductivity.
9 of heat transport with little degradation of electrical conductivity.
10 lication of Mn2O3 is limited due to its poor electrical conductivity.
11 engineering, yielding 3.5 x 10(4) S m(-1) in electrical conductivity.
12 droplets to connected networks that support electrical conductivity.
13 s, high specific surface area, and excellent electrical conductivity.
14 of graphene nanoribbons for improving their electrical conductivity.
15 120 K with an abrupt change in structure and electrical conductivity.
16 high magnetic ordering temperatures and high electrical conductivity.
17 added to semiconducting polymers to improve electrical conductivity.
18 o thermal conductivity to be proportional to electrical conductivity.
19 edge sites, porosity, heteroatom doping and electrical conductivity.
20 ithium ions and at the same time with a good electrical conductivity.
21 nation of high optical transparency and high electrical conductivity.
22 om the glass matrix and show relatively high electrical conductivity.
23 nanotube sheets, which provide strength and electrical conductivity.
24 have competitive advantages in terms of its electrical conductivity.
25 electrodes digested the film and changed its electrical conductivity.
26 Bs) due to its high theoretical capacity and electrical conductivity.
27 nduction band, leading to an increase in the electrical conductivity.
28 y regarded as insulators, despite reports of electrical conductivity.
29 argely hindered by MOFs' conventionally poor electrical conductivity.
30 osite films results in a sizable loss in the electrical conductivity.
31 raphene oxide (rGO), which suffers from poor electrical conductivity.
32 s of the ferroelectric domain walls is their electrical conductivity.
33 tems is still largely hampered by their poor electrical conductivities.
34 eets with ordered metal divacancies and high electrical conductivities.
35 electrocatalysts through finely tuning their electrical conductivities.
36 r mobility, thus allowing to reach very high electrical conductivities.
37 - 5.4 g/100g), ash (0.531 +/- 0.632 g/100g), electrical conductivity (1.1 +/- 0.780 ms/cm), pH of (3.
38 g electrode (TCE) properties, including high electrical conductivity (~11 670 S cm(-1) ) and high wor
39 The carbon-Ti(4)O(7) composite REMs had high electrical conductivities (1832 to 2991 S m(-1)), where
40 omposites with high thermal stability(1) and electrical conductivity(2-4) that are suitable for appli
41 r bioelectronic applications, including high electrical conductivity (~20 S cm(-1) in PBS, ~40 S cm(-
42 ation of ultralow thermal conductivity, high electrical conductivity (282 S.cm(-1)), and high hole mo
43 hows semiconducting behavior with reasonable electrical conductivity (~500 mOhm-cm), an optical band-
44 a relatively high sp(2) fraction, a moderate electrical conductivity (7.75 x 10(-3) S cm(-1)), and an
46 tion of CNTs also significantly improved the electrical conductivity along with a higher photoconduct
47 ked sheets that exhibit superior thermal and electrical conductivities and improved mechanical streng
48 or drawbacks are, however, an inherently low electrical conductivity and a limited hole diffusion len
49 rahigh power factor, which comes from a high electrical conductivity and a strongly enhanced Seebeck
50 Sr(2) Fe(2) O(6-delta) also has the highest electrical conductivity and a unique type of defect-orde
51 lications in biomedicine because of its high electrical conductivity and biocompatibility caused by i
53 that the metal ion profoundly influences the electrical conductivity and dominant carrier type in the
55 materials is to realize simultaneously high electrical conductivity and high induced-voltage in resp
56 hevron nanoribbons, thus achieving increased electrical conductivity and improved chemical sensing ca
61 rectly classified 96.7% of the groups, being electrical conductivity and moisture followed by the vol
63 r DESs which are characterized by profitable electrical conductivity and negligible vapor pressure.
64 ype organic thermoelectric materials of high electrical conductivity and of 1D electronic structure.
67 he change in innate milk properties, such as electrical conductivity and pH, upon addition of adulter
69 of CNF loading on the mechanical properties, electrical conductivity and piezoresistive behavior was
70 nd a low detection limit of 0.17nM thanks to electrical conductivity and porous structure of PPy.
