ライフサイエンスコーパス: square wave

1 d 90% of motor threshold (MT) using standard square waves.

2 Ultrasound (continuous tone, square wave, 20 kHz) produced an initial characteristic

3 mixing relative to simple straight (1D) and square-wave (2D) channels while significantly reducing t

4 nsitive determination of rifampicin (RIF) by square wave adsorptive stripping voltammetry.

5 their formal potentials, DeltaE(0), and the square wave amplitude, |E(SW)|, whose combined effect se

6 ical performance for the detection of PSA by square wave and differential pulse stripping voltammetri

7 and 1.7 muA when driven with an AC signal of square wave and random amplitude, respectively.

8 Both square wave and sine wave modulation were investigated.

9 Direct square-wave and cyclic voltammetric electrochemical exam

10 Y32 gives rise to quasireversible square-wave and differential pulse voltammograms at acid

11 Y32 gives rise to reversible square-wave and differential pulse voltammograms at alka

12 We investigate so-called square-wave and pseudo-plateau bursting patterns found i

13 us (Macaca mulatta) monkeys using sine-wave, square-wave, and 4-ms pulse trains and xenon photostrobe

14 Linear-sweep, square-wave, and adsorptive-stripping voltammograms are

15 y to the determination of mercury in tuna of square wave anodic stripping voltammetry (SW-ASV) conduc

16 with subsequent electrochemical detection by square wave anodic stripping voltammetry (SWASV) in 0.1M

17 hemical detection of QDs was performed using square wave anodic stripping voltammetry (SWASV).

18 on of ultratrace quantities of arsenic using square wave anodic stripping voltammetry is described.

19 to be highly sensitive to low-ppb As3+ using square wave anodic stripping voltammetry.

20 ve electrochemical detection was obtained by square wave anodic stripping voltammetry.

21 A previously set up and optimized Square-Wave Anodic Stripping Voltammetric technique was

22 -printed carbon electrodes, was performed by square-wave anodic stripping voltammetry through the use

23 between CSNB1 and CSNB2 because it showed a "square-wave" appearance in CSNB1 and a decreased b-wave

24 Square waves applied to the device generated electric fi

25 est that these modes are generic features of square-wave bursters and relaxation oscillators coupled

26 the constant input current and eta, such as square wave bursting, mixed mode oscillations, and pseud

27 sor for the determination of manganese using square wave cathodic stripping voltammetry.

28 Standing square-wave chronoamperometry (SSWCA) was applied to the

29 ed noninvasively by passing a 5-V, 31.25-kHz square wave current through the chest and comparing the

30 However, under 12-h high-light/dark square-wave cycles, the COX/Cyd mutant displayed impaire

31 Under high-light/dark square-wave cycles, the COX/Cyd mutant suffered a signif

32 te or high light or 12-h moderate-light/dark square-wave cycles.

33 A detailed procedure for square wave electroporation of retinal explants is also

34 c transposase into cultured schistosomula by square wave electroporation.

35 ated three electroporation approaches: (1) a square-wave electroporator designed for eukaryotes, (2)

36 plitudes by more than 30% with sine-wave and square-wave ERGs but had a lesser effect on responses to

37 ent provided nearly 75% of the sine-wave and square-wave ERGs versus 63% for 4-ms pulse stimuli and o

38 t has been found that low-amplitude (+/-1 V) square wave excitation can prolong the usability of gold

39 By applying either a triangular or square wave excitation potential waveform, electromodula

40 The technique uses a square-wave excitation and gates the detector on only du

41 A prior bout of high-intensity square-wave exercise can increase the temporal adaptatio

42 sequently, on different days, three bouts of square-wave exercise each at moderate, heavy, very heavy

43 0kHz ac field (based on either sine waves or square waves) for electroporation of cells with defined

44 d in the interval (0.6, -0.2) V by using low square wave frequencies.

45 The influence of the square wave frequency, pulse amplitude, and deposition p

46 erms of MWCNT amount, pH, reaction time, and square wave frequency.

