ライフサイエンスコーパス: light absorption

1 s, which arises primarily from the increased light absorption.

2 ncreased mechanical stability; and decreased light absorption.

3 han 1 eV can transfer electrons to PCBM upon light absorption.

4 ble bond undergoing a Z/E isomerization upon light absorption.

5 bution of NP to wood burning brown carbon UV light absorption.

6 p to measure the sample expansion induced by light absorption.

7 ing as miniature optic fibres, enhancing the light absorption.

8 nly 1.85 eV, which matches well with visible light absorption.

9 have large bandgaps that afford weak visible-light absorption.

10 f hygroscopic growth of ambient particles on light absorption.

11 sorption photometer (PSAP) measuring visible light absorption.

12 ng light conditions optimizes photosynthetic light absorption.

13 "Trp-out" conformations (or vice versa) upon light absorption.

14 ment distinctly different from that prior to light absorption.

15 moiety that is isomerized to all-trans upon light absorption.

16 and performed no charge separation following light absorption.

17 o H-12 and chromophore bond lengthening upon light absorption.

18 ayer MoS2 and water photoionization-enhanced light absorption.

19 ed in a back subcell, which further enhances light absorption.

20 eaching an electronically excited state upon light absorption.

21 electronic structure changes that occur upon light absorption.

22 or photocathode initiated by molecular-level light absorption.

23 re field produced by the near-infrared laser light absorption.

24 , will hamper a C4 cycle via insufficient BS light absorption.

25 of the metal electrodes due to differential light absorption.

26 of improved charged extraction and increased light absorption, a 120% increase in the short-circuit c

27 rotein cryptochrome is thought to host, upon light absorption, a radical pair that is sensitive to ve

28 Light absorption across the bandgap in semiconductors is

29 perovskite semiconductors combine effective light absorption, allowing detection of a wide range of

30 compared to C60, including increased visible light absorption, altered energy level structures, and v

31 Such enhancement leads to better light absorption and allows us to achieve 6.5% efficienc

32 C3 BS anatomy limits light absorption and benefits little from high pigment c

33 itting based on the integration of molecular light absorption and catalysis on oxide electrodes.

34 standing of the functional properties (e.g., light absorption and charge transport) of (opto)electron

35 photosynthetic complexes and participate in light absorption and chloroplast photoprotection.

36 carbon (BrC) is an important contributor to light absorption and climate forcing by aerosols.

37 ng, expanding the spectral cross-section for light absorption and creating considerably faster and mo

38 ever, because excess OEC material can hinder light absorption and decrease photoanode performance, it

39 ll factor of 71.3% by virtue of the enhanced light absorption and effective carrier collection provid

40 optoelectronic crystal capable of broadband light absorption and efficient funnelling of photogenera

41 ing on far-field optical approaches based on light absorption and elastic scattering.

42 UV-visible light absorption and electron paramagnetic resonance spe

43 nstructions permit a detailed description of light absorption and electronic excitation migration, in

44 been their strong polarization dependence in light absorption and emission.

45 (radical) intermediates from the amine upon light absorption and enables the "storage" of light-ener

46 d thin-film formation leading to a broadened light absorption and enhanced film coverage on ITO/PEDOT

47 hin film material, which exhibited broadband light absorption and excellent stability in high-salinit

48 nefited cells by increasing biomass-specific light absorption and gross photosynthesis rates under lo

49 First, we measured light absorption and heat propagation in vivo, optimized

50 luorescein molecule in order to increase the light absorption and hence fluorescence signal intensity

51 both polarization-independent ultrabroadband light absorption and high plasmon dissipation loss.

52 that CH3NH3Sn(0.5)Pb(0.5)I3 has the broadest light absorption and highest short-circuit photocurrent

53 mbination, improve material quality, enhance light absorption and increase solubility limits of dopan

54 tion of the topographic features in terms of light absorption and isomerization process as a function

55 (II)-bpy building blocks with strong visible light absorption and long-lived triplet metal-to-ligand

56 Light absorption and photocatalytic activity of the resu

57 Specifically, we show that light absorption and photocurrent generation in a sub-10

58 teria; it is important because of its unique light absorption and photoprotection properties.

59 d a trade-off amongst the characteristics of light absorption and photoprotection, which could be att

60 r interest due to the potential of increased light absorption and photoreactivity.

61 do increases weakly because of the decreased light absorption and practically unchanged scattering.

62 Differential light absorption and product gradient between the surfac

63 defect states in ZnS, which lead to visible-light absorption and responded.

64 ,5-tetrazine (pytz) derivative shows visible light absorption and reversible one-electron reduction b

65 also compared to theoretical calculations of light absorption and scattering from simulated particle

66 ces that can enhance and effectively control light absorption and scattering processes.

67 nt of an optical imaging technique, confocal light absorption and scattering spectroscopic (CLASS) mi

68 bility scaling exponent, hygroscopicity, and light absorption and scattering.

69 echnologically useful properties of complete light absorption and strong field enhancement.

70 uding more favorable energy levels, enhanced light absorption and stronger intermolecular packing.

71 e pairs are produced in the MoS2 layer after light absorption and subsequently separated across the l

72 state ((5)MLCT) can be accessed via visible light absorption and that the thermalized (5,7)MLCT is l

73 confinement in radial dimensions for tunable light absorptions and bulk like carrier transport in the

74 ng two changes known to cause a red-shift in light absorption, and is favored in blackwater lakes but

75 stantially when the leaf center is warmed by light absorption, and more so under high humidity.

76 ies due to the large contact area, efficient light absorption, and rapid charge separation and transp

77 energy level alignment, greater active layer light absorption, and similar hole mobility, P3HT/CNPPV

78 es in LAI have little impact on total canopy light absorption; and because leaf quality has a greater

79 and evaporation in the mesoporous wood, high light absorption ( approximately 99%) within the surface

80 We also find a strong CT transition in light absorption as well as in photo- and electrolumines

81 Contrary to earlier reports, the visible light absorption at 1.8 eV ( approximately 688 nm) is du

82 cating that these particle types had minimal light absorption at 355 nm.

83 ls, while lutein was quantified with visible light absorption at 450 nm.

84 r transport through spatially redistributing light absorption at the active layer of devices.

85 is 4 orders of magnitude better than that of light-absorption-based methods.

86 can be greatly enhanced due to the improved light absorption, better wettability, local ordering str

87 Middle ear fluid shows strong light absorption between 1,400 and 1,550 nm, enabling st

88 We present a trade-off for light absorption between BS pigment concentration and sp

89 ctronic domains (excitons) as a result of UV light absorption, but also reveal the spatial extent of

90 f the response was attributable to increased light absorption, but as leaf area indices increased, th

91 tuating light had thinner leaves, lower leaf light absorption, but maintained similar photosynthetic

92 omatic formulas exhibit much higher rates of light absorption, but only slightly higher rates of trip

93 The spectral dependence of light absorption by atmospheric particulate matter has m

94 Recent global models estimate that light absorption by brown carbon (BrC) in several region

95 onyl-AS-amine reactions of </= 10% of global light absorption by brown carbon.

96 aethalometer and account for 4 +/- 2% of UV light absorption by brown carbon.

97 The results indicate that light absorption by charge-transfer states or by (aromat

98 initial event in oxygenic photosynthesis is light absorption by chlorophylls (Chls), carotenoids, an

99 e direction of light, presumably to optimize light absorption by exposing more chloroplast area to th

100 Since light absorption by extracellular medium increases when

101 or systematic error to be introduced through light absorption by gases, presents comparisons with Mie

102 ethylsiloxane matrix, we show that efficient light absorption by GNPs and subsequent energy transduct

103 had questionable results thus far because of light absorption by hemoglobin in the ranges of light em

104 The cry1 photocycle is initiated by light absorption by its FAD chromophore, which is most l

105 Light absorption by molecules creates a thermally induce

106 Light absorption by PSI was required for H(2) evolution,

107 Light absorption by PSII leads to the production of exci

108 It has been shown that blue light absorption by retinal pigment epithelium results i

109 Light absorption by RPE melanin can explain differences

110 onversion from dark to signaling states upon light absorption by the chromophore.

111 pectral response measurements supported that light absorption by the covalently bound photoacids was

112 alternate conformations in solution and that light absorption by the flavin causes partial movement/u

113 mpounds that account for >70% of the overall light absorption by the MG+AS system in the 300-500 nm r

114 Light absorption by the N-terminal photosensory core mod

115 It forms on the microsecond time scale after light absorption by the oxidized state.

116 , each of which is converted to the other by light absorption by the protein's retinylidene chromopho

117 rkable efficiency is attributed to maximized light absorption by the thick active layer and minimized

118 Rf,T and the total rate of light absorption by the water samples (Ra) increased wit

119 Light absorption can trigger biologically relevant prote

120 However, their visible light absorption capabilities are limited.

121 ve strategy that allows cells to balance the light absorption capabilities of photosystems I and II u

122 y zeaxanthin, and a major down-regulation of light absorption capacity by decreasing the chlorophyll

123 Light absorption causes formation of a covalent bond bet

124 ally stable EC fractions that exhibit strong light absorption characteristics.

125 By separating the functions of light absorption, charge transport and catalysis between

126 asts, which colocalize molecules involved in light absorption, charge transport and catalysis to crea

127 nge current density-to account for imperfect light absorption, charge transport and catalysis.

128 Upon light absorption, chromophoric DOM (CDOM) can sensitize

129 Substantial increase of BrC light absorption coefficient was observed during the nig

130 f nitrogen, and black carbon (as measured by light absorption coefficient) in six U.S. metropolitan r

131 Their high light absorption coefficients and long diffusion lengths

132 graphitized CDs show significantly enhanced light absorption compared to amorphous CDs (a-CD) yet un

133 h monolayer BiI3 nanosheet leads to enhanced light absorption compared to that in pure monolayer BiI3

134 C, in particular nitrophenols, are important light absorption contributors of biomass burning organic

135 Upon light absorption, dCRY undergoes a conformational change

136 ater than 50 nm, which induced an additional light absorption depression around 13.89 mum wavelength.

137 The discrete and random nature of light absorption dictates that, when photons are scarce,

138 metallic" oxide couples exhibit strong solar-light absorption driven by the unique electronic structu

139 However, upon correction for reduced light absorption due to loss of pigment, with regenerati

140 Light absorption due to the Localized Surface Plasmon Re

141 cids instead of a prosthetic chromophore for light absorption during UV-B photoreception.

142 al phylogenetic trends in factors modulating light absorption (effective cross-section, reaction cent

143 film antireflection coating, which increases light absorption efficiency.

144 e various aspects of a photocatalytic cycle: light absorption, electron/hole transport, band edge ali

145 polarized fluorescence theory accounting for light absorption, emission, and propagation in a cholest

146 does not participate as a chromophore in the light-absorption/emission phenomenon.

147 ing 2D materials have demonstrated efficient light absorption, enabling large responsivity in photode

148 icon at wafer scales that achieved over 160% light absorption enhancement from 800 to 1,200 nm.

149 (metal)-shell (dielectric) nanoparticles for light absorption enhancement in thin film Si solar cells

150 to prevent inhibition of photosynthesis when light absorption exceeds photosynthetic capacity.

151 s in an alternating copolymer which displays light absorption extending to 735 nm, and a higher HOMO

152 Upon blue light absorption, FAD is converted to the neutral radica

153 intaining stability and minimizing parasitic light absorption for integration on surfaces of semicond

154 are coordinated with the onset of measurable light absorption for photosynthesis.

155 red to investigate the perturbing effects of light absorption for quantifying the fluorescence signal

156 otentially useful new dyes with panchromatic light absorption for solar energy conversion application

157 As a result, the increase in light absorption for transverse polarized light changes

158 ve two distinct functions in higher animals: light absorption for vision and gene regulation for grow

159 The metabolite 11-cis-retinal functions in light absorption for vision in chordate and nonchordate

160 ertical arrays of ZnO nanowires can decouple light absorption from carrier collection in PbS quantum

161 Extension of the light absorption from the ultraviolet (UV) region to the

162 the mixing state plays an important role in light absorption from volatile species.

163 In water-oxidizing photosynthetic organisms, light absorption generates a powerfully oxidizing chloro

164 n, accounted for 50-80% of the total visible light absorption (>400 nm) by solvent extractable BrC.

165 e use of a retro-reflective foil to optimize light absorption, high photocurrents up to 23.0 mA cm(-2

166 terned substrates possess broadband-enhanced light absorption, high quantum efficiency and desirable

167 erprint of tissue from endogenous sources of light absorption; however, specific molecular components

168 voltaics, electron-hole pairs are created by light absorption in a semiconductor and separated by the

169 ar cells, electron-hole pairs are created by light absorption in a semiconductor, with charge separat

170 Light absorption in conducting materials produces heatin

171 ies to dissipate excess energy from solar UV light absorption in DNA is fundamental, because its effi

172 Light absorption in graphene causes a large change in el

173 step, we demonstrate electrical control over light absorption in metafilms constructed from dense arr

174 Cone voltage responses evoked by light absorption in neighboring rods were briefer and sm

175 mplex II (LHCII) is the main responsible for light absorption in plants and green algae and is involv

176 coincides with the spectral range of minimal light absorption in sea water, raising intriguing questi

177 in snow, an important parameter affecting BC light absorption in snow.

178 pecies and affects anthocyanin stability and light absorption in solution.

179 location of the SLG that results in enhanced light absorption in the graphene at the excitation wavel

180 changes, temperature variations, or changing light absorption in the liquid.

181 by enzymatic nitrate reduction initiated by light absorption in the nanoparticle.

182 ion, in which the photo-carrier generated by light absorption in the semiconductor might be transport

183 n fabricated, which even exhibited excellent light absorption in the visible region and greatly enhan

184 The compounds exhibit strong light absorption in the visible region, accompanied by s

185 e (sExTTF) moiety, which exhibits an intense light absorption in the visible spectrum and a reversibl

186 tion of a wide-bandgap gap oligomer enhances light absorption in the visible spectrum.

187 t the measured photocurrents were limited by light absorption in the wire arrays, which filled only 4

188 s were accounted for by the expected rate of light absorption in their outer segments.

189 ly suited to enhance and spectrally engineer light absorption in this important size regime.

190 This is because light absorption in tropical canopies is near maximal fo

191 ressed trap-assisted recombination, enhanced light absorption, increased hole extraction, efficient e

192 ructure of the intermediate, confirming that light absorption induces a sequential reaction path in w

193 s a G protein-coupled receptor that converts light absorption into the activation of a G protein, tra

194 rrower bandgap (<1.3 eV), thus extending the light absorption into the near-infrared (~1,050 nm).

195 Light absorption is followed by electron or hole injecti

196 is nondirectional and unpolarized, and that light absorption is isotropic.

197 Enhancing and spectrally controlling light absorption is of great practical and fundamental i

198 Light absorption is proposed to result in alterations in

199 c pathway that regenerates chromophore after light absorption, is located primarily in the retinal pi

200 Upon light absorption, it undergoes a series of conformationa

201 alyses: acidity, peroxide value, ultraviolet light absorption K(2)(3)(2) and K(2)(7)(0), carotenoids,

202 Upon red-light absorption, LAPD up-regulates hydrolysis of cAMP a

203 Integration of colloidal quantum dots in the light absorption layer can improve the responsivity of g

204 r bands could be responsible for the far-red light absorption leading to PS I photochemistry at wavel

205 copic distances (2-8 mum), comparable to the light absorption length.

