ライフサイエンスコーパス: lighting

1 t harvesting and offering comfortable indoor lighting.

2 Only 27.9% of graded rooms had adequate lighting.

3 ation of large area displays and solid-state lighting.

4 visual comfort was best in the self-selected lighting.

5 temperature probing and light-emitting-diode lighting.

6 in thermophotovoltaic energy conversion and lighting.

7 ss of Li-Fi feature and the quality of white-lighting.

8 ct of scenarios for future changes to street lighting.

9 dots can be efficient w-LEDs for solid state lighting.

10 ined to laboratory settings under artificial lighting.

11 process that can be disrupted by artificial lighting.

12 ; voice calling, music playing and LED strip lighting.

13 hat range from tissue imaging to solid-state lighting.

14 l (biomass) or coal for cooking, heating, or lighting.

15 e is turned to productive time by artificial lighting.

16 been utilized as energy-efficient sources of lighting.

17 raphy and to undertake a case study of urban lighting.

18 but not in the retina of mice kept under dim lighting.

19 , with differences mainly owing to poor home lighting.

20 chnologies for both high quality display and lighting.

21 htness and efficiency sufficient for general lighting.

22 , four of which were exposed to high ambient lighting.

23 ontrast sensitivity (CS), CS with glare, and lighting.

24 down-conversion nanomaterial in solid-state lighting.

25 , space- and water-heating, and kerosene for lighting.

26 nerability to circadian disruption by modern lighting.

27 y breastfeeding mothers living with electric lighting.

28 ns including sensing, energy harvesting, and lighting.

29 rity of the visible portion for natural room lighting.

30 ient for their practical use in displays and lighting.

31 lighting, peripheral vision, and general dim lighting.

32 nd 5): general recommendation (1 guideline), lighting (5), background color (3), field of view (3), i

33 nd 5): general recommendation (1 guideline), lighting (5), background color (3), field of view (3), i

34 by its use as a flexible conductive wire for lighting a LED and a cathode in a fiber-shaped dye-sensi

35 lds to model the landscape resistance due to lighting across an entire city and explored the potentia

36 Expansion of anthropogenic noise and night lighting across our planet(1,2) is of increasing conserv

37 t everyone in the modern world uses electric lighting after the sun sets.

38 ments, as well as, to re-test the effects of lighting and angle-of-incidence variation on anterior ch

39 hese constraints by the spread of artificial lighting and anthropogenic climate change, and the poten

40 tum efficiencies are around 40% for blue for lighting and blue for display LED materials, and it is a

41 ected light intensity signals under variable lighting and channel conditions.

42 % and 34% of total PM2.5 emissions (combined lighting and cooking).

43 terial not only for solar cells but also for lighting and display applications.

44 Emerging applications such as solid-state lighting and display technologies require micro-scale ve

45 ting diodes (OLEDs) promise highly efficient lighting and display technologies.

46 QDs) is a cornerstone of modern high-quality lighting and display technologies.

47 offer the possibility of developing low-cost lighting and displays.

48 large-scale applications such as solid-state lighting and displays.

49 .3%), performing in-home activities (15.1%), lighting and glare (11.7%), and facial recognition and s

50 ow combining energy generation, natural room lighting and heat load reduction could mitigate urban he

51 or alternative, RE-free phosphors in general lighting and illumination.

52 ts in other applications such as solid-state lighting and illumination.

53 inician-patient discussions to optimize home lighting and improve the vision of older adults in their

54 The current evidence base emphasizes that lighting and melatoninergic interventions deserve to be

55 Using polychromatic lighting and mice with altered cone spectral sensitivity

56 these areas through the strategic dimming of lighting and narrowing of gaps.

57 verfeeding, underactivity, aging, artificial lighting and novel foodstuffs and drugs.

58 tunable light emitters for low-cost display, lighting and optical communication applications.

59 low-carbon technologies such as solid state lighting and photovoltaics, and being produced only as a

60 ameworks (LMOFs) are promising materials for lighting and sensing applications.

61 gy applications of off-grid and battery-free lighting and sensing.