47 w here that the simultaneous optimization of square-wave frequency and amplitude produces large (ofte

48 e used to interrogate them, with the optimal square-wave frequency depending on the structure of the

49 modes the applied discharge was powered by a square wave generator in order to get a homogeneous plas

50 rom (1) the relative contrast in images of a square wave grating and (2) the refraction of a narrow l

51 The Vernier acuity stimulus was a vertical square-wave grating with portions of each bar temporally

52 aired dichoptically with a straight vertical square-wave grating, which, when fused with the target i

53 icity in mice that were stimulated by moving square wave gratings for 6 h/d during a period of monocu

54 atus and screened for their ability to track square-wave gratings at various spatial frequencies (0.1

55 ophysically and electrophysiologically using square-wave gratings containing vernier displacements mo

56 und suppression were measured using drifting square-wave gratings of varying radii and at two contras

57 which they discriminated the orientation of square-wave gratings pressed onto the stationary index o

58 for summed sinusoidal gratings or nonsumming square-wave gratings, and was evident in single-unit ext

59 m-invariant when the moving stimuli comprise square-wave gratings, which contain multiple spatial fre

60 to drifting, low spatial frequency sine- and square-wave gratings.

61 r photosynthetic rates per unit leaf area to square wave-grown plants.

62 findings highlight that growing plants under square wave growth conditions ultimately fails to predic

63 To investigate this hypothesis, square-wave hyperglycaemic clamp studies were performed

64 s of modulation that maximizes the flow is a square-wave in time.

65 of human muscle protein synthesis (MPS) to a square wave increase in availability of amino acids (AAs

66 ncreas in a biphasic manner in response to a square-wave increase in arterial glucose concentration.

67 o an unstable chemical gradient created by a square-wave increase in attractant concentration.

68 nditions, the speech bands were individually square wave interrupted at a rate of 10 Hz.

69 with typical Alzheimer's disease showed more square wave jerks whose frequency was associated with lo

70 Patients exhibited more than 30 square-wave jerks (small saccadic intrusions) per minute

71 Square-wave jerks (SWJs) during visual fixation and purs

72 The most common type of SI, square-wave jerks (SWJs), consists of saccade pairs that

73 ing binocular fixation: conjugate horizontal square-wave jerks (type 2 MLN), conjugate torsional nyst

74 clear palsy-related lid retraction, frequent square-wave jerks and supranuclear gaze palsy.

75 d bouts of both moderate- and high-intensity square-wave, knee-extension exercise for 6 min, inside a

76 rmed two consecutive bouts of high-intensity square-wave, knee-extensor exercise in the prone positio

77 Plants subjected to square wave light had thicker leaves and greater photosy

78 (D) and acceptors (A), in contrast with the square-wave manner in which the RR dimer forms a complem

79 lutions were accomplished using an optimized square-wave microchannel, metering chambers and revulsio

80 fields and grating patterns (0.1-3 cpd) were square-wave modulated at 1.7 Hz (transient) and 8 Hz (st

81 Using a square-wave modulated excitation source with a 50% duty

82 weak, homogenous force F in synergy with the square-wave modulation can cause particles of slightly d

83 The square-wave net potential closely approximates the forma

84 ltammetric profile (cyclic, differential and square wave) obtained for each type of dried extract sho

85 eas the TE-prolonging effects of a sustained square wave of negative pressure (range, -4.0 to -14.9 c

86 bees navigate down a corridor with gratings (square wave or sinusoidal) on the walls.

87 eous firing frequency in responses evoked by square-wave or low-pass filtered inspiratory currents bu

88 vered via a realistic dynamic fluctuating or square wave pattern, were used to grow and assess plants

89 and 16 video frames per m-step), as well as square-wave periodic reversals (2.4 Hz), for both the sc

90 Application of the square wave polarization resulted in regeneration of an

91 A "square wave" polarization function stimulated dissociati

92 A bipolar pulsed square wave potential is applied across a monolayer of b

93 uction on the platinum surface, mainly using square wave potential pulses but constant applied potent

94 different parameters (flow rate and applied square wave potential, as well as the type of labeling a

95 a surface enhanced spectroscopy by applying square-wave potential profiles.

96 target) is dependent on the frequency of the square-wave potential pulse used to interrogate them, wi

97 o strongly dependent on the amplitude of the square-wave potential pulse.

98 ernating electrical field as 50 Hz bursts of square wave pulses (100 ms on/off).

99 f milk (55 degrees C for 24s), using bipolar square wave pulses in a continuous mode of operation.