206 that of equivalent planar cells despite low light absorption levels.

207 rtificial photosynthetic systems with strong light absorption, long-lived charge separation and effic

208 d lesion was used to guide reconstruction of light absorption maps at four wavelengths, and total hem

209 g the diatom frustules on the surface of the light-absorption materials is found to strongly enhance

210 nce of charged radicals in DNA strands after light absorption may cause reactions--oxidative or reduc

211 ulates the catalytic activity of Ppr by blue light absorption, may allow such issues to be addressed.

212 Particle light absorption measurements by a seven-wavelength aeth

213 Nonlinear light absorption mechanisms such as two-photon absorptio

214 Indirect excitons formed by light absorption mediate the formation of localized elec

215 alizing TiO2 materials for enhancing visible light absorption, narrowing band gap, and improving phot

216 Spontaneous activation of rhodopsin without light absorption occurs at a much lower rate in rod phot

217 l range of photodetection is reduced because light absorption occurs in the quantum dots.

218 ult, large BrC molecules dominated the total light absorption of aged biomass burning BrC.

219 The origin of the visible-light absorption of main-group element (C, N, S) doped T

220 The light absorption of methanol extracts showed a strong wa

221 In this work, the light absorption of methanol-extractable OC from prescri

222 rials, even allowing for the generally lower light absorption of nanowires.

223 nic resonances of silver nanowires increases light absorption of photon-sensitive DNA motor molecules

224 Light absorption of PM2.5 water-soluble components at 36

225 molecules permits us to drastically enhance light absorption of QDs, while preserving good long-term

226 When the light absorption of the aged lens is taken into account

227 CRY neutral radical is formed following blue light absorption of the oxidized flavin.

228 quanta emitted by the NPs originate from the light absorption of the polymer film, which proves the p

229 s from the differential circularly polarized light absorption of the sample but is independent of con

230 ylethynyl donor group attachment expands the light absorption of these molecules to the 600-700 nm re

231 band of TiO2, which explains the red-shifted light absorption of these potential photocatalysts and s

232 1.3 electronvolts, CsSnI(3) enhances visible light absorption on the red side of the spectrum to outp

233 adband and polarization-independent resonant light absorption over the entire visible spectrum (400-7

234 olar cells have been fabricated to enhance a light absorption path while maintaining a short carrier

235 ntroduction of Ag3PO4 on g-C3N4 promoted its light absorption performance.

236 heir interesting properties, such as visible-light absorption, photocatalytic activity and high diele

237 We used light absorption, photoexcitation, and emission spectra,

238 nge of time scales, which follow the initial light absorption process.

239 Recent work suggests that light absorption produces strongly correlated electron-h

240 rtical distribution of leaf nitrogen and the light absorption profile.

241 Solid-state crystalline photocatalysts have light absorption profiles that are a discrete function o

242 lement gas-exchange model parameterized with light absorption profiles, we found that weaker penetrat

243 or improved photocatalysts by increasing the light absorption, promoting the charge separation and tr

244 ence of a major biomass burning event on the light absorption properties of atmospheric brown carbon

245 idity is an important factor controlling the light absorption properties of BrC.

246 ctor, and (II) ancillary ligands to tune the light absorption properties of the dye and facilitate el

247 ments that show the effect of substituent on light absorption properties of the norbornadienes as wel

248 Even further control over the spectral light absorption properties of thin films has been achie

249 yield of electron transfer and good visible light absorption properties.

250 rves the desirable colorfastness and visible light-absorption properties associated with these dyes.

