ライフサイエンスコーパス: visible spectrum

1 n be applied to many fluorophores across the visible spectrum.

2 mperature sensors that cover nearly the full visible spectrum.

3 tinal of more than 200 nanometers across the visible spectrum.

4 ectral channels spanning only ~100 nm of the visible spectrum.

5 re complexes create a palette that spans the visible spectrum.

6 complexes with apatite and fluoresce in the visible spectrum.

7 is limited by diffraction to ~200 nm in the visible spectrum.

8 sions of nanoparticles which emit across the visible spectrum.

9 on of hybridized absorption modes across the visible spectrum.

10 sions of nanoparticles which emit across the visible spectrum.

11 enhanced transmission peaks spread over the visible spectrum.

12 can be hybrid-engineered to span the entire visible spectrum.

13 terials absorbing effectively over the whole visible spectrum.

14 unable optical properties across much of the visible spectrum.

15 related with the presence of a dopachrome UV-visible spectrum.

16 can only absorb the high-energy part of the visible spectrum.

17 nd significantly shifts the redox difference visible spectrum.

18 ght (nu(1/2)), and lack of absorption in the visible spectrum.

19 icrocombs with emission near the edge of the visible spectrum.

20 peroxy radical support an excitation in the visible spectrum.

21 d with a scattering peak at any color in the visible spectrum.

22 be fined tuned to virtually any part of the visible spectrum.

23 nificant blue shift of the Soret band in the visible spectrum.

24 alocyanine array absorbs strongly across the visible spectrum.

25 he photoluminescence tunable over the entire visible spectrum.

26 o eliminate the NTA and obtain the "correct" visible spectrum.

27 ngth was thermally tunable across the entire visible spectrum.

28 bsorb and emit in the green region of the UV-visible spectrum.

29 , and the other carpet cloak, both at 532 nm visible spectrum.

30 larization greater than 0.6 over most of the visible spectrum.

31 ic light-emitting diode molecules across the visible spectrum.

32 minescent proteins with emissions across the visible spectrum.

33 nescence can be tuned over nearly the entire visible spectrum.

34 precision ranging at wavelengths beyond the visible spectrum.

35 ower in the near-infrared as compared to the visible spectrum.

36 extraordinarily broad range (>100 nm) of the visible spectrum.

37 ap oligomer enhances light absorption in the visible spectrum.

38 ngly enhance the optical absorption over the visible spectrum.

39 or detecting halogenated hydrocarbons in the visible spectrum.

40 sponse extends from the near-infrared to the visible spectrum.

41 rescence with lifetimes of about 5 ns in the visible spectrum.

42 on resonance structures that span the entire visible spectrum.

43 ient generation of detectable photons in the visible spectrum.

44 f photonic pigments with colors spanning the visible spectrum.

45 igh efficiencies in transmission mode in the visible spectrum.

46 diversity, collectively spanning the entire visible spectrum.

47 luorine with optical properties spanning the visible spectrum.

48 laying tunable emission covering most of the visible spectrum.

49 he fluorescence can be tuned over the entire visible spectrum.

50 he violet, blue, and/or green regions of the visible spectrum.

51 controlled to produce colours throughout the visible spectrum.

52 ich has peaks at 448 nm and 376 nm in the UV-visible spectrum.

53 l control of brightness and color across the visible spectrum.

54 has a maximum absorbance at 381 nm in its UV-visible spectrum.

55 the radiation in the low energy range of the visible spectrum.

56 tron per incident photon in a portion of the visible spectrum.

57 approach can be extended to cover the entire visible spectrum.

58 ating through tissue than other parts of the visible spectrum.

59 ion of optogenetic control across the entire visible spectrum, (2) increased potency of optical inhib

60 iazenes exhibited intense absorptions in the visible spectrum (359-428 nm), which were bathochromical

61 nt resonant light absorption over the entire visible spectrum (400-700 nm) with an average measured a

62 t circuit photocurrent efficiency across the visible spectrum (400-750 nm) could be increased by abou

63 mophoric absorption properties, spanning the visible spectrum (474-640 nm).

