ライフサイエンスコーパス: capacitance

1 mpact cycle length (current, resistance, and capacitance).

2 even in the presence of potential-dependent capacitance.

3 evaluate its relationship with the measured capacitance.

4 cal vibration is associated with its quantum capacitance.

5 gnificant filtering associated with membrane capacitance.

6 esponse to fast synaptic inputs and membrane capacitance.

7 AMPA PSPs were more sensitive to changes in capacitance.

8 the basis of size but also on their membrane capacitance.

9 ality and electrically controllable negative capacitance.

10 he axons of neurons and by reducing membrane capacitance.

11 levels by label free impedance derived redox capacitance.

12 th a gradual increase in whole-cell membrane capacitance.

13 for low-power electronics due to their high capacitance.

14 supercapacitors for energy storage with high capacitance.

15 ants in the presence of significant membrane capacitance.

16 electrical double layers, namely, their huge capacitance.

17 ants in the presence of significant membrane capacitance.

18 performance via monitoring of the changes in capacitance.

19 rections or circuits to reduce the parasitic capacitance.

20 t of conduction, contact resistance and gate capacitance.

21 to give rise to apparent changes in membrane capacitance.

22 nsity, indicative of a negative differential capacitance.

23 aterials with ultrahigh areal and volumetric capacitances.

24 apacitors, capable of providing large device capacitances.

25 These electrodes exhibit high capacitance (1.6 mF cm(-2) ) and energy density (0.05 mi

26 s was tested, which showed 130 times smaller capacitance (10 pF) and 2.6 times smaller root-mean-squa

27 nolithic device demonstrates high volumetric capacitance (11.3 F cm(-3) ), energy density (2.98 mWh c

28 ime constant (0.01 ms), outstanding specific capacitance (128 mF cm(-2) and 426.7 F cm(-3)) and a lon

29 trodeposited nickel foam has a high specific capacitance (1734.9 F g(-1)) at a current density (CD) o

30 COF-based capacitor cells achieve high areal capacitance (5.46 mF cm(-2) at 1,000 mV s(-1) ), high gr

31 i3 C2 Tx films display impressive volumetric capacitance (676 F cm(-3) ) combined with fast response.

32 the size of the K(+) current and non-linear capacitance, a readout of prestin-dependent electromotil

33 nges of the surface charge and the effective capacitance accompanying biorecognition at the electrode

34 Application of magnetic field tunes this capacitance affecting its resonance frequency.

35 ding, the device retained 88% of its initial capacitance after 10 000 cycles.

36 15 F cm(-3) and retain ~77% of their initial capacitance after one million charge/discharge cycles, a

37 ures with externally tunable conductance and capacitance and broadband photoresponse.

38 Because the capacitance and charge-discharge rates of EDLCs scale wi

39 mic (mostly mediated through vasodilation of capacitance and conductance arteries) and nonhemodynamic

40 charge transfer and consequently offers good capacitance and cycling stability.

41 ed Schwann cells revealed increased membrane capacitance and decreased membrane resistance in the abs

42 The volumetric capacitance and energy density of the all-MXene-printed

43 rface mount devices due to their large areal capacitance and energy/power density compared to the tra

44 key challenge still remains to achieve high capacitance and high mass loading without sacrificing th

45 sical responses, such as chirality, negative capacitance and large piezo-electric responses(1-3).

46 -type transconductance with improved channel capacitance and mobility.

47 me a fundamental limitation posed by quantum capacitance and opens new channels for ion diffusion.

48 lic papers can remarkably increase the areal capacitance and rate capability with a notable decrease

49 ff and turn-on detection strategies-based on capacitance and resistance measurement, respectively-wer

50 oltage program is able to increase the total capacitance and results in ~3.5- and ~5.5-times higher s

51 atalytic hydrogen evolution, high volumetric capacitance and some of them exhibit large gap quantum s

52 Hence, cell layer capacitance and TEER represent two independent propertie

53 to the carbonized wood improves the specific capacitance and the cyclic stability of the nanocomposit

54 reas thin layers of large CNT had the lowest capacitance and the highest permeation flux.

55 Owing to the high volumetric capacitance and the passivation layer of the hydrogel, e

56 nventional dielectrics due to their low gate capacitances and low breakdown voltages.