71 carrier concentration, which results in high electrical conductivity and power factor of ~5.10 muW/cm
72 ive gold nanoparticles (raGNPs) enhanced the electrical conductivity and provided a greater number of
75 osites exhibit an abnormal decoupling of the electrical conductivity and Seebeck coefficient as a fun
76 alent sulfur doping simultaneously increases electrical conductivity and Seebeck coefficient in Bi2 T
78 ing, within considerable limits enhanced the electrical conductivity and Seebeck coefficients in Cu(2
80 h electron injection efficiency due to their electrical conductivity and strong electronic coupling t
81 an overview of recent approaches to enhance electrical conductivity and structural stability of cath
82 ercapacitors thanks to their high metal-like electrical conductivity and surface-functional-group-ena
83 nstrate that incompatible properties such as electrical conductivity and TCR can be achieved simultan
84 ibits superior performance because of higher electrical conductivity and the capture of the soluble i
85 soil quality, in terms of change in the soil electrical conductivity and the corresponding change in
86 ion, which in turn affect the nanocomposites electrical conductivity and their catalytic performance.
87 in n-doped polymers, resulting in excellent electrical conductivity and thermoelectric performance.
88 (Eg approximately 0.85 eV) exhibit excellent electrical conductivity and thermoelectric power factors
91 ferent ionic concentrations, i.e., different electrical conductivities, and over a large range of the
92 erties such as extremely low densities, high electrical conductivities, and remarkable mechanical pro
93 n Toronto, Canada, by quantifying three BTs, electrical conductivity, and delta(18)O in high-frequenc
94 rrently unrivaled combination of resolution, electrical conductivity, and electronic/wiring density.
95 mpressibility, high fatigue resistance, high electrical conductivity, and excellent thermal-insulatio
96 ular graphene films with open porosity, high electrical conductivity, and good tensile strength, can
97 to the controllable architectures, excellent electrical conductivity, and highly exposed well-defined
99 ech anical properties: specific capacitance, electrical conductivity, and large surface area with mes
100 den dissociation of the molecules, a jump in electrical conductivity, and loss of electron localizati
101 tions of physical properties (e.g., density, electrical conductivity, and magnetism) in bismuth could
103 nic variation of band gap, unit cell volume, electrical conductivity, and Seebeck coefficient, all of
105 rmined by measuring the Seebeck coefficient, electrical conductivity, and thermal conductivity in eac
106 notubes in the nanocomposite results in high electrical conductivity, and thus highly effective elect
107 that exhibit a pressure-induced reduction in electrical conductivity-and the presence of a complex ne
109 The fabricated Zn conductors show excellent electrical conductivity ( approximately 1.124 x 10(6) S
111 ng films that display high strength and high electrical conductivity are critical for flexible electr
112 al properties such as dramatically increased electrical conductivity are observed thanks to the pre-e
113 n of yeast cells in solutions with different electrical conductivities as a function of the applied f
114 edges, approximately 50 mum resolution, and electrical conductivity as high as 4.67 x 10(4) S cm(-1)
115 ly a result of their hydrophilicity and high electrical conductivity, as well as the ability of the e
119 tracer" transport modeling based on observed electrical conductivity, better assimilation of meteorol
120 eads to a percolating Cu phase with enhanced electrical conductivity between the active ZnO particles
121 resistance measurements reveal an increased electrical conductivity by 300% in the pressure-treated
122 alize, leading to a dramatic decrease in the electrical conductivity by several orders of magnitude.
123 triphenylene)2 (Ni3(HITP)2), a MOF with high electrical conductivity, can serve as the sole electrode
124 The three synthetic steps in turn render electrical conductivity, catalytic activity and stabilit
125 cause they are promising materials with high electrical conductivity, chemical stability, and high su
126 , such as sugars, moisture, acidity, ash and electrical conductivity, color, 5-HMF and diastase activ
129 A composite analysis of precipitation and electrical conductivity data provides strong evidence th
130 ic relationship between moisture content and electrical conductivity data was developed for the soil
132 properties are determined by crystal phases electrical conductivity, degree of exfoliation, surface
134 soil water content (SWC) (positive) and soil electrical conductivity (EC) (negative) in the relativel
135 r than that in 60-100 cm soil layer, and the electrical conductivity (EC) and nitrate content gradual
137 ries pulp metabolome was related to Apparent Electrical Conductivity (ECa) maps deriving from on-site
139 combined with CT, allow for relatively high electrical conductivity even down to very low temperatur
141 omposite reveals enhanced thermal stability, electrical conductivity from the single-fiber level up,
142 ical parameters (moisture, acidity, pH, ash, electrical conductivity, glucose, fructose, hydroxymethy
143 a function of composition, defect-order, and electrical conductivity have been demonstrated, leading
145 d semiconductor/liquid interfaces to address electrical conductivity - hence chemical reactivity - on
146 to their unique properties such as excellent electrical conductivity, high specific surface area, con
147 nation of high optical transparency and high electrical conductivity, however, sets a stringent requi
152 percolation pathways of LM can support high electrical conductivity in a wide range of matrix materi
156 pped states within bandgap and extremely low electrical conductivity in the out-of-plane direction.
