ライフサイエンスコーパス: electrochemical technique

1 ured via square-wave voltammetry, a standard electrochemical technique.

2 ectrochemical signal (current or charge) and electrochemical technique.

3 erated from a pure anode using a non-aqueous electrochemical technique.

4 modynamic properties using spectroscopic and electrochemical techniques.

5 ctroscopy, resonance Raman spectroscopy, and electrochemical techniques.

6 m on an electrode and probed by a variety of electrochemical techniques.

7 ransmitter dopamine in a picoliter vial with electrochemical techniques.

8 spholipid monolayers were studied by various electrochemical techniques.

9 is possible to detect the toxin with simple electrochemical techniques.

10 characterized with spectroscopic, X-ray, and electrochemical techniques.

11 aracterized by spectroscopy, microscopy, and electrochemical techniques.

12 eaction (MOR) was investigated using spectro-electrochemical techniques.

13 chniques, including SEM, EDX, FTIR, XPS, and electrochemical techniques.

14 racterized using different morphological and electrochemical techniques.

15 dispersive X-ray spectrometer attached, and electrochemical techniques.

16 were performed using various analytical and electrochemical techniques.

17 icroscopy (SEM) characterizations as well as electrochemical techniques.

18 can be used as a probe to detect AuNPs using electrochemical techniques.

19 characterized by mass, NMR, absorption, and electrochemical techniques.

20 fourier transform infrared spectroscopy and electrochemical techniques.

21 characterized using several microscopic and electrochemical techniques.

22 r transform infrared (FTIR) spectroscopy and electrochemical techniques.

23 has been carried out using two complementary electrochemical techniques.

24 ich we discuss in an overview of traditional electrochemical techniques.

25 oactive mediators such as [Ru(bpy)3](2+), or electrochemical techniques.

26 zed by ESEM and AFM microscopy as well as by electrochemical techniques.

27 ed using Raman, HRTEM, and spectroscopic and electrochemical techniques.

28 alized activity inaccessible to conventional electrochemical techniques.

29 eta X-ray emission spectroscopy, ESI-MS, and electrochemical techniques.

30 sembly were characterized by microscopic and electrochemical techniques.

31 ed congener, quantified by spectroscopic and electrochemical techniques.

32 first time, in herbal infusions by sensitive electrochemical techniques.

33 , transmission electron microscopy (TEM) and electrochemical techniques.

34 ed by scanning electron microscopy (SEM) and electrochemical techniques.

35 itecture was characterized by SEM, FT-IR and electrochemical techniques.

36 oxygen reduction was investigated by QCM and electrochemical techniques.

37 eFe]-hydrogenases using both biochemical and electrochemical techniques.

38 and cancer cells with a focus on optical and electrochemical techniques.

39 ts were studied at 500 degrees C by standard electrochemical techniques.

40 on similar to the conventional current-based electrochemical techniques.

41 TEM, EDX, SAED, XRD, FE-SEM, FTIR, DIC, and electrochemical techniques.

42 metry, grazing angle FT-IR spectroscopy, and electrochemical techniques.

43 nce complex on the surface is established by electrochemical techniques.

44 However, the use of electrochemical techniques (13 of the 33 papers) is rece

45 hat all this is accomplished by using solely electrochemical techniques, according to methodology dev

46 e, during, and after catalysis together with electrochemical techniques allow their unprecedented oxi

47 ole moiety which can be polymerized by using electrochemical technique and an amine group for immobil

48 y compares with strictly photoluminescent or electrochemical techniques and appears to be adapted for

49 These observations are corroborated by electrochemical techniques and detailed quantum mechanic

50 Advances in modelling approaches, electrochemical techniques and in situ spectroscopies to

51 onine species has been measured using direct electrochemical techniques and is +440 mV at pH 4.8.