57 tion-evoked exocytosis (measured by membrane capacitance) and hormone secretion (measured biochemical

58 ributions of the quantum and electrochemical capacitance, and confirm the measurements with theoretic

59 s used to measure whole-cell plasma membrane capacitance, and in fixed cells, caveolae were quantifie

60 es, including high: electronic conductivity, capacitance, and lipophilicity.

61 between oxide coating morphology, electrode capacitance, and sodium removal efficacy.

62 trophysiological properties, namely membrane capacitance, and we hypothesized that this could be used

63 igh dielectric materials for light-sensitive capacitance applications.

64 ty in aqueous electrolyte with high specific capacitance ( approximately 1900 F g(-1) at 2 A g(-1) ),

65 pacitive architectures thus enhancing device capacitance areal specific capacitance of 37 mF/cm(2).

66 sure absolute temperature and the normalized capacitance as a temperature-insensitive extrinsic varia

67 ourea-formaldehyde hybrid exhibited specific capacitance as high as 400 F g(-1), areal capacitance of

68 These electrodes show specific capacitances as high as 1315 F cm(-3) and retain ~77% of

69 of a cell, such as membrane conductance and capacitance, as well as cytoplasm conductivity, contain

70 ts, including leaf hydraulic conductance and capacitance, as well as the kinetics of stomatal respons

71 the dark, resulting in an increased membrane capacitance at steady state.

72 Results demonstrate that ACEK capacitance-based sensing can accurately determine micro

73 a foundation for understanding the limits of capacitance-based sensing in natural environmental sampl

74 s focusing on evaluating the robustness ACEK capacitance-based within aquatic environments.

75 shift of voltage dependence of the membrane capacitance because of turgor pressure.

76 thic integrated device, eliminating the wire capacitance between the detector and first amplifier sta

77 ar to the skin-like sensors by measuring the capacitances between the array of electrodes.

78 rmore, several reported systems exhibit high capacitance but restricted electrochemical voltage windo

79 nalities of GO provide the benefit of higher capacitance but suffer from inhibited ion mobility due t

80 th deposition techniques increased electrode capacitance, but only ED electrodes improved desalinatio

81 -rings essentially act as series left-handed capacitances C(L) that extend the effective aperture are

82 ge-transfer resistance (R(ct)), double-layer capacitance (C(dl)), and Warburg impedance (W).

83 mpensated resistance, R(u), and double layer capacitance, C(dl)).

84 and solution conductivity), and double layer capacitance, C, can be extracted from this data, without

85 The membrane capacitance, Ca(2+)-current, and resting current increas

86 On-chip/on-petri dish nanoscale capacitance calibration standards are used to quantify t

87 The value of magneto-capacitance can be as high as 1% in the voltage range ne

88 d performance is the result of the increased capacitance change and the shifting of the potential of

89 The measured capacitance change between the reference and the biofunc

90 ntification down to 0.1 pg mL(-1) with 2.7 % capacitance change per decade.

91 ne (PBS) to tune Cdl to dominate the overall capacitance change upon target binding, which contributi

92 the sensing surface, hence produced a larger capacitance change.

93 the changes in surface potential from a true capacitance change.

94 The mean value of capacitances' change in the capacitive matrix sensor is

95 Sensitive capacitance changes thus observed with graphene based ca

96 strain sensors that exploit strain-dependent capacitance changes.

97 on sites which concurrently improve specific capacitance, charge transfer resistance and cycling stab

98 ing a simple circuit model based on junction capacitances, confirmed by density functional theory cal

99 removing the constraints from the resistance-capacitance constant increases the response speed, which

100 rrent density, electrode flow rate, specific capacitance, contact resistance, porosity, and fixed cha

101 element significantly increases the membrane capacitance, contributing to the attenuation of the driv

102 exhibits ( i) a gradually enhanced specific capacitance ( Cs) with increased flexibility (decreased

103 configuration is shown to suppress or remove capacitance currents in chronoamperometry, cyclic voltam

104 rmed electrochemical impedance, double layer capacitance, cyclic voltammetry, and galvanostatic polar

105 may be important mechanisms for the specific capacitance decay of activated carbon electrodes in this

106 .05 microW h cm(-2) ), and long lifetime (no capacitance decay over 20 000 cycles), exceeding that of

107 The electrode capacitance decreased by only approximately 12.7% after

108 In general, cell capacitance decreased with increased milling duration ov

109 essing speed due to increased resistance and capacitance delay is a major obstacle for the down-scali