62 rating applications ranging from solid-state lighting and single-photon sources to thermoelectric dev

63 isticated inferences about the properties of lighting and surfaces, and many striking examples of 'co

64 Here we show that electrical lighting and the constructed environment is associated w

65 expanding and changing nature of night-time lighting and the immediacy, severity and phylogenetic br

66 nizes, dramatic changes are expected in city lighting and the urban form, which may threaten the func

67 urban environment the presence of artificial lighting and various social cues tend to disrupt the nat

68 OH and HO(2) under a typical range of indoor lighting and ventilation conditions.

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

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

71 properties, such as bioimaging, solid-state lighting, and luminescent solar concentrators, is also d

72 e candidate material for biological imaging, lighting, and sensing applications.

73 T, with total LLQ score, "driving," "extreme lighting," and "mobility" also including choroidal thick

74 e was evaluated using various light sources, lighting angles, imaging backgrounds, and imaging height

75 material with mouldable shape and potential lighting application for large structures combining the

76 focused for flexible display and solid-state lighting applications and so much effort has been devote

77 he "warm" white light sought for many indoor lighting applications as well as "cold" white light that

78 g and up-converting phosphors in display and lighting applications due to their high photoluminescenc

79 the potential of lasers for high-brightness lighting applications, such as automotive headlights, pr

80 es (PHOLED) is required for both display and lighting applications, yet so far has not been reported.

81 ghting technologies, and nearing a limit for lighting applications.

82 hese white-light nanocrystals in solid-state lighting applications.

83 o replace organic lead halide perovskites in lighting applications.

84 e-material sources are ideal for sustainable lighting applications.

85 Technological developments in municipal lighting are altering the spectral characteristics of ar

86 ple suggestions for artificial/architectural lighting are provided for regulatory authorities, lighti

87 However, the effects of lighting arrangement and background contrast were only s

88 The effects of lighting arrangement and target-background contrast were

89 iewing distance, target-background contrast, lighting arrangement, and subject locomotion were invest

90 unlight and increased exposure to electrical lighting at night leads to late circadian and sleep timi

91 of circadian rhythms, provoked by artificial lighting at night, inconsistent sleep-wake schedules, an

92 To conclude, self-selection of lighting at work might positively influence biological a

93 Images showing appropriate lighting, background color, field of view, image orienta

94 andards, including environmental conditions (lighting, background, and camera position), patient pose

95 ctrum communication, superbright solid-state lighting, biomedical studies, fluorescence, etc.

96 dator was affected by exposure to night-time lighting both in the presence and absence of olfactory p

97 ompared to other GHG abatement technologies: lighting, building insulation, electricity generation, a

98 er chart at a distance of 4 m under standard lighting by trained and certified study optometrists.

99 Experts still debate how lighting can best enable high-quality vision-a key issue

100 hift work, travel, and ubiquitous artificial lighting can disrupt natural circadian rhythms; as a res

101 onse and excellent stability of the flexible lighting can find applications in a range of emerging ap

102 owing to head and eye movements, occlusion, lighting changes, and many other factors.

103 Supplemental lighting colours did not affect lettuce growth; however

104 Those predictions suggest that ambient lighting commonly found in North American homes will not

105 ence rate) of 5-7 muW/cm(2), calculated by a lighting computer-assisted design program modified for U

106 The self-selected lighting condition was compared with constant bright lig

107 Linear regression showed that both age and lighting condition were significant predictors of perfor

108 elf-selected and the bright, but not the dim lighting condition, the onset of melatonin secretion in

109 w), and this was crossed with differences in lighting conditions (permanent darkness vs. 12:12 h ligh

110 When tuned to specific lighting conditions and body orientation with respect to

111 ted and non-calibrated cameras, in different lighting conditions and optical magnifications.

112 his approach can occasionally mislead if the lighting conditions are different from natural.

113 remia magnitude was not altered by different lighting conditions at occlusion durations of 15 and 60

114 kground, types of administered compounds and lighting conditions but retinal health was not compromis

115 rovide the first demonstration that abnormal lighting conditions can give rise to temporal desynchron

116 had been acclimated to night-time white LED lighting conditions for 16 days and individuals that had

117 Modern environmental lighting conditions have led to excessive exposure to li

118 to enhance object recognition across varied lighting conditions in natural vision-although this is a

119 e provide a unique demonstration that, under lighting conditions in which the central clock in the SC

120 However, how changes in environmental lighting conditions lead to the fluctuations in mood is

121 AS-OCT parameters in normal individuals, but lighting conditