ライフサイエンスコーパス: spectrophotometer

1 high-throughput microplate reader (automated spectrophotometer).

2 asurements agree with those measured using a spectrophotometer.

3 eveloped to eliminate or reduce the use of a spectrophotometer.

4 min at levels from 5 to 50 pmol using only a spectrophotometer.

5 m to be analyzed without the use of a UV-vis spectrophotometer.

6 continuously monitored at 405 nm on a UV-VIS spectrophotometer.

7 windows from 350 to 190 nm using a dual-beam spectrophotometer.

8 ic reduction of NAD that is measured using a spectrophotometer.

9 e products and dried fruits using Uv-visible spectrophotometer.

10 crops, against a commercial grade laboratory spectrophotometer.

11 were analyzed by Fourier transform infrared spectrophotometer.

12 s-chalcone was monitored by using a standard spectrophotometer.

13 ppa = 0.975) and between each reader and the spectrophotometer.

14 uct of this reaction were registered using a spectrophotometer.

15 andheld NIR instruments, as well as a UV-Vis spectrophotometer.

16 rbance quantified with a conventional UV-vis spectrophotometer.

17 tex assisted (VA) microextraction and UV-vis spectrophotometer.

18 admium levels utilizing an atomic absorption spectrophotometer.

19 hness were analyzed using a profilometer and spectrophotometer.

20 es such as honey and wine by using an UV-VIS spectrophotometer.

21 al reflectance (360-740 nm) using a handheld spectrophotometer.

22 se, and detected at pH 2.0 and 6.0 by UV-vis spectrophotometer.

23 nriched DES phase was analyzed by UV-Visible spectrophotometer.

24 lts were compared with data obtained using a spectrophotometer.

25 rger and technically more complex laboratory spectrophotometer.

26 was performed with a fiber optic reflectance spectrophotometer.

27 zed by XRD, TEM, HRTEM, SEM and fluorescence spectrophotometer.

28 inerals were determined by atomic absorption spectrophotometer.

29 ol and determined by flame atomic absorption spectrophotometer.

30 achieve 200 nm for the considered far-field spectrophotometer.

31 eristic wavelength of MB is measured using a spectrophotometer.

32 h traditional turbidity measurements using a spectrophotometer.

33 e was shown to be comparable to a laboratory spectrophotometer.

34 n Mardan are studied using Atomic Absorption spectrophotometer.

35 is robust and easy to perform with a simple spectrophotometer.

36 he visible, using a portable MINOLTA CM-2002 spectrophotometer.

37 he oxidative half-reaction in a stopped-flow spectrophotometer.

38 easured by using an Abbe refractometer and a spectrophotometer.

39 to nanoliter pH sensing and validated with a spectrophotometer.

40 trations and is more costly than the ND-1000 spectrophotometer.

41 nsmission were determined with a fiber-optic spectrophotometer.

42 TC-dextrans (4.4-77 kDa) was measured with a spectrophotometer.

43 mined over 24 hours, at 25 degrees C, with a spectrophotometer.

44 s and compared it with a commercial benchtop spectrophotometer.

45 ily available chemicals and a visible region spectrophotometer.

46 interval, were measured with a fluorescence spectrophotometer.

47 rden of analytical performance solely on the spectrophotometer.

48 performance to that of the standard benchtop spectrophotometer.

49 termined by reflectance measurements using a spectrophotometer.

50 iffusion was determined over 24 hours with a spectrophotometer.

51 aluated and compared to that of a commercial spectrophotometer.

52 elength standards for calibrating absorption spectrophotometers.

53 ot possible with halogen-tungsten lamp-based spectrophotometers.

54 of bacteria in liquid media, using benchtop spectrophotometers.

55 on spectrum measured with double-beam UV-vis spectrophotometers.

56 oise levels (0.0001 ABS) of typical benchtop spectrophotometers.

57 eld-monitoring instruments and sophisticated spectrophotometers.

58 smartphones with and without a miniaturized spectrophotometer accessory, have been tested.

59 ions were determined using atomic absorption spectrophotometer according to standard methods.

60 ned using a single-purpose atomic absorption spectrophotometer AMA 254.

61 th a blood substitute were determined with a spectrophotometer and an inverse-adding doubling algorit

62 tiate Amazon stingray meats using a portable spectrophotometer and chemometrics.

63 Using a spectrophotometer and nanostars of different sizes and d

64 rface in a commercially available UV-visible spectrophotometer and of a colorimetric end-point assay

65 ts of hemoglobin spectra using a diode array spectrophotometer and oxygen tensions using a polarograp

66 kits exhibit less precision than the ND-1000 spectrophotometer and Quant-iT RiboGreen assays in the 5

67 fferent monochromator characteristics of the spectrophotometer and the spectrofluorometer.