158 ch as protein diffusion in membranes and the electrical conductivity in two-dimensional networks, obe
159 s to an abrupt seismic velocity decrease and electrical conductivity increase with depth, perhaps ind
165 ure has potential in applications where good electrical conductivity is desired, such as sensors and
167 tent, the achieved tunable and highly stable electrical conductivity is provided by sorption of metal
169 e S is the Seebeck coefficient, sigma is the electrical conductivity, kappa is the total thermal cond
170 high earth-abundance, eco-friendliness, high electrical conductivity, large surface area, structure t
171 d as fuel cell catalyst support due to their electrical conductivity, large surface areas and stabili
172 s their fundamental properties, such as high electrical conductivity, lead to many important applicat
173 enerating human myocardial tissue and showed electrical conductivity, left ventricular pressure devel
174 as graphene is vital for limiting parasitic electrical conductivity losses in future electronic appl
175 n optoelectronic devices, their insufficient electrical conductivity, low work function, and complica
176 l/stimuli-responsive fibers with thermal and electrical conductivity, magnetic properties and enhance
177 and compared to standard techniques such as electrical conductivity measurement (ECM) conducted on t
180 he bilayer membrane's combined properties of electrical conductivity, mechanical strength, optical tr
182 roducing large-area, high-strength, and high-electrical-conductivity MXene-based films for future ele
185 yanine (MPc) ligands linked by Cu nodes with electrical conductivities of 2.73 x 10(-3) to 1.04 x 10(
186 backbone alignment, resulting in record-high electrical conductivities of 4,600 +/- 100 S/cm while ma
187 However, the poor mechanical properties and electrical conductivities of rGO sheets are limiting fac
188 quadlayer thin film (470 nm thick) exhibits electrical conductivity of 1.08 x 10(5) S m(-1) and a Se
190 at temperatures of 750 K while providing an electrical conductivity of 5.48 x 10(3) S m(-1), relativ
191 800 degrees C, the layered PBFM showed high electrical conductivity of 59.2 S cm(-1) in 5% H2 and pe
192 ation throughout the carbon backbone, and an electrical conductivity of 6(2)x10(-4) S cm(-1) upon tre
194 To date, the effects of dehydration on the electrical conductivity of antigorite remain poorly unde
199 anic frameworks, the physical durability and electrical conductivity of graphitic materials, and the
203 molecular dynamics simulations show that the electrical conductivity of liquid SiO2 is semimetallic a
205 y stretchable polymeric matrix and excellent electrical conductivity of nanomaterials, polymer nanoco
206 ir electronic bandgap and improvement in the electrical conductivity of nanoribbon-based thin films.
207 sults constrain the contribution of H to the electrical conductivity of olivine to be sigmaH = 10(2.1
208 e tuning of band gaps over 0.4 eV and of the electrical conductivity of over 4 orders of magnitude in
209 computational model was developed to analyze electrical conductivity of random metal nanowire network
210 g predictions of soil salinity (expressed as electrical conductivity of saturated soil extract) and s
211 olecular dynamics simulations to predict the electrical conductivity of silicate liquid at the condit
216 enzyme like activity attributing to the high electrical conductivity of the entrapped copper nanoclus
219 cles that are used to tailor the thermal and electrical conductivity of the LCE without detrimentally
220 ous limit, while the Seebeck coefficient and electrical conductivity of the material were retained.
221 Fe(4)S(4) clusters is found to increase the electrical conductivity of the materials by up to 4 orde
223 uation performance is attributed to the high electrical conductivity of the metallic 1T phase of MoS2
227 s, the tensile strength, Young's modulus and electrical conductivity of the PVA/GNR composite at a fi
228 hts relative to its components (1.3 eV), and electrical conductivity of the sample was significant in
231 e affected by viscosity, surface tension and electrical conductivity of the semiconductor nanosuspens
232 increased due to FI, resulting in increased electrical conductivity of the soil solution, which led
234 is performance originates from the excellent electrical conductivity of Ti3C2Tx films (4600 Siemens p
235 .8 eV) enables facile p doping, resulting in electrical conductivity of up to 10(-2) S/cm and room-te
236 h up to ~570 MPa for a 940 nm thick film and electrical conductivity of ~15 100 S cm(-1) for a 214 nm
237 electric properties (Seebeck coefficient and electrical conductivity) of electrodeposited thin films
238 show 300%, 450% and 230% improvements in the electrical conductivity on the 'surface', 'through-thick
239 e low-symmetry domains also exhibit enhanced electrical conductivity on the order of 1 S m(-1) .