64 mitting across a range of wavelengths in the visible spectrum (610-680 nm and 740-820 nm), with a gre

65 s a spectral resolution down to 40 pm in the visible spectrum and 10 pm in the near-infrared spectrum

66 exhibits an intense light absorption in the visible spectrum and a reversible oxidation process.

67 r, broadband optical transparency across the visible spectrum and an adjustable, stress-tuneable refr

68 th-dependent spot patterns across the entire visible spectrum and enable multiplexed single biomolecu

69 ionally, ONOO(-) triggered changes in the UV/visible spectrum and heme content of the enzyme.

70 hemiindigo is shifted to the red part of the visible spectrum and how nearly perfect photoswitching c

71 ing "ultra-stable" fluorophores spanning the visible spectrum and how such fluorophores are likely to

72 of the betaines are in the red region of the visible spectrum and in the near-IR spectral domain, whi

73 how emission wavelengths covering the entire visible spectrum and near-infrared (NIR), depending on m

74 The dependence of the visible spectrum and redox potential of cytochrome f on

75 ells (NSs) with tunable plasmon bands in the visible spectrum and their oxidative-assembly into high-

76 to extend dielectric metasurfaces across the visible spectrum and to enable applications such as high

77 peak reflectivities (>96%) across the entire visible spectrum and wide spectral stop-band widths (ful

78 emit light within a narrow bandwidth of the visible spectrum and with a high quantum yield (ca. 20%)

79 type laccase and plastocyanin, an altered UV-visible spectrum, and a decreased redox potential (by 0.

80 dyes that display emission colors across the visible spectrum, and all of which can be simultaneously

81 sharp absorption edge in the red part of the visible spectrum, and atmospheric methane in extreme the

82 o bright emitters in any other region of the visible spectrum, and back, by displacement of Cl(-) or

83 lization of graphene carbon can modulate its visible spectrum, and can therefore be used to improve a

84 t dyes, which absorb across the range of the visible spectrum, and chromogenic products of assays (e.

85 olor as it absorbs in the blue region of the visible spectrum, and its chromogenic contribution would

86 ic ordering, can be varied across the entire visible spectrum, and responds to the presence of chemic

87 e charge-transfer optical transitions in the visible spectrum (approximately 550-750 nm) and fluoresc

88 stals and metamaterials operating across the visible spectrum are extremely difficult to construct ov

89 Certain wavelengths in the visible and near-visible spectrum are known to have discrete effects on p

90 The extinction coefficients in the visible spectrum are on the order of 10(2) M(-1) cm(-1)

91 tense scintillation in several ranges of the visible spectrum are reported.

92 with the development of metamaterials in the visible spectrum are the high costs and slow production

93 ism and shows a significantly red-shifted UV-visible spectrum as observed in Benson et al..

94 QE is approximately constant over the entire visible spectrum as opposed to a p-n junction hybrid sol

95 ) and absorbs homogenously across the entire visible spectrum as solar cell applications require.

96 challenging, especially in the infrared and visible spectrum, as metals are dispersive and absorbing

97 Finally, the visible spectrum associated with the catalytically relev

98 r method enables transparency throughout the visible spectrum at one angle--the generalized Brewster

99 of the powders exhibited luminescence in the visible spectrum at room temperature.

100 maturation kinetics of 50 FPs that span the visible spectrum at two different temperatures in Escher

101 olecules with intense absorptions across the visible spectrum but are generally focused on systems th

102 o that of commercial indium tin oxide in the visible spectrum, but far superior transmittance in the

103 e three classes of photoreceptor to span the visible spectrum, but smell relies on hundreds of distin

104 ed that propofol dimer did not absorb in the visible spectrum, but the propofol dimer quinone had an

105 licon nanowires is tunable across the entire visible spectrum by simply moving the height of the nano

106 of the device can be varied over the entire visible spectrum by tailoring the hot-electron interplay

107 ion wavelength was tunable across the entire visible spectrum by tuning the excitation wavelength.

108 mic shifts in emission wavelength across the visible spectrum by varying solvent polarity.

109 y inactivated the enzyme with concomitant UV/visible spectrum changes characteristic of reduction of

110 Mia40, as isolated, shows a visible spectrum characteristic of an Fe-S center and co

111 0 acid-labile S(2-) per protein and has a UV-visible spectrum characteristic of iron-sulfur proteins

112 The Co(II)-substituted enzyme exhibits a UV-visible spectrum characterized by strong Co(II) d-d tran

113 xygen, the protein forms a complex with a UV-visible spectrum closely resembling that of peroxo-bridg

114 ns in next- generation technologies, such as visible-spectrum communication, superbright solid-state

115 to the holoenzyme elicits a change in the UV-visible spectrum consistent with the formation of cob(II

116 rption below approximately 1 eV, outside the visible spectrum, consistent with the formation of a nar

117 nce that the ground-based calibration of its visible spectrum could be safely extrapolated into the u

118 ance with emission colors spanning the whole visible spectrum (deep blue to red).

119 the longest wavelength transition in the UV-visible spectrum, DeltaE, was examined for a series of a

120 rofiles in the green to orange region of the visible spectrum, demonstrate high sensitivity to membra

121 order, but plumage reflectance in the human visible spectrum did not predict choice.

122 As a consequence, we have observed in the UV-visible spectrum during catalytic turnover a new interme

123 polyacrylamide gel electrophoresis and had a visible spectrum, electrophoretic mobility, and number o

124 The visible spectrum exhibited an absorption maximum at 550

125 guided modes appear and move throughout the visible spectrum for both s- and p-polarized light.

126 volvable by imaging treatment from an entire visible spectrum for each pixel (spectral analysis).

127 transmission efficiencies of >86% across the visible spectrum from 405 nm to 633 nm (peak value of ab

128 s with photonic bandgaps spanning the entire visible spectrum, from ultraviolet (UV) to near infrared

129 onance in Au and Ag structures occurs in the visible spectrum, impairing device performance.

130 vinyl ether caged fluorophores spanning the visible spectrum, including a near-infrared (NIR)-emitti

131 it responds also to other wavelengths of the visible spectrum, including red light.

132 tors show high transparency of >90% over the visible spectrum, indicating their potential for transpa

133 n of the QD, but it is effective through the visible spectrum into the nIR, offering a large array of

134 a full range of colours spanning the entire visible spectrum is achieved, paving the way towards dyn

135 ant, where tunability of emission across the visible spectrum is desired, and where efficient emissio

136 The longest wavelength band in the visible spectrum is red-shifted with increasingly electr

137 nge of smaller incident angles, the complete visible spectrum is reflected with a reflectivity of 100

138 g discharge channels that is radiated in the visible spectrum is similar for Earth, Venus and Titan,

139 hat of a 6-s-trans,13-cis chloride salt, the visible spectrum is strongly red-shifted from the lambda

140 h the uptake of one proton; this, and the UV-visible spectrum, is consistent with the reduced flavin

141 exhibits a weak electronic absorption in the visible spectrum (lambda(max) = 467 nm) that is characte

142 photoexcitation of A2E by wavelengths in the visible spectrum leads to singlet oxygen production and

143 ignal of molecular recognition events in the visible spectrum, making the signal interpretation much

144 Furthermore, the UV-visible spectrum, maximal specific activity [386 +/- 26

145 We previously demonstrated that the UV/visible spectrum of a chromophoric ligand, trans-3-indol

146 to both arms by analyzing changes in the UV-visible spectrum of A2E, and we have observed a preferen

147 ition correlated with the presence of the UV-visible spectrum of aminochrome.

148 The UV-visible spectrum of BES-modifed 2-KPCC showed the charac

149 The UV-visible spectrum of beta1(1-385) is almost identical to

150 erior to posterior every 0.25 mm, and the UV-visible spectrum of each section was measured to determi

151 The UV-visible spectrum of electrogenerated [ReII(DMPE)3]2+ is

152 whose family members sense nearly the entire visible spectrum of light colors.

153 le to this group's ability to use the entire visible spectrum of light for photosynthesis.

154 arrows, deepens, and continually rejects the visible spectrum of light until it stabilizes as a black

155 The UV-visible spectrum of oxidized Rd, with a monomer molecula

156 The UV-visible spectrum of PigA reconstituted with heme showed

157 te absorption is transiently observed in the visible spectrum of purified murine erythroid ALAS.