110 tic field it has been found that the magneto-capacitance depends on the orientation of the ferroelect

111 The capacitance detection strategies exhibited a wide linear

112 The SAM capacitance, dielectric constant, and surface hydrophobi

113 e-capacitance FETs as the result of negative capacitance due to the negative drain-induced barrier lo

114 nce model, we find that the negative quantum capacitance due to this NEC effect plays an important ro

115 he monitored drift in R(CT) and double layer capacitance during the conditioning suggests that the MC

116 selected due to their high surface area and capacitance effect, and the lithiation mechanism of the

117 potential at full turgor, turgor loss point, capacitance, elastic modulus, relative water content and

118 Since imaginary impedance is related to capacitance, electric displacement, relative permittivit

119 The reversible capacitance enhancement up to 21% under 405 nm violet la

120 s NEC effect plays an important role in this capacitance enhancement.

121 e PZT patches are then connected to negative capacitance external circuits to break inversion symmetr

122 ved at room temperature in the MoS2 negative-capacitance FETs as the result of negative capacitance d

123 The negative-capacitance field-effect transistor(NC-FET) has attracte

124 n of the analytical signal by increasing the capacitance (film thickness) of the solid contact of the

125 at 0.2 A g(-1) with a retention of above 90% capacitance for 10 000 cycles.

126 voltammetry measurements reveal an enhanced capacitance for nitrate when compared to chloride as wel

127 membrane surface area and thus more protonic capacitance for transmembrane-electrostatically localize

128 trate possible uses of steady-state negative capacitance-for example, enhancing the capacitance of a

129 conditions, (2) highlight that estimates of capacitance from excised samples should be interpreted w

130 plitudes of the redox current and the sensor capacitance from the material structure, quantified by R

131 composite (MycMnOx/C) showed a high specific capacitance (>350 F g(-1)) in a supercapacitor and excel

132 r families at VG </= 2 V owing to high areal capacitance (>4 microF cm(-2) ) from combined polarizati

133 ation, but the effect of domains on negative capacitance has received little attention.

134 affect the response to synaptic inputs, with capacitance having a greater effect on response to gluta

135 mbination of low-voltage operation and small capacitance implies intrinsic switching energy per unit

136 direct measurement of steady-state negative capacitance in a ferroelectric-dielectric heterostructur

137 ial role in daily discharge/recharge of stem capacitance in an intact tree.

138 but also successfully promotes the specific capacitance in aqueous supercapacitors.

139 t, which was a strong predictor of hydraulic capacitance in both leaves and flowers.

140 ortant measurement of the quantum effects on capacitance in reduced dimensional systems in contact wi

141 The percent change in capacitance in response to doses of antigen (ZIKV NS1) c

142 al of Ziapin2 for the modulation of membrane capacitance in the millisecond timescale, without direct

143 measurements of the local state of negative capacitance in which the ferroelectric resides.

144 ated, showing clear correlations of the cell capacitance increasing within the range of 200-600 pF, w

145 ed our model by investigating changes in the capacitance induced by ligand binding to the serotonin t

146 ) , respectively for 1.31 V and its specific capacitance is 5.65 F g(-1) .

147 Negative capacitance is a newly discovered state of ferroelectric

148 opy indicates that the photoswitching of the capacitance is enabled by the reversible tuning of inter

149 storage performance, and the electrochemical capacitance is much higher than that of the other carbon

150 oelectric material where a state of negative capacitance is stabilized.

151 Secondly, quantum-capacitance is the limiting factor for NC-FETs to achiev

152 2) or 24.9 mOmega cm(2) ) and large specific capacitance, is among the highest for planar micro-super

153 pedance factor that gives information of the capacitance, is directly correlated with concentrations.

154 ethods (namely, the ball model, double layer capacitance, isotope exchange, and redox peak methods).

155 SS, and FETs that can operate in the quantum-capacitance limit are desired platforms for NC-FET const

156 Their capacitance, linear polarizabilities, and dielectric con

157 ynaptic exocytosis were revealed by membrane capacitance measurement upon modulations of intracellula

158 Using impermeant fluorescent indicators, capacitance measurements and electron microscopy, we sho

159 The system demonstrates the use of real-time capacitance measurements as a proof-of-concept tool that

160 cess in chromaffin cells were assessed using capacitance measurements combined with amperometry and s

161 Specific membrane capacitance measurements confirmed that the membranes we

162 Presynaptic membrane capacitance measurements directly demonstrate regulation

163 Single cell capacitance measurements in MCs from mouse mutants diffe

164 itors cell viability through high-resolution capacitance measurements of cell adhesion quality.

