ライフサイエンスコーパス: white light

1 emperature (CCT) of 7863 K, producing "cold" white light.

2 nseed oil were exposed to air and additional white light.

3 nal ganglion cell light responses to blue or white light.

4 ased adherence compared to cells grown under white light.

5 r signaling only in monochromatic but not in white light.

6 ayed sleep induction in response to green or white light.

7 morphogenesis upon exposure to blue, red, or white light.

8 ional nine polyps that were not visible with white light.

9 , 8, and 10 weeks with mice reared in normal white light.

10 s have utilized high-intensity polychromatic white light.

11 and PHYBs were targeted to the nucleus under white light.

12 t PRCs have been to long durations of bright white light.

13 oxidase-like activity upon irradiation with white light.

14 nanostructured 2D layers of ZnS emit bright white light.

15 er monochromatic light and 1.8% under AM 1.5 white light.

16 which is photochemically inactive to red or white light.

17 ctional and omni-directional illumination of white light.

18 Cys)(18)]) activated at a low flux levels of white light.

19 dramatically increased via interaction with white light.

20 late HY5 to control photomorphogenesis under white light.

21 rimarily regulate different sets of genes in white light.

22 obtaining a CIE index close to that of pure white light.

23 CDVA was comparable under red and white light.

24 leteness of Li-Fi feature and the quality of white-lighting.

25 onium dications as templates which also emit white light: (1) alpha-(DMEN)PbBr4 (DMEN = 2-(dimethylam

26 By contrast, high-intensity white light (1000 mumol photons m(-2) s(-1)), darkness,

27 Low-intensity white light (150 mumol photons m(-2) s(-1)) behaved simi

28 -diethylether interfaces are irradiated with white light (275-750 nm) or sunlight.

29 ytochrome B (phyB) having a dominant role in white light [3].

30 all neoplastic polyps that were visible with white light (38), as well as an additional nine polyps t

31 White-light 3D scanning technology was used to probe 36

32 ssisted with orange LED light (8.28UA490nm), white light (8.26UA490nm) and under dark condition (7.45

33 f "0 + 1 > 1." Noteworthy is that "DPA-SCP + white light" achieves a high SER10 value of 1.62, which

34 -red light (FR) pretreatment and transfer to white light also results in plastid damage and loss of p

35 ges were made of the marked areas using only white light and also with only a 655-nm diode laser that

36 outs cultivated for 10 days under continuous white light and at 25 degrees C (562mg/100g of fresh mas

37 tization to be decreased by irradiation with white light and significantly increases the ordering tem

38 ace has a broad antimicrobial activity under white light and that the surface treatment causes bacter

39 ABTS(.-) anion radical solution adsorbed the white light and therefore the intensity of the reflected

40 White-light and Cerenkov images (5-min acquisition) of t

41 ffuser is demonstrated for fusing the indoor white-lighting and visible light communication (VLC).

42 fuser diverged blue GaN LD for future hybrid white-lighting and VLC systems.

43 N5 nanoparticles alone under illumination by white light, and continued to exhibit superior catalytic

44 ow-band green or red light, or wide-spectrum white light, and thereby provide extra visible light to

45 construct a PRC for a 1 h exposure to bright white light ( approximately 8000 lux) and to compare thi

46 magnitude higher photocurrent in response to white light as compared to narrow-band opsin channelrhod

47 be possible with the use of high definition white light as well as water-related methods such as wat

48 ion) were measured monocularly under red and white light at far, intermediate, and near distances.

49 -shifting responses to 2 h of broad-spectrum white light at moderate and high intensities in younger

50 Our results indicate that white light at night increases nighttime activity levels

51 daylight photodynamic therapy and artificial white light (AWL) LED photodynamic therapy for the treat

52 Compared with those reared in white light, B6 mice reared in red light developed relat

53 ed on the gadget's screensaver that provides white light-based bottom illumination only in the specif

54 psin sensitized cells may facilitate ambient white light-based restoration of vision for patients wit

55 Interference of two combined white light beams produces Newton colors if one of the b

56 during a limited time of fast growth in dim white light beginning 2.5 days after germination.

57 light (WL: 250 lx, 2,800 K) or blue-enriched white light (BL: 250 lx, 9,000 K) exposure.

58 t monotherapy (active 10,000-lux fluorescent white light box for 30 min/d in the early morning plus p

59 ensional (2D) perovskites were found to have white-light, broadband emission in the visible range tha

60 iverse cowpea phenotypes (black, red, green, white, light-brown and golden-brown) were investigated f

61 gative regulator of photomorphogenesis under white light but is a positive regulator of UV-B signalin

62 VA and DCNVA were significantly better under white light by 0.06 and 0.09, respectively.

63 states, simple exposure of the hydrogels to white light can reverse color changes and restore mechan

64 pite attempts at the construction of planar 'white-light cavities', the benefits accrued upon optical

65 an 80:20 random element) to either standard white light colonoscopy (standard group) or chromocolono

66 High-definition white light colonoscopy allowed for better characterizat

67 and consented: 360 were randomly assigned to white light colonoscopy and 381 to chromocolonoscopy.

68 White light colonoscopy is widely used to detect colorec

69 ted colonoscopy and standard high-definition white light colonoscopy regarding serrated polyps' detec

70 High-definition white light colonoscopy, cap-fitted colonoscopy, and dye

71 MCs) is presented, demonstrating outstanding white light colorimetric properties with CIE chromaticit

72 In this paper, we report a laser diode based white-light communications link that operates over a wid

73 h green to orange, as well as outputted as a white light continuum with a fluorescence quantum yield

74 d DMSO solvents using E(22) excitation and a white-light continuum probe enables E(11) and E(22) spec

75 ladder lesions in comparison to conventional white light cystoscopy.

76 When cells were shifted from white light D2O-seawater medium to far-red light H2O-sea

77 ss-of-function seedlings in low fluence rate white light, demonstrating an ATAF2-mediated connection

78 ng high-grade dysplasias and carcinomas over white-light detection alone with 75% (6/8).

79 far-field superlenses (FSL) to overcome the white-light diffraction limit.

80 timized experimental condition, DPA-SCP with white light does not lead to apoptosis/death of cancer c

81 Periodically flashing UV light and white light drives the robot flagellum periodically to s

82 hows a growth penalty only under fluctuating white light due to a low amount of PSI.

83 c acid (CC)-are mixed to produce almost pure white light emission (WLE).

84 Highly polarised white light emission from a hybrid organic/inorganic dev

85 we demonstrate by photoluminescence studies white light emission from a monolithic InGaN/GaN single

86 in the preparation and the quantum yield of white light emission from the system was 0.38, the highe

87 Single lanthanide(III) ion white light emission is in high demand since it provides

88 g examples in the areas of chemical sensing, white light emission, biological imaging, drug delivery,

89 ing index (CRI), which is brilliant for warm white light emission.

90 version and enable color-tunable emission or white-light emission by combining blue, green, and red s

91 g to study single crystals, we show that the white-light emission decay from the (110) perovskite (ED

92 Intriguing white-light emission from just a single species with the

93 The mechanism of white-light emission from layered Pb-X (X = Cl or Br) pe

94 ength visible-light emission, including rare white-light emission in tetrahydrofuran.

95 Our results demonstrate that white-light emission is not limited to 110 oriented brom

96 Brighter white-light emission occurs with other carboxylic acids

97 at of EA4Pb3Br10, which results in broadband white-light emission of EA4Pb3Cl10 in contrast to narrow

98 ials have demonstrated attractive broad-band white-light emission properties, they pose a serious lon

99 The resulting hybrid device demonstrates white-light emission under low-current operation, with c

100 distorted member alpha-(DMEN)PbBr4 exhibits white-light emission with a color rendering index (CRI)

101 ons and X is a halide ion) have demonstrated white-light emission with improved photoluminescence qua

102 ly modulated over a wide spectrum, including white-light emission, simply by tuning of the lanthanide

103 fascinating properties of these materials is white-light emission, which has been mostly observed in

104 d 2D perovskite (n = 3) exhibiting a tunable white-light emission.

105 ith new concept devices leading to efficient white-light emission.

106 resulting material, thereby enabling tunable white-light emission.

107 he resulting chromophores exhibit unexpected white light emissions apart from various inherent proper

108 ucture light-emitting diode (LED) arrays for white light emissions are achieved and the light emissio

109 ed excited states that give efficient bluish white-light emissions with photoluminescence quantum eff

110 g that Dy(3+) can be tuned as a single ionic white light emitter by a simple modification of the coor

111 way for the fabrication of highly polarized white light emitters.

112 zed extraction of these colors from organic, white light emitters.

113 des have recently been reported as efficient white light emitters.

114 t on the second family of layered perovskite white-light emitters with improved photoluminescence qua

115 such as solar cells, light-emitting diodes, white-light emitters, lasers, and polaritonic emission,

116 ich can provide a pathway to design tailored white-light emitters.

117 c crystal (PhC) slab for phosphor-conversion white light emitting devices analyzed by three-dimension

118 is directly applicable for developing hybrid white light emitting devices having both an (active) blu

119 ort issues in a (11-22) semi-polar GaN based white light emitting diode (consisting of yellow and blu

120 Light from a white light emitting diode (LED) source is dispersed ont

121 e waveguide (LCW) flow cell illuminated by a white light emitting diode.

122 rials as red phosphors in phosphor-converted white light emitting diodes (pc-WLEDs) when employing Ga

123 g UV convertible phosphor for application in white light emitting diodes (w-LEDs).

124 At the present time, commercially available white light emitting diodes (WLEDs) are predominantly ph

125 ss-studied for the potential applications in white light emitting diodes, solar cells, optical codes,

126 oved operation lifetimes and stability under white-light emitting diodes, or under a solar simulator

127 idation of these newly developed solid-state white-light emitting HDP materials.

128 the fluorescence quantum yield of ultrasmall white light-emitting CdSe nanocrystals from 8% to 45%.

129 A white light-emitting diode (0.33, 0.33) is fabricated us

130 A white light-emitting diode (w-LED) constructed from the

131 Nitride phosphors are suitable for white light-emitting diode applications.

132 White light-emitting diodes (LEDs) are rapidly replacing

133 )N(8):Eu (M = Sr, Ba) are widely utilized in white light-emitting diodes (WLEDs) because of their imp

134 nt aspect in the research and development of white light-emitting diodes (WLEDs) is the discovery of

135 15%) NCs is reported to achieve lead-reduced white light-emitting diodes (WLEDs).

136 emains one of the significant challenges for white light-emitting diodes (WLEDs).

137 We report a high-performance phosphors-free white light-emitting-diodes (w-LEDs) using Ba2V2O7 or Sr

138 camera of the smartphone, which contains two white light-emitting-diodes to illuminate the water samp

139 ots/epoxy composites for multiple-color- and white-light-emitting devices.

140 The white-light-emitting diode (LED) made from a blue GaN-ba

141 ealize high-performance, solution-processed, white-light-emitting diodes and organic solar cells usin

142 line for the design of a new class of hybrid white-light-emitting nanophosphors and other multifuncti

143 e report the design and properties of hybrid white-light-emitting nanophosphors obtained by electroni

144 great promise as a new type of single-phase white-light-emitting phosphors.

145 Efficient white-light-emitting single-material sources are ideal f

146 arly neoplasia compared with high-definition white light endoscopy (HD-WLE) with random biopsy analys

147 adder lesions, as an adjunct to conventional white light endoscopy.

148 a significant improvement when compared with white light endoscopy.

149 ctively) were significantly longer than with white-light endoscopy (22.4 +/- 8.7 minutes and 13.5 +/-

150 n of patients (37.5%; 95% CI 29.5-46.1) than white-light endoscopy (23.4%; 95% CI 16.9-31.4; P = .01)

151 romoendoscopy (34.4%; 95% CI 26.4%-43.3%) vs white-light endoscopy (28.1%; 95% CI 21.1%-36.4%; P = .2

152 could be more effective than high-definition white-light endoscopy (HD-WLE) in detecting serrated les

153 ned to groups that underwent high-definition white-light endoscopy (n = 128) or pancolonic chromoendo

154 in the tubular esophagus on high-definition white-light endoscopy and preferably optical chromoendos

155 h detecting colonoscopists, high-definition, white-light endoscopy is noninferior to pancolonic chrom

156 Lynch syndrome surveillance, high-definition white-light endoscopy is not inferior to pancolonic chro

157 However, conventional white-light endoscopy offers physicians structural infor

158 oscopy using high-definition/high-resolution white-light endoscopy should be performed under maximal

159 a, a repeat examination with high-definition white-light endoscopy should be performed within 3-6 mon

160 ase in the false discovery rate from 45% for white-light endoscopy to 81% for fluorescence endoscopy.

161 apy should be performed with high-definition white-light endoscopy, including careful inspection of t

162 wn to carry a high miss-rate during standard white-light endoscopy.

163 rescence endoscopy in comparison to standard white-light endoscopy.

164 o support its superiority to high-definition white-light endoscopy.

165 A detailed white light examination with high-resolution endoscopy a

166 coloration can be observed with p-polarized white light excitation, consistent with the use of this

167 Additionally, the glaring white light excited at a wavelength of 325 nm was experi

168 o light group, the group treated with bright white light experienced a significantly higher remission

169 der ambient conditions (room temperature and white light exposure), a very promising property for flu

170 d choroidal neovascularization (CNV), bright white-light exposure, and Fam161a-associated inherited r

171 ried out in order to expose ARPE-19 cells to white light for 48 h with and without blue light-blockin

172 ht-emitting diode are an efficient source of white light for everyday applications.

173 t a novel and generic approach for attaining white light from a single-emitter light-emitting electro

174 that persisted to year 3 (mobility p=0.0003, white light full-field sensitivity p<0.0001), but no sig

175 ver the same time period (mobility p=0.7398, white light full-field sensitivity p=0.6709).

176 Compared to white light funduscopy, the FAF images exhibited heighte

177 dely tuned from red to deep blue and even to white light generation upon optimization of the surround

178 ping applications such as phosphor-converted white light generation, water-splitting, or thin-film so

179 ns to integrate these devices in modules for white light generation.

180 the nonlinear response, i.e., changing from white-light generation to second-harmonic generation as

181 on load in 289 children (aged 9-12 yr) using white-light generation under femtosecond pulsed laser il

182 Highly directional white-light generation was recently reported for the org

183 near harmonics leading to broadband coherent white-light generation.

184 ers, surface enhanced Raman spectroscopy and white-light generation.

185 on of turning maneuvers to orient in virtual white-light gradients.

186 In contrast, in white light-grown seedlings, spaQn mutants failed to rel

187 The decrease in the intensity of the white light had a logarithmic relationship with the conc

188 n the dark, stable a-Se glasses formed under white light have reduced thermal stability, as measured

189 conditions in this study simulated a typical white-light hospital environment.

190 Documentation was performed under white light illumination (transmission mode).

191 We demonstrate that deposition both under white light illumination and in the dark results in ther

192 tial efficiency after 300 h under continuous white light illumination and maximum-power point-trackin

193 ich exhibits photocapacitive behaviour under white light illumination at a radiant flux density of 99

194 shape-dependent photoresponse behavior under white light illumination from a solar simulator.

195 do not have photobactericidal activity under white light illumination of an average 312 lux.

196 nd reconstruction can be achieved for direct white light illumination on an array of plasmonic nanopa

197 s and high photoresponsivity (~1.7 A/W under white light illumination) comparable to exfoliated GaSe

198 ng process by exposing the packaged cells to white-light illumination intensities of up to 37 Suns.

199 Under 100 mW cm(-2) white-light illumination, sustained photocurrents of 1.5

200 e treatment, while it in fact shows the same white light image as the right-hand panel without fluore

201 egistered hyperspectral and standard-of-care white light images, which allows image distortions to be

202 h potential for performing metasurface-based white light imaging, and an Alvarez lens with a tunable

203 We paired white-light imaging of burrow formation with fluorescenc

204 cancer patients who underwent endoscopy with white-light imaging, narrow-band imaging (NBI) with magn

205 ulum is extremely glossy, reflecting intense white light in a specular direction, but at more oblique

206 ed colonies are simply visualized in ambient white light in stark contrast to recombinant transforman

207 r-Price reagent and video densitometry under white light in the reflectance mode.

208 Exposure to 1 h of bright white light induced a Type 1 PRC with a fitted peak-to-t

209 White-light initiated hydrosilylation of nanocrystalline

210 In order to better understand the white-light initiated mechanism through which this react

211 n for generating significant photocurrent at white light intensity levels close to ambient daylight c

212 in preserving PSI upon rapid fluctuations in white light intensity.

213 ow, which are likewise strictly regulated by white light intensity.

214 ofile and dynamics in response to changes in white light intensity.

215 and D-dimer in human blood plasma based on a white light interference spectroscopy sensing platform i

216 In this work, we demonstrate white-light interferometry (WLI) as a practical tool for

217 gly, Crb1 promotes rod survival under strong white light irradiation in a previously unreported non--

218 nglet oxygen ((1) O2 ) in mitochondria under white light irradiation that can serve as a highly effec

219 With continuous white light irradiation, 1 displays slow relaxation of t

220 of photochemically reducing N2 to NH3 under white light irradiation, in aqueous media, under ambient

221 e perovskite nanocrystals and polymers, pure white light is achieved with the a CIE coordinate at (0.

222 White light is obtained in MeCN by using either the prop

223 Interestingly, the stability of the white light is preserved after annealing at the lowest t

224 ls as single materials for the generation of white light is reviewed.

225 f all subjects were examined in duplicate by white light IVCM (Confoscan 4, NIDEK Technologies, Albig

226 were examined by slit-lamp biomicroscopy and white-light IVCM (Confoscan 4; Nidek Technologies, Padov

227 icrocrystals using ultrafast two-dimensional white-light microscopy and discover a low-energy singlet

228 domized for exposure to 1 h of either bright white light (n=18) or <3 lux dim background light (n=18)

229 d improvement and potential for use of these white-light nanocrystals in solid-state lighting applica

230 med DENAQ that restores retinal responses to white light of intensity similar to ordinary daylight.

231 ed to treatment with either 7,000-lux bright white light or 50-lux dim red placebo light (N=23 for ea

232 We found that under white light or blue light, over 60%, and under red light

233 d under red light and remains inactive under white light or in darkness.

234 Herein we report on the broad-band direct white-light originating from a single component emitter,

235 junctive tests offer additional information, white light otoscopy has been the main tool for diagnosi

236 rme hormogonia are positively phototactic to white light over a wide range of intensities.

237 he correlation between ICG pHLIP imaging and white light pathological assessment.

238 nd a blue band peaked at 2.8 eV resulting in white light perception.

239 itride (GaN) laser diode (LD) with a compact white-light phosphorous diffuser is demonstrated for fus

240 They are promising as single-source white-light phosphors for use with ultraviolet light-emi

241 However, under prolonged red or white light, phyA mutants are hyper-photomorphogenic in

242 Under high-irradiance white light, phyB formed large nuclear bodies.

243 spectrum, which we demonstrate by measuring white light polarization profiles.

244 pared to a previously completed 6.7 h bright white light PRC and a <15 lux dim background light PRC c

245 480 nm) light and compare it to a 10,000 lux white light PRC constructed previously using a similar p

246 mately 75% of the response of the 10,000 lux white light PRC.

247 ining tunable narrowband pump with broadband white-light probe pulses, together with an analytical me

248 rmonic generation as well as controlling the white-light properties.

249 Biosensing through White Light Reflectance Spectroscopy (WLRS) is based on

250 advances, surgery still relies primarily on white-light reflectance and the surgeon's vision.

251 perovskites emit broadband "cold" and "warm" white light, respectively, with high color rendition.

252 such auxiliary pulses generated directly by white-light seeded OPA with the required significantly s

253 g development in darkness or high-irradiance white light show that ethylene is not limiting for devel

254 The second experiment, comparing FR with white light, shows that three genes of the four mys gene

255 The first experiment, comparing UV with white light, shows the expected upregulation of the char

256 ses, whereas only four cases were seen using white light, so imaging with the ICG pHLIP peptide offer

257 have isolated materials that emit the "warm" white light sought for many indoor lighting applications

258 an government (0.64 microM), using a halogen white light source for the stimulation of algal photosyn

259 btain photobactericidal activity, an intense white light source or UV-activation is usually required.

260 linear activity coefficients" (ELAC) for the white light source to generate calibration curves that r

261 zero-order transmission using an incoherent white light source.

262 d Bragg diffraction upon illumination with a white light source.

263 m(-2) s(-1)), compared with the conventional white light source.

264 imited imaging resolution above 100 nm for a white-light source.

265 ential applications for example as efficient white light sources and biolabels are reviewed.

266 or blue light-emitting diodes are important white light sources for our daily life.

267 ED technology not only resulted in efficient white light sources, but continues to enable a host of a

268 inuum to collect femtosecond two-dimensional white-light spectra.

269 The phosphorous diffuser diverged white-light spot covers a radiant angle up to 120(o) wit

270 cy) of white-opsin in response to repetitive white light stimulation of varying pulse width was obser

271 A series of white light stimuli of increasing intensity was used to

272 more complete tumor resection compared with white light surgery.

273 door lighting applications as well as "cold" white light that approximates the visible region of the

274 its lifestyle from a planktonic state under white light to an immobilized state under far-red light.

275 toneal injections of CA prior to exposure to white light to assess protection of the photoreceptor ce

276 ention currently relies on colonoscopy using white light to detect and remove polyps, but small and f

277 Therefore, the intensity of the reflected white light to the CCD detector increased.

278 coefficient, the intensity of the reflected white light to the charge-coupled device (CCD) detector

279 also found that individuals roosting in the white light treatment had a higher probability of malari

280 were cultivated under different conditions (white light, UVA or UVB for 12 or 24h a day at 18 or 25

281 ectly examine ultramicroelectrodes (UMEs) by white light vertical scanning interferometry (VSI).

282 d Luneburg lens (855 mm(2)) in the broadband white-light visible wavelength range using the concept o

283 e reduction, although greater penetration of white light was observed only in the PC-deficient mutant

284 on SOB3 mutants grown in moderate-intensity white light was reduced when polar auxin transport was i

285 n ultrafast sub band gap probe of 400 nm and white light, we excited transitions between these radica

286 tor (Nrf2) knockout (Nrf2(-/-)) mice to mild white light, we were able to generate a new dry-AMD like

287 ther treatments, individuals roosting in the white light were much more active at night.

288 apparent when the seedlings are grown in dim white light, were attenuated by treatment with either br

289 the cis form within minutes when exposed to white light, whereas the reverse isomerization occurs re

290 re to an uninformative visual stimulus (i.e. white light) while simultaneously echolocating significa

291 ricated prints appear as colour images under white light, while projecting up to three different holo

292 ble to demonstrate LECs that emit broad-band white light with a color rendering index of 82, a correl

293 Hypocotyls of SOB3 mutant seedlings grown in white light with a higher fluence rate also exhibited al

294 These materials emit multicolor and white light with high quantum yields (~2-14%), high colo

295 roach, we demonstrate the generation of pure white light with quantum yield of ~30%, color rendering

296 By varying the ratios of the amount of NCs, white lights with a tunable correlated-color temperature

297 Exposure of plants to white light (WL) induces a rapid (after 3-6 h of WL expo

298 dim light (DL: 8 lx), and once under either white light (WL: 250 lx, 2,800 K) or blue-enriched white

299 nsient visible absorption changes of normal, white-light (WL)-grown PSI (WL-PSI) with those of FRL-PS

300 Here we employ white-light X-ray Laue diffraction on a nanosecond times