68 Light scatter intensity was monitored via spectrophotometers and fiber optic cables placed at 30 a

69 violet-visible diode array or rapid-scanning spectrophotometers and the measurement requires a single

70 dropping DPPH method proved cheaper (without spectrophotometer) and correlated well with the conventi

71 ation for 10 minutes at 36 degrees C using a spectrophotometer) and MALDI-TOF MS (both the standard r

72 by means of a pH meter, an atomic absorption spectrophotometer, and an inductively coupled plasma spe

73 ontents of sweet basils were determined by a spectrophotometer, and individual phenolic compounds and

74 procedure and thus do not require the use of spectrophotometer, and it could be used to obtain semi-q

75 ine was measured by ELISA, lipid peroxide by spectrophotometer, and microvascular function by laser s

76 lassic and 3D Master shade guides, Easyshade Spectrophotometer, and Rayplicker Handy spectrophotomete

77 mice) and habitat color (n=51 rocks) using a spectrophotometer, and showed that there was a correlati

78 eviously obtained with a conventional UV-vis spectrophotometer, and they showed little to no loss of

79 as prepared and then characterized by UV-Vis spectrophotometer, and zeta droplet size measurement.

80 The results of application of smartphone and spectrophotometer are comparable, in terms of validation

81 ion selective electrodes (ISE) and portable spectrophotometers are commercially available for in-fie

82 uce in both the Reflectometer and laboratory spectrophotometer assessment, suggesting the Reflectomet

83 ed disaccharides that are measurable using a spectrophotometer at 232 nm.

84 hydrochloride (BAPNA) as the substrate with spectrophotometer at 410nm.

85 e enriched [Pb-DZ] in DES was detected using spectrophotometer at 520 nm and naked-eyes.

86 y detected by a miniaturized fiber optic CCD spectrophotometer at 520 nm, exploiting a long path-leng

87 anese concentration was determined by UV-Vis spectrophotometer at 555 nm.

88 igment of a child's arm was performed with a spectrophotometer at baseline and 4 weeks later.

89 ,4-benzoquinone, and O(2), in a stopped-flow spectrophotometer at pH 7.5 and 4 degrees C.

90 d by ultraviolet-visible absorbance (UV-vis) spectrophotometer, Attenuated total reflectance Fourier

91 ion development of a near-infrared (near-IR) spectrophotometer based on an acoustooptic tunable filte

92 detection approach could be customized to a spectrophotometer-based method and an instrument-free de

93 heir reaction with DPPH using a stopped-flow spectrophotometer-based method.

94 were created many years ago, before most CD spectrophotometers became standardized and before it was

95 This spectrophotometer can detect water in ethanol at a limit

96 Using high-throughput, spectrophotometers capable of processing tens of 96-well

97 A thermostatic spectrophotometer cell compartment, widely used and avai

98 ation circuitry implemented with a dual-beam spectrophotometer configuration.

99 her for spectra obtained by the miniaturized spectrophotometer coupled to a smartphone.

100 enoic acid (20:2) were also analyzed using a spectrophotometer cuvette fitted with an oxygen electrod

101 er in comparison with commercially available spectrophotometers demonstrated functionality, and the m

102 nal detection of DPPH decrease at 515nm on a spectrophotometer, depletion of antioxidant compounds tr

103 s through gel electrophoresis and a nanodrop spectrophotometer detected ratios of >= 2 and 1.8 for A2

104 nt such as a centrifuge, ultraviolet-visible spectrophotometers, dynamic light scattering, ELISA plat

105 )+B(2) contents in corn meal using an FT-NIR spectrophotometer, equipped with an integration sphere,

106 cordance was due to the use of two different spectrophotometers, even though both had been properly c

107 The ND-1000 spectrophotometer exhibits high precision and accurately

108 that this system may serve as a miniaturized spectrophotometer for detailed analysis of clones emergi

109 on radioactive labeling, and requires only a spectrophotometer for detection of pyrophosphate formati

110 ost-effective, Machine Learning (ML)-enabled spectrophotometer for nondestructive spoilage detection

111 cal properties, Ultraviolet-Visible (UV-Vis) spectrophotometer for optical properties, Field Emission

112 LISA was a more rapid procedure and use of a spectrophotometer for reading samples allowed for greate

113 o designed to acquire data from a variety of spectrophotometers for use in a NIST study of wavelength

114 brown melanin like pigments were assessed by Spectrophotometer, Fourier Transform Infrared Spectromet

115 In short, spectrophotometer-free image-based miniaturized ELISA on

116 lectance spectra, measured physically with a spectrophotometer, from psychophysically derived color-m

117 cea leaf extract and characterized by UV-Vis spectrophotometers, FTIR spectroscopy, X-Ray Diffraction

118 The cost of spectrophotometers has acted as a barrier on the teachin

119 High resolution electrospray ionization-mass spectrophotometer (HRESI-MS) and nuclear magnetic resona

120 action is conveniently monitored on a UV-VIS spectrophotometer in a continuous fashion, with the addi

121 action is conveniently monitored on a UV-VIS spectrophotometer in a continuous fashion.