240 onal materials in which ferroelectricity and electrical conductivity or light-harvesting properties c
241 ctions even for electronic systems with zero electrical conductivity or with zero electron density.
242 r polyacetylenes are important materials for electrical conductivity, paramagnetic susceptibility, op
244 lti-modal physical/chemical sensor array for electrical conductivity, pH, and glucose concentration m
245 used to develop a database of water content, electrical conductivity, pH, ash content, visual appeara
246 n mobility, mask-free, green synthesis, good electrical conductivity, porosity, mechanical stability,
247 nitride, Ti(3)CNT (x) MXene, with a moderate electrical conductivity, provides a higher shielding eff
249 nd intrinsically conductive structures, with electrical conductivities reaching 10(-5) S/cm and surfa
251 e rates of EDLCs scale with surface area and electrical conductivity, respectively, porous carbons su
254 lved oxygen, total dissolved solids, pH, and electrical conductivity showed 22% to >=62% removal effi
256 graphite-NFC structure exhibits an ultralow electrical conductivity (sigma(e) <= 10(-9) S/cm), even
257 effect transistors reveals that the observed electrical conductivity (sigma(RT) <= 1.3 x 10(-2) S/cm)
258 surement of as deposited films show that the electrical conductivity (sigma) of the FAPI thin film is
259 omposite boasts an extraordinary anisotropic electrical conductivity (sigma|| /sigma perpendicular )
260 nd shortest S...S contact, shows the largest electrical conductivity, sigma = 2.86 (+/-0.53) x 10(-4)
261 CNS structures possess ultrathin walls, good electrical conductivity, strong adhesion, excellent stru
263 e of their unique electronic structure, high electrical conductivity, superior chemical stability, an
264 rolyte boron dopes the CNTs increasing their electrical conductivity tenfold, and that the addition o
265 One of these functional characteristics is electrical conductivity that may lead to future device a
266 n functional layers with thermally activated electrical conductivity, the current spontaneously and g
268 With a large surface area and excellent electrical conductivity, this binder-free anode was foun
269 s outside LiFePO4 nanoparticles increase the electrical conductivity, thus ultimately facilitating re
270 y of LMH and find metallic hydrogen's static electrical conductivity to be 11,000-15,000 S/cm, substa
271 the continuous tuning of both band gaps and electrical conductivity to changes in free-carrier conce
272 are common in inorganic materials, imparting electrical conductivity to covalent three-dimensional or
273 These can increase the sulfur cathode's electrical conductivity to improve the battery's power c
274 oit the formal analogy between diffusion and electrical conductivity to link the latter with the diff
276 Doping of ClBDPPV with 25 mol% TBAF boosts electrical conductivity to up to 0.62 S cm(-1) , among t
278 s C, the polyoxafluoronorbornene exhibits an electrical conductivity two orders of magnitude lower th
281 Moreover, antimonene polygons show high electrical conductivity up to 10(4) S m(-1) and good opt
283 mantle (</=250 ppm wt) can account for high electrical conductivity values (10(-2)-10(-1) S/m) obser
285 ere, we demonstrate this compound to exhibit electrical conductivity values up to sigma = 1.4(7) x 10
286 logues find interesting properties including electrical conductivity, viscoelasticity, thermal robust
288 -micron sized LFO and a nanocarbon with high electrical conductivity were successfully synthesized fo
290 its advantages of good safety, stability and electrical conductivity, which are held by all the carbo
291 amples due to either extremely high solution electrical conductivity, which decreased the plasma-liqu
292 ever, is conventionally coupled to very poor electrical conductivity, which has thus far prevented th
293 and conversion devices because of their high electrical conductivity, which is promoted by the good i
294 a three orders of magnitude increase in THz electrical conductivity, which suggests the potential fo
295 high energy sites, leading to an increase in electrical conductivity while leaving the Seebeck unchan
296 these materials alongside the combination of electrical conductivity with porosity or spin transition
297 lity to combine functional properties (e.g., electrical conductivity) with shape memory behavior.
298 exhibited excellent mechanical integrity and electrical conductivity within a wide range of tensile a
299 ronger overlap between sites can improve the electrical conductivity without adversely affecting the
300 vitro and in vivo biocompatibility, and high electrical conductivity without the need for additional