165 Using high-resolution capacitance measurements to probe the bulk electronic co

166 cological tools in combination with membrane capacitance measurements, we show that actin filament di

167 Using patch-clamp recordings and membrane capacitance measurements, we show that the viral transfe

168 Using membrane capacitance measurements, we suggest that hair cells can

169 lyx of Held terminals by whole-cell membrane capacitance measurements.

170 the biosensor were measured with a home-made capacitance measuring circuit based on switched capacito

171 r capacitors at each wing's end along with a capacitance measuring circuitry.

172 simulation analysis show that the dominating capacitance mechanism for the high Na-ion storage perfor

173 ork we demonstrate that an impedance derived capacitance method is able to cleanly resolve the resona

174 cal capacitive sensing (an impedance-derived capacitance methodology wherein the redox probe is conta

175 ion is obtained by Kelvin-probe and scanning-capacitance microscopies.

176 position conditions indicates that such high capacitance might be attributed to mobile protons donate

177 By exploiting the quantum capacitance model, we find that the negative quantum cap

178 evice delivers an outstanding and reversible capacitance modulation of up to 20%, demonstrating a pro

179 detection is accomplished by quantifying the capacitance modulations arising within the electrical do

180 e ferroelectric domain-wall induced negative capacitance (NC) effect in Metal-FE-Insulator-Metal (MFI

181 movement of motile charges creates negative capacitance near the condition of mechanical resonance,

182 restin) demonstrated wildtype-like nonlinear capacitance (NLC) in HEK293T cells, the phenotype in Del

183 Outer hair cell (OHC) nonlinear capacitance (NLC) represents voltage sensor charge movem

184 omotility (EM) and a corresponding nonlinear capacitance (NLC).

185 eM) and its electrical correlate (nonlinear capacitance, NLC), resulting from prestin's voltage-sens

186 nsity of 1 A/g, alpha-NiS showed the highest capacitance of 1,287 F/g, with 100% of Coulombic efficie

187 A high specific capacitance of 1,940 F/g, 2,150 F/g and 2,250 F/g was ob

188 e printable supercapacitors deliver an areal capacitance of 12.9 mF cm(-2) and the printed SnO(2) gas

189 ic capacitance as high as 400 F g(-1), areal capacitance of 160 mF cm(-2), and an energy density of 1

190 pacitance of 9.52 mF cm(-2) and a volumetric capacitance of 18 700 F cm(-3) , far superior to those o

191 working range to over 3 V to achieve a high capacitance of 195 F g(-1) in an Li-rich electrolyte.

192 The 3D-printed device achieves a high areal capacitance of 2.1 F cm(-2) at 1.7 mA cm(-2) and a gravi

193 ted that achieves not only a benchmark areal capacitance of 2195 mF cm(-2) at a high current density

194 F cm(-2) at 1.7 mA cm(-2) and a gravimetric capacitance of 242.5 F g(-1) at 0.2 A g(-1) with a reten

195 ms of 29 MPa) while still maintaining a high capacitance of 298 F g(-1) and a high conductivity of 29

196 nanocomposite electrodes exhibit high areal capacitance of 3.1 F cm(-2) at 5 mA cm(-2) , with areal

197 ultrahigh mass loading delivers a high areal capacitance of 3.54 F/cm(2) at 1 mA/cm(2) and an excelle

198 00 mA cm(-2) but also an ultrahigh intrinsic capacitance of 309.1 uF cm(-2) even at a high mass loadi

199 excellent performance with high gravimetric capacitance of 326 F g(-1) (419 F cm(-3)) and ultra-stab

200 enhancing device capacitance areal specific capacitance of 37 mF/cm(2).