158 rast, in the case of IACoA, the resultant UV/visible spectrum of the enzyme-IACoA complex (lambdamax

159 Monitoring the visible spectrum of the enzymes, the first observed step

160 The visible spectrum of the product-inhibited complex resemb

161 The UV/visible spectrum of the protein is consistent with the p

162 s a homodimer of 29-kDa subunits, and the UV-visible spectrum of the purified protein showed absorban

163 The decay of the visible spectrum of this intermediate was 2-fold faster

164 e broadly spaced in the ultraviolet (UV) and visible spectrum on a AlGaN/AlN integrated photonic plat

165 with photosensitivity throughout the entire visible spectrum, one can optimize the controlling mater

166 having wavelengths in the red region of the visible spectrum, optimal for detection by the CCD camer

167 nating laser beam to resolve to 70 nm in the visible spectrum or have limited imaging resolution abov

168 Tetrahedron T absorbs strongly across the visible spectrum out to 650 nm and exhibits a total of 7

169 l as an experimental realization with an all-visible spectrum, p-polarized angularly selective materi

170 Melanopsin was highly resistant to both visible-spectrum photic bleaching and chemical bleaching

171 nucleic acids, and that is permeable to both visible-spectrum photons and exogenous macromolecules.

172 ciencies of the devices approach 100% in the visible spectrum range.

173 gically mature, but unable to cover the full visible spectrum (red, green and blue; RGB).

174 ensional photonic crystal structures for the visible spectrum remains a considerable challenge.

175 nation, and the absorption maximum in the UV-visible spectrum shifts to higher wavelength.

176 dex material in the blue-green region of the visible spectrum, substantiated by direct geometric visu

177 rated F-P filters, being able to cover whole visible spectrum, successfully modulate the spectral res

178 DTBT:PC60/70BM, exhibit flat IQEs across the visible spectrum, suggesting that charge generation is o

179 he four-electron-reduced form of QSOX with a visible spectrum suggestive of active site occupancy.

180 cene charge-transfer band in a region of the visible spectrum suitable for detailed resonance Raman s

181 of sulfide per polypeptide and displays a UV-visible spectrum that is consistent with a [4Fe-4S] clus

182 hown to be a fluorescent emitter outside the visible spectrum, the caging process provided an unprece

183 ectral bandwidth laser source centred in the visible spectrum, thereby allowing facile assessment of

184 an be continuously tunable across the entire visible spectrum through experimentally controlling thei

185 red hybrids emit radiation across the entire visible spectrum upon ultraviolet excitation.

186 of commonly used porous materials across the visible spectrum via excitation-emission spectroscopy an

187 to multiple phosphorescence bands across the visible spectrum via luminescence thermochromism and sit

188 rmined as a function of X-ray dose while the visible spectrum was being monitored.

189 The UV-visible spectrum was typical of methylated corrinoid-con

190 um dots that emit in the green region of the visible spectrum when excited in the ultraviolet region.

191 ase in diffuse reflectance across the entire visible spectrum, which was in stark contrast to radiofr

192 oefficients are reasonably stable across the visible spectrum, which we demonstrate by measuring whit

193 fferent luminescence centers emitting in the visible spectrum, which we have hypothesized as trace Cu

194 escent bioorthogonal smart probes across the visible spectrum will enable sensitive visualization of

195 tical response from the near infrared to the visible spectrum with decreasing layer thickness down to

196 this spontaneous nucleotide exchange in the visible spectrum with high signal-to-noise ratios.

197 red complex, designated 2b, that exhibits a visible spectrum with lambda(max) at 485 nm (9,800 M(-1)

198 umping, which enables modulation of the full-visible spectrum with large absolute change of transmiss

199 ked films exhibiting optical gain across the visible spectrum with less than one exciton per colloida

200 robe that emits in the far-red region of the visible spectrum with properties desirable for single-mo

201 infrared to shorter wavelengths close to the visible spectrum with remarkably low voltages ( approxim

202 of nickel elicited marked changes in the UV-visible spectrum, with intense charge transfer bands ind