100 hrough an endotracheal tube, and a series of square-wave pulses were delivered via electrodes placed

101 The square wave represents a sum of sinusoidal frequencies a

102 After 20 S1 stimuli, a 10-ms square wave S2 shock field with a 30-ms S1-S2 coupling i

103 whole-cell capacitance measurements based on square-wave stimulation.

104 With the head tilted forward, square-wave stimuli applied to the mastoid processes evo

105 plitude and phase vectors, and sine-wave and square-wave stimuli gave a large phase difference (138 d

106 Sine-wave and square-wave stimuli produced larger phase differences be

107 optomotor/optokinetic responses to rotating square-wave stimuli.

108 ormance for the detection of Py and PLP by a square wave stripping voltammetric technique (SWSV).

109 Using square-wave stripping mode, the compound yielded a well-

110 ntification of the presence of GSR utilizing square-wave stripping voltammetry (SWSV) as a rapid scre

111 cyclic (CV) and square wave voltammetry and square wave (SWV) voltammetry.

112 f the electrode from -1.25 to -1.55V using a square-wave technique.

113 oltcoulommetry (SWVC), which is a variety of square wave techniques based on the measurement of the t

114 Seven males performed square-wave transitions from unloaded cycling to a work

115 During square wave voltage clamp pulses to 0 mV, replacing extr

116 ransients were induced by field stimulation, square wave voltage steps, or action potential (AP) volt

117 and differential pulse voltammetry (DPV) or square wave voltametry (SWV).

118 Square wave voltammetric (SWV) peaks increased with enzy

119 09muM, 0.05muM and 1.0muM respectively using square wave voltammetric method.

120 the metabolites was detected by increases in square wave voltammetric oxidation peaks using Ru(bpy)3(

121 ified electrodes caused a marked drop in the square wave voltammetric reduction signal of the [Fe(CN)

122 Square wave voltammetric studies revealed the presence o

123 were evaluated using cyclic voltammetric and square-wave voltammetric (SWV) analysis.

124 emical signal response of the AQ label using square-wave voltammetric analysis.

125 ic interface that offers rapid and selective square-wave voltammetric detection of OP vapor threats a

126 The square-wave voltammetric detection of phosphomolybdate w

127 In this work, a square-wave voltammetric method based on sulphite electr

128 Square-wave voltammetric scans of 94 different clinical

129 edance spectroscopy and adsorptive stripping square wave voltammetry (AdSSWV).

130 nd tested using Cyclic Voltammetric (CV) and Square Wave Voltammetry (SQW) measurements in a standard

131 detection of cadmium ions and lead ions with square wave voltammetry (SWV) after dissolution with aci

132 ient magnetic separation with ultrasensitive square wave voltammetry (SWV) analysis with quantum dots

133 change in redox current was quantified using square wave voltammetry (SWV) and was found to be highly

134 a linear electrical response against EIS and square wave voltammetry (SWV) assays, with NIMs showing

135 DNA damage was detected by square wave voltammetry (SWV) by using catalytic oxidati

136 metry (CV), impedance spectroscopy (EIS) and square wave voltammetry (SWV) confirmed the surface modi

137 Quantitative analysis through square wave voltammetry (SWV) gave rise to the detection

138 Square wave voltammetry (SWV) is widely used in electroc

139 dent on CA, NADH and FA concentrations using square wave voltammetry (SWV) method in the ranges of 0.

140 trochemical impedance spectroscopy (EIS) and square wave voltammetry (SWV) methods.

141 y direct electrocatalytic reduction of Mb by square wave voltammetry (SWV) or differential pulse volt

142 trochemical potential at 0.1V vs. Ag/AgCl by square wave voltammetry (SWV) or using a colorimetric me

143 olymers in the films provided a catalytic Os square wave voltammetry (SWV) peak that is mainly select

144 roM Ru(bpy)3(2+) (bpy = 2,2'-bipyridine) and square wave voltammetry (SWV) provided more sensitive de

145 is monitored by following the change in the square wave voltammetry (SWV) reduction peak signal of f

146 A square wave voltammetry (SWV) scan from -1.2 to -0.3 V i

147 this study, the cyclic voltammetry (CV) and square wave voltammetry (SWV) techniques were used to in

148 Cyclic voltammetry (CV) and square wave voltammetry (SWV) were used to detect CAP.

149 trochemical impedance spectroscopy (EIS) and square wave voltammetry (SWV), against a standard iron p

150 chemical quartz crystal microbalance (EQCM), square wave voltammetry (SWV), circular dichroism (CD),

151 Using square wave voltammetry (SWV), the concentration of ConA

152 electrochemical detection was carried out by square wave voltammetry (SWV).