251 The ability to tune the light-absorption properties of chlorophylls by their pro

252 g glucose addition in AP-SWNTs treatment and light absorption property of SWNTs particles suggest tha

253 The light absorption ratio for nanometer GeSn/Al foil hetero

254 the light of the relevant properties, namely light absorption, reduced adhesion and friction, heat in

255 e investigate if the spatial distribution of light absorption relative to electron transport capacity

256 rve a concomitant strain-driven variation in light absorption--reminiscent of piezochromism--which we

257 on g-C3N4 significantly enhances the visible-light absorption, rendering them ideal for visible-light

258 try, has been used to manipulate fundamental light absorption, scattering, and emission processes in

259 ted hydrodynamically, detected optically (by light absorption/scattering), and immediately transferre

260 ed by up to +/-80nm, extending the protein's light absorption significantly beyond the range of known

261 arge transfer/recombination while optimizing light absorption, singlet fission and triplet rather tha

262 urine PF4 (mPF4) and heparin with respect to light absorption, size, and surface charge (zeta potenti

263 tioxidant capacity while reducing leaf area, light absorption, specific leaf mass, primary metabolite

264 ents at high concentration using ultraviolet light absorption spectroscopy and small-angle neutron sc

265 Yet, mass spectroscopy and visible light absorption spectroscopy confirmed the presence of

266 otoconvertible between red and near-infrared light-absorption states.

267 coincident with the observations of enhanced light absorption, suggesting such oligomers as chromopho

268 After light absorption the optically allowed states of peridin

269 Like sunscreens that function by light absorption, the bases rapidly convert dangerous el

270 borohydride reduction substantially reduced light absorption, the R(H(2)O(2)) values were largely un

271 o undergo large-scale structural change upon light absorption, there is intense interest in understan

272 nstrate that coatings on BC can enhance BC's light absorption, therefore many climate models simply a

273 xamples with provision to avoid differential light absorption; this utilized singlet sensitization.

274 How well they signal intrinsic light absorption to drive behaviour remains unclear.

275 d based on plasmonic metasurfaces of perfect light absorption to improve color performances such as s

276 p of common bulk phases of TiO(2) limits its light absorption to UV light, making it inefficient for

277 obscures the mechanisms behind the efficient light-absorption-to-charge conversion process.

278 Light absorption triggers photoisomerization of the bili

279 20 nm) VO2 film, we demonstrate broadband IR light absorption tuning (from ~90% to ~30% in measured a

280 We find that after electronic excitation by light absorption, ultrafast energy conversion takes plac

281 ave been focused on near-perfect and perfect light absorption using metamaterials spanning frequency

282 hat vertical temperature gradients caused by light absorption vary over 10-fold across species, reach

283 The variability of PSII light absorption was independent of phylogenetic designa

284 Light absorption was measured at two optical wavelengths

285 Light absorption was measured at two wavelengths.

286 ons (metal ion removal/binding; antioxidant; light absorption) was additive, with combinations provid

287 the "brown" carbon (BrC) budget and exhibits light absorption wavelength dependence close to the uppe

288 es in M.A.C. values associated with enhanced light absorption when polydisperse, laboratory-generated

289 y reach an electronically excited state upon light absorption while successively triggering the forma

290 usceptible to processes that lead to reduced light absorption, while larger-molecular-weight species

291 ew, highly efficient pathway for integrating light absorption with bond formation.

292 Artificial photosynthesis relies on coupling light absorption with chemical fuel generation.

293 Near perfect light absorption with high quality factors are obtained

294 hotovoltaic devices, and for the coupling of light absorption with other functional properties.

295 microm-10 microm, and </=10 microm and PM2.5 light absorption with preterm PROM and gestational age a

296 converted in response to the need to balance light absorption with the capacity to use the energy to

297 mographic rates were related to variation in light absorption, with mortality increasing relative to

298 up to 8.5%, which is attributed to enhanced light absorption within the active layer and smooth hole

299 hotodynamic therapy, but is driven solely by light absorption, without the need for photochemical int

300 promising PDT agents due to intense visible light absorption, yet the majority are toxic even withou