122 Results from the smartphone spectrophotometer in comparison with commercially availa

123 orbance quantified with a double-beam UV-vis spectrophotometer is challenging.

124 itoring system that showed similar trends as spectrophotometer light scatter data, validating the tec

125 ources is comparable to standard fiber-optic spectrophotometer light sources.

126 y HPAEC-PAD, colour indexes were measured by spectrophotometer method.

127 ed aluminas were measured with a reflectance spectrophotometer on a black-and-white background.

128 s paper reports the construction of a UV-Vis spectrophotometer on a microreactor, and demonstrates th

129 op centrifuge, a shaker, and either a UV-vis spectrophotometer or a commonly available plate reader-t

130 activity to be measured continuously with a spectrophotometer or a microplate reader.

131 s, namely, the availability of an UV-visible spectrophotometer or an optical scanner, and will enable

132 ular glucose and lactate without requiring a spectrophotometer or fluorometer, a flow reactor with a

133 onitored using either a portable fiber-optic spectrophotometer or the built-in camera of a smartphone

134 on three backings by means of a reflectance spectrophotometer over every wavelength (lambda) from 40

135 crease the signal-to-noise ratio of scanning spectrophotometers over present commercial instruments i

136 A novel photoacoustic spectrophotometer (PAS) for the measurement of gas-phase

137 nthesis of NiO-NPs was confirmed by using UV-spectrophotometer (peak at 203 nm) and their size observ

138 ge of cost-affordable detectors, including a spectrophotometer, portable spectrometer, and iPhone cam

139 tionally, such titrations are monitored by a spectrophotometer, requiring significant manual time, pr

140 spectrophotometer reveals that, the observed peak in the

141 This study evaluated objective reflectance spectrophotometer (RS) assessment of SPT in 353 males or

142 A UV-visible rapid scan spectrophotometer (RSS) was coupled to a Au rotating dis

143 can be monitored continuously using a UV-Vis spectrophotometer set at 405 nm.

144 ainst commercial real-time thermocyclers and spectrophotometers, showing comparable results across fo

145 e-limited environments, expensive microplate spectrophotometers that are used in many central laborat

146 bined assay, PCR/OLA, are read directly by a spectrophotometer; the absorbances are compiled; and the

147 at 15 degreesC and pH 7.2 in a stopped-flow spectrophotometer; the Km for NADH is 13 microM, the Km

148 ryptophan in the rapid-scanning stopped-flow spectrophotometer, there is an absorbance increase at 50

149 re mixed with substrates in the stopped-flow spectrophotometer, there was a biphasic burst of hydride

150 Due to the large form factor of the existing spectrophotometers, they cannot be used for live monitor

151 In contrast with standard spectrophotometers, this sensor offers a low-cost and pu

152 ance liquid chromatography (HPLC) using a UV spectrophotometer to detect nonpolar p-bromophenylacyl m

153 e proposed method uses a conventional UV-vis spectrophotometer to monitor the colorimetric signal, wh

154 Using a stopped-flow spectrophotometer to rapidly mix potassium superoxide wi

155 Commercial spectrophotometers typically use absorption-based wavele

156 -bound flavin was observed in a stopped-flow spectrophotometer upon anaerobic mixing with betaine ald

157 been compared with those obtained by using a spectrophotometer used for fluoride measurement and foun

158 0 to 0.05-ng microl(-1) range via an ND-1000 spectrophotometer (UV), Agilent RNA 6000 kits (MCE), and

159 ectron microscope (TEM), ultraviolet-visible spectrophotometer (UV-Vis) and dynamic light scattering

160 urchased from the local market by UV-Visible Spectrophotometer (UV-Vis).

161 xpensive "matchbox size" near-infrared (NIR) spectrophotometer was used for the first time to detect

162 An InfraAlyzer 500 spectrophotometer was used.

163 he dominant noise source for most commercial spectrophotometers, was effectively removed by use of un

164 Using a standard laboratory spectrophotometer, we calibrated the LSPR peak shift due

165 In an anaerobic stopped-flow spectrophotometer, we have measured the rate constants o

166 A parallel imaging system and scanning spectrophotometer were used to identify and characterize

167 ccurs in the mixing time of the stopped-flow spectrophotometer when arginine is the substrate, preclu

168 hade Spectrophotometer, and Rayplicker Handy spectrophotometer which also measured CIELab shade value

169 dardised to yield data corresponding to 1-cm spectrophotometer which is useful for quality assurance

170 develop an all-solid-state, compact near-IR spectrophotometer which not only is very sensitive, stab

171 scherichia coli culture in comparison with a spectrophotometer which served as the gold standard.

172 e trypsin activity was measured as 9mU/mL by spectrophotometer while the amount of captured enzyme ca

173 ~3000 fold compared with that of commercial spectrophotometer with 1 cm-cuvette, owing to the novel

174 monitored using a Fourier transform infrared spectrophotometer with a time-resolved collection mode.