52 from co-deposited magnetite in situ by other electrochemical techniques and is undetectable ex situ b

53 Using combined electrochemical techniques and photometry with fluoresce

54 his review highlights the development of the electrochemical techniques and sensors used for the dete

55 1D and 2D NMR, absorption, fluorescence, and electrochemical techniques and the structure of one of t

56 crocyclic polyether has been investigated by electrochemical techniques and UV-vis and electron param

57 In this way, chemometric methods, electrochemical techniques, and 3D printed sensors becom

58 nsduction elements, biorecognition elements, electrochemical techniques, and biosensor performance.

59 tic resonance and absorption spectroscopies, electrochemical techniques, and density functional theor

60 Several electrochemical techniques are being developed to enable

61 Convenient and affordable electrochemical techniques are blind toward particulate

62 Spatially resolved electrochemical techniques are critical for advancing na

63 Electrochemical techniques are emerging as alternatives,

64 Optical and electrochemical techniques are employed for the characte

65 degrade battery performance, but traditional electrochemical techniques are often inadequate for diag

66 We introduce a new in situ electrochemical technique based on the scanning electroc

67 new development in the merger of optical and electrochemical techniques, by probing the potential dep

68 A simple electrochemical technique can thus be used as a straight

69 sensory properties, we will also discuss how electrochemical techniques can be used to study anion re

70 Fast in vivo electrochemical techniques can measure extracellular dop

71 We show how combined in situ and operando electrochemical techniques can reveal the underlying mec

72 ound complexes with spectroscopic as well as electrochemical techniques confirms the presence of stro

73 This electrochemical technique could serve as a powerful tool

74 el sensing device was evaluated over various electrochemical techniques (cyclic voltammetry, amperome

75 eview focuses on the four most commonly used electrochemical techniques (cyclic voltammetry, differen

76 paramagnetic resonance), computational, and electrochemical techniques (cyclic voltammetry, differen

77 These experiments used two electrochemical techniques: cyclic voltammetry and amper

78 ay diffraction and various spectroscopic and electrochemical techniques, demonstrating its ability to

79 However, conventional electrochemical techniques do not provide information ab

80 osensor was characterized using two types of electrochemical techniques; electrochemical impedance sp

81 The combination of a photoconductor with electrochemical techniques enables low-energy, low-tempe

82 This paper reports on an electrochemical technique for the detection of oxidizing

83 to the use of fluorescence, colorimetric and electrochemical techniques for the detection and quantit

84 nanostructured surface were characterized by electrochemical techniques, FT-IR and AFM.

85 In the past two decades, electrochemical techniques have been used to investigate

86 Electrochemical techniques have long been heralded for t

87 Electrochemical techniques have the potential to provide

88 study employs filtration experiments and two electrochemical techniques, impedance spectroscopy (EIS)

89 Using electrochemical techniques in brain slices, we explored

90 spectroscopic, microscopic, scattering, and electrochemical techniques in conjunction with DFT theor

91 acterized by AFM and XPS as well as multiple electrochemical techniques including CV and electrochemi

92 Atomic force microscopy (AFM) and electrochemical techniques including cyclic voltammetry

93 rized using UV-Vis, TEM, SAED, EDX, AFM, and electrochemical techniques including LSV and EIS.

94 Electrochemical techniques, including cyclic voltammetry

95 Multimodal electrochemical technique incorporating both open circui

96 Post operando measurements using electrochemical techniques, inductively coupled plasma,

97 The categorization of different electrochemical techniques is done on the basis of diffe

98 etection coupling biological engineering and electrochemical techniques is presented.

99 Although RHDS is not an electrochemical technique, its concept is derived from h

100 ten assessed using chemical assays; however, electrochemical techniques like cyclic voltammetry offer

101 This study was carried out using electrochemical techniques, namely cyclic voltammetry (C

102 However, electrochemical techniques offer several advantages, inc

103 Experiment showed the electrochemical technique offers control over reaction p

104 activity was investigated using chemical and electrochemical techniques on monomeric cobalt(II) tetra

105 haracterized using a series of complementary electrochemical techniques: open-circuit chronopotentiom

106 The electrochemical techniques provide a powerful approach t

107 nsfected ion channel), respectively, and two electrochemical techniques quantified serotonin release

108 ctrochemical impedance spectroscopy, various electrochemical techniques, quartz crystal microbalance

109 The surface-based electrochemical technique requires a minimal protein amo

110 Microscopic, spectroscopic, and electrochemical techniques revealed that the air-plasma

111 irect comparison between the frequency-based electrochemical technique, sinusoidal voltammetry, and t

112 Appropriate electrochemical techniques, square wave voltammetry and

113 Either of the electrochemical techniques studied could be successfully

114 Electrochemical techniques such as Cyclic Voltammetry (C

115 its interaction with the analyte, different electrochemical techniques such as differential pulse vo

116 and characterization steps were analyzed by electrochemical techniques such as electrochemical imped

117 various analytes measurable by FSCV or other electrochemical techniques, such as amperometry and apta

118 Electrochemical techniques, such as electrochemiluminesc

119 yses using XRD, SEM, Raman spectroscopy, and electrochemical techniques suggested presence of element

120 An electrochemical technique that can detect inertial cavit

121 acterized by classical macroscopic or "bulk" electrochemical techniques that are not well-suited to a

122 relation between both spectrophotometric and electrochemical techniques that have been reported.

123 ctural properties are discussed, emphasizing electrochemical techniques, the mechanism of intercalati

124 Unlike other electrochemical techniques, this method does not require

125 ervable redox states have been identified by electrochemical techniques, three (4+, 6+, and 7+) have

126 Here we show an inexpensive, electrochemical technique to build MEMS-like structures

127 We extended this electrochemical technique to cells that do not normally

128 ic voltammetry is recognized as the feasible electrochemical technique to determine it quantitatively

129 Besides the use of standard electrochemical techniques to characterise the extent of

130 AFM), scanning electron microscopy (SEM) and electrochemical techniques to confirm successful fabrica

131 Electrochemical techniques to detect the activity of ext

132 In this work, we adapted electrochemical techniques to probe intact biofilms of S

133 terized by spectroscopic, computational, and electrochemical techniques, together with the related sp

134 es can be coated with carbon nanotubes using electrochemical techniques under ambient conditions.

135 Unlike chromatographic techniques, electrochemical techniques used do not require pre-treat

136 An economically viable electrochemical technique was employed for the synthesis

137 This electrochemical technique was proved to be feasible at 2

138 nating least squares (MCR-ALS) assisted with electrochemical techniques was applied for simultaneous

139 zing surface-enhanced Raman spectroscopy and electrochemical techniques, we demonstrate an analysis o

140 Through spectroscopic and electrochemical techniques, we find an anionic redox-dom

141 y absorption spectroscopy (sXAS), as well as electrochemical techniques, we identify the structure of

142 size of NPs and utilizing spectroscopic and electrochemical techniques, we show that the assembly of

143 Electrochemical techniques were applied to widely evalua

144 Electrochemical techniques were employed to elucidate th

145 ter detail, spectrochemical stopped-flow and electrochemical techniques were employed to examine the

146 Microscopic and electrochemical techniques were used to characterize the

147 The electrochemical techniques were used to determine the to

148 Electrochemical techniques were used to study the behavi

149 Bipolar electrochemistry (BE) is a wireless electrochemical technique, which enables asymmetric elec

150 kness preparations of guinea pig ileum using electrochemical techniques with carbon fibre electrodes

151 Electrochemical techniques with disk and nano-tip electr

152 tegically combined the robust versatility of electrochemical techniques with the sensitivity and spec

153 tides has been shown by both gravimetric and electrochemical techniques, without labeling nor amplifi

154 characterized by means of spectroscopic and electrochemical techniques, X-ray diffraction analysis,