201 Specific capacitance of 408 F/g at 1 mV/s using CV and 185 F/g at

202 ials for supercapacitor with a high specific capacitance of 440 F g(-1) at a current density of 0.5 A

203 supercapacitors delivering a high volumetric capacitance of 583 F cm(-3) and high energy and power de

204 ulose/polyester cloth, the SC shows specific capacitance of 8.94 F g(-1) (10 mF cm(-2) ) at 1 mV s(-1

205 e increase in capacitance, with a high areal capacitance of 9.52 mF cm(-2) and a volumetric capacitan

206 suring the effect of electrode design on the capacitance of a dielectric polymer (parylene) that mimi

207 ative capacitance-for example, enhancing the capacitance of a ferroelectric-dielectric heterostructur

208 is carbonized jute showed promising specific capacitance of about 51 F/g, and improvement of over 60%

209 through effectively controlling the quantum capacitance of both MoSe(2) and WS(2) layers with gating

210 ve behavior and the increase of the specific capacitance of carbon-based electrodes, we covalently fu

211 ssive tissue properties and the double-layer capacitance of electrodes.

212 sing the BET surface as well as the specific capacitance of graphene.

213 ed on-chip shield technology, we measure the capacitance of one to a few nanotubes quantitatively as

214 antly, the kinetic analysis reveals that the capacitance of SF-3D GA electrode is primarily (93.3%) c

215 the TEER value, but only saponin alters the capacitance of the cell layer by two orders of magnitude

216 nstructed parameter representing the average capacitance of the cell layer.

217 The specific capacitance of the microcomposite based electrodes can r

218 ot influence the polarization resistance and capacitance of the oxide film, but statistically enhance

219 y measuring the sample/electrode interfacial capacitance of the sensor.

220 The volumetric redox (chemical) capacitance of the surface of CeO2-delta films is quanti

221 Specific capacitance of up to 1 kF m(-2) (100 mF cm(-2) ) with pe

222 an effective charge storing material with a capacitance of up to 651 F g(-1) , significantly higher

223 ching 7 mg cm(-2), the gravimetric and areal capacitances of MnO(2) (~50% of total mass) reach 1148 F

224 At -5 V reverse bias, the capacitances of the diodes were measured to be (84.05 +/

225 current density (peak current amplitude/cell capacitance) of 100 muM ACh-evoked currents.

226 sodium channel expression or differences in capacitance or dendritic architecture, they were linked

227 lectrodes vs. low signal to noise ratio with capacitance or dry electrodes.

228 The ultra-small value changes of capacitance originating from thrombin binding with the a

229 Here we evaluate prestin's complex capacitance out to 30 kHz and find that prestin's freque

230 A new concept of a high-capacitance polymeric dielectric based on high-k polymer

231 pose that embolism-resistant xylem and large capacitance, provided by collapsing inner cortical cells

232 tron exchange with associated resistance and capacitance quantities.

233 harge effectively for tens of minutes with a capacitance ranging from 0.1 to 0.2 F m(-2).

234 erformance as supercapacitor electrodes with capacitance reaching up to 254 F g(-1) at a current dens

235 The development of a board-level capacitance readout system is presented, as well as the

236 ed high-resolution patch-clamp time-resolved capacitance recordings to produce the first model of adi

237 Membrane capacitance recordings, however, reveal fundamentally di

238 ive feedback revealed that estradiol reduced capacitance, reduced transient and sustained potassium c

239 ealed by emergence of an imaginary nonlinear capacitance reflecting the phase of electrical charge di

240 ting the binding event) and in true membrane capacitance (reflecting the concomitant conformational c

241 local electric field, identify the negative capacitance regions as those with higher energy density

242 of 3.1 F cm(-2) at 5 mA cm(-2) , with areal capacitance remaining at 1.8 F cm(-2) even at a current

243 MFIS stack also exhibits an enhanced charge/capacitance response compared to Metal-Oxide-Semiconduct

244 cm(-3) at scan rate of 1 mV s(-1) with great capacitance retention (100%) after 5000 cycles at scan r

245 high photo-charging cycling stability (98.7% capacitance retention after 100 cycles), excellent overa

246 f 3616 F/g at 8 A/g, and showed an excellent capacitance retention after 6000 charge-discharge cycles

247 The capacitance retention at 2000 mV s(-1) (with respect to

248 (-1), and excellent cycling stability with a capacitance retention of 100% after 2000 cycles at 10 A

249 ensity of 306 muWh cm(-2) at 3.0 V and ~100% capacitance retention over 13 000 cycles at 1.6 V.

250 F cm(-3))) in organic electrolytes with high capacitance retention over a wide scan rate range of 10

251 with 100% of Coulombic efficiency and 79% of capacitance retention.

252 cycling stability to 10,000 cycles with ~90% capacitance retention.

253 talizing on dielectrophoresis and interphase capacitance sensing, we have developed an immunosensor f

254 s offers an extraordinarily high pressure-to-capacitance sensitivity (114 nF kPa(-1) ), which is at l

255 e and increase during cultivation, while the capacitance shows a distinct maximum for three different

256 ctin endocytosis contributes to the measured capacitance signal, and we were able to predict the cont

257 useful to choose an adequate range of added capacitances so that it dominates the overall cell value

258 ve been developed; recently, electrochemical capacitance spectroscopy emerged as an impedance-derived

259 Therefore, transport and capacitance spectroscopy studies have been performed to

260 o 30 000 mV s(-1) ) and maintain almost 100% capacitance stability even after 10 000 cycles.

261 s the functioning electrodes gave a specific capacitance stabilized at 216 F/g even after 3000 cycles

262 lification, energy storage, and differential capacitance, strongly depend on the polyelectrolyte back

263 Classical capacitance studies have revealed that the first layer o

264 Although existing reports of negative capacitance substantiate the importance of this phenomen

265 The concurrent increase in cell capacitance suggests that membrane incorporation of surf

266 cs was carried out using current-voltage and capacitance techniques.

267 2D material exhibits a 65% higher volumetric capacitance than its counterpart, Mo2C, with no vacancie

268 embrane time constant and increased membrane capacitance that could be attributed to stronger electri

269 The MOF-based device shows an areal capacitance that exceeds those of most carbon-based mate

270 d with a remarkable nonfaradaic double-layer capacitance that exists due to the considerable inner el

271 rease central pressures by increasing venous capacitance through splanchnic nerve modulation.

272 l based on changes in dielectric properties (capacitance) through (i) polarization of captured cell-s

273 enables the surface topography and the local capacitance to be sensed reliably, and separately, in a

274 her hydraulic traits, such as high hydraulic capacitance, to maintain turgor pressure.

275 We conclude that the measured interfacial capacitance trends result from a complex interplay betwe

276 of -4.4 x 10(-6) Pa(-1), and conductance and capacitance tunable by external stimuli (ferroelectric f

277 be compatible with a wide range of external capacitances up to 100 muF, while POT layers require a n

278 notted CNT composite electrodes achieve high capacitance (up to 130 F g(-1) (276 F cm(-3))) in organi

279 ial generated the highest amount of specific capacitance (up to 721.9 F/g) followed by Co salt and PP

280 By modeling the interfacial resistance and capacitance using equivalent circuits, we find that the

281 ements, evaluating variations on the overall capacitance values according to the GST concentration.

282 vacancies, and one of the highest volumetric capacitance values ever reported, to the best of our kno

283 s energy storage devices and can obtain high capacitance values greater than conventional capacitors

284 predicted chromate adsorption for a range of capacitance values.

285 Light-sensitive capacitance variation of Bi(0.95)La(0.05)FeO(3) (BLFO) c

286 Through capacitance-voltage measurements carried out under varia

287 The specific capacitance was 0.45 microF cm(-2) at 20 Hz, which is ar

288 graphy images showed that high water storage capacitance was associated with fiber and pith refilling

289 By using electrodes of low surface capacitance, we report for the first time nonturnover re

290 uivalent circuit model containing a chemical capacitance, we suggest that the photocurrent reduction

291 cement, relative permittivity, and effective capacitance were derived to elucidate the theory of opti

292 romate binding constants and the Stern Layer capacitance were optimized simultaneously to develop a c

293 als fabricated revealed that higher specific capacitances were obtained when smaller crystallite size

294 rodes are parallel to each other and a lower capacitance when spins are antiparallel.

295 A normal MC effect exhibits a higher capacitance when spins in the electrodes are parallel to

296 ser arrangement in mesopores to increase the capacitance, whereas only cations with weaker ionic inte

297 g strategy directly measured the interfacial capacitance whose change rate was adopted as a quantitat

298 We show how SWV measurements of electrode capacitance with repeat SWV scans can also be used to de

299 ize of the NSCs leads to a large increase in capacitance, with a high areal capacitance of 9.52 mF cm

300 bricate it to yarn structure to achieve high capacitance without decreasing in the electrochemical pe