153 a decrease in electrical signal measured by square wave voltammetry (SWV).

154 trochemical impedance spectroscopy (EIS) and square wave voltammetry (SWV).

155 washed, and then DNA damage was analyzed by square wave voltammetry (SWV).

156 damage to double-stranded (ds) DNA by using square wave voltammetry (SWV).

157 th MB was electrochemically interrogated via square wave voltammetry (SWV).

158 aradic current which is detected by means of square wave voltammetry (SWV).

159 y stripped into KCl solution and measured by square wave voltammetry (SWV).

160 was analyzed on the CP electrode by applying square wave voltammetry (SWV).

161 s of the resulting biosensor were studied by square wave voltammetry (SWV).

162 voltammetry, differential pulse voltammetry, square wave voltammetry and chronoamperometry).

163 MWCNTs-PPy-PAMAM-Fc) were studied using both square wave voltammetry and cyclic voltammetry to demons

164 Appropriate electrochemical techniques, square wave voltammetry and electrochemical impedance sp

165 characterized by electrochemical methods as square wave voltammetry and electrochemical impedance sp

166 plasma charactrerization by cyclic (CV) and square wave voltammetry and square wave (SWV) voltammetr

167 3W model protein was studied by protein film square wave voltammetry and transient absorption spectro

168 -oxidation peaks were found using cyclic and square wave voltammetry at 4 degrees C at pH 7.5, reflec

169 s transported by redox-MHD and detected with square wave voltammetry at a 312 mum diameter gold micro

170 We have applied square wave voltammetry at a glassy carbon mercury film

171 Square wave voltammetry at a Hg/Au electrode reveals man

172 ignal from the displaced triamcinolone using square wave voltammetry at patterned graphene-modified e

173 o CBZ was measured at +0.73 V vs. Ag/AgCl by square wave voltammetry at pH 8.0.

174 We demonstrate that square wave voltammetry can be used to detect, identify

175 ctrochemically from the pumping species with square wave voltammetry down to 0.1 mM concentrations.

176 In this report, theory for cyclic square wave voltammetry for single and consecutive rever

177 We observed drug-specific changes in square wave voltammetry from these chips at therapeutic

178 action for electroanalytical methods such as square wave voltammetry has not been declared.

179 Square wave voltammetry is used to record the redox sign

180 Theory for cyclic square wave voltammetry of quasireversible electron tran

181 Cyclic and square wave voltammetry revealed a gradual decrease of t

182 Square wave voltammetry revealed a NO reduction peak at

183 Square wave voltammetry scans of biological fluids from

184 Analysis with cyclic voltammetry and square wave voltammetry shows that DNA CT increases sign

185 Square wave voltammetry shows that the polymer film pres

186 Square wave voltammetry shows that the polymer film, pol

187 Square wave voltammetry signals of MB provided quantitat

188 ochemical impedance spectroscopy, cyclic and square wave voltammetry techniques.

189 When employed in concert with microelectrode square wave voltammetry to optimize sensing at ultralow

190 henilendiamine and H(2)O(2) as substrates by square wave voltammetry was correlated with the ATG2.

191 Square wave voltammetry was performed on the first reduc

192 Square wave voltammetry was used to quantify the NO(*) c

193 Finally, cyclic voltammetry and square wave voltammetry were done in a static mercury el

194 minates against capacitance currents, cyclic square wave voltammetry will enable acquisition of mecha

195 asing peaks of ferrocene were recorded using square wave voltammetry with increasing miRNA concentrat

196 tical product operates within minutes, using square wave voltammetry without labeling or addition of

197 escent and steady-state flowing conditions), square wave voltammetry, and differential pulse voltamme

198 voltammetry, differential pulse voltammetry, square wave voltammetry, and potentiometry), each with d

199 ogically relevant conditions with cyclic and square wave voltammetry, and redox peaks are analyzed to

200 atG was determined using cyclic voltammetry, square wave voltammetry, and spectroelectrochemical titr

201 niazid were also determined using cyclic and square wave voltammetry, and the results provide evidenc

202 Using cyclic square wave voltammetry, both the electron transfer coef

203 sponse to fetuin in PBS samples, obtained by square wave voltammetry, exhibited a linear range from 0

204 ectrolyte (from 1 to 100 mM), measured using square wave voltammetry, is shown to be caused, primaril

205 leased liposomal Fe(CN)6(4-), measured using square wave voltammetry, yielded a sigmoidally shaped do

206 nd sensitive determination of tramadol using square wave voltammetry.

207 yoxal is delineated for the first time using square wave voltammetry.

208 M potassium phosphate) solution as found by square wave voltammetry.

209 styrene oxide was detected using derivative square wave voltammetry.

210 bserved by cyclic voltammetry and Osteryoung square wave voltammetry.

211 decrease of the peak current as measured by square wave voltammetry.

212 y electrochemical impedance spectroscopy and square wave voltammetry.

213 he first time to determine brucine employing square wave voltammetry.

214 sor was studied using cyclic voltammetry and square wave voltammetry.

215 a current decrease (signal-off) measured by Square Wave Voltammetry.

216 tained by differential pulse voltammetry and square wave voltammetry.

217 old electrodes was confirmed with Osteryoung square-wave voltammetry (OSWV).

218 0-190 bp (dsDNA) were recorded by Osteryoung square-wave voltammetry (OSWV).

219 e influence of the potential pulse height of square-wave voltammetry (SWV) (i.e., the SW amplitude) i

220 This allows repeated protein quantitation by square-wave voltammetry (SWV)-as quickly as 3 min betwee

221 was used to determine folic acid (FA) using square-wave voltammetry (SWV).

222 ogallol and 0.21 muM for hydroquinone, using square-wave voltammetry (SWV).

223 esticide by inhibition of the esterase using square-wave voltammetry (SWV).

224 ed for determination of Eu(3+) by Osteryoung square-wave voltammetry after a preconcentration time of

225 analytical determination of nitrite ions by square-wave voltammetry and an alternative for the alrea

226 Cyclic Voltammetry, Osteryoung Square-Wave Voltammetry and Differential Pulse Voltammet

227 A protein film square-wave voltammetry approach was developed to succes

228 NaCl concentration, pH and temperature, and square-wave voltammetry as a function of pH.

229 ns were found to be reversible by cyclic and square-wave voltammetry in both aqueous buffer and aprot

230 obtained, it is pointed out that the use of square-wave voltammetry in combination with microelectro

231 Using a modified Osteryoung square-wave voltammetry method, the adsorption of what a

232 ammetry, differential pulse voltammetry, and square-wave voltammetry methods in a large variety of so

233 adout probe for electrochemical detection by square-wave voltammetry on commercial screen-printed ele

234 o-1-cytochrome c Phe82His/Cys102Ser variant, square-wave voltammetry showed that the primary species

235 Square-wave voltammetry was used to detect the first red

236 Square-wave voltammetry was used to quantify pyocyanin c

237 mechanisms are developed under conditions of square-wave voltammetry, combining rigorous modeling bas

238 multiplex detection of G, A, T, and C, using square-wave voltammetry.

239 n transfer that is typically monitored using square-wave voltammetry.

240 ermination of caffeine and paracetamol using square-wave voltammetry.

241 n process was monitored using the Osteryoung Square-Wave Voltammetry.

242 ion step has been controlled with Osteryoung square-wave voltammetry.

243 mical impedance spectroscopy, and cyclic and square-wave voltammetry.

244 trochemical impedance spectroscopy (EIS) and square-wave voltammetry.

245 Rapid square-wave voltammetry/flow injection operation allows

246 ingerprint of each sample was examined using square-wave voltammetry; the resulting data were preproc

247 layer resulted in a well-defined and stable square-wave voltammogram of the ferrocene moiety.

248 The peaks current of square wave voltammograms (SWV) of BPA and Sudan I incre

249 Background subtracted square wave voltammograms (SWV) showed the appearance of

250 Cl](+) in intact ds-DNA to provide catalytic square wave voltammograms (SWV).

251 Cyclic and square-wave voltammograms of photolyase deposited on the

252 Square-wave voltammograms were obtained in the presence

253 ions (stepwise processes) are analyzed using square wave voltcoulommetry (SWVC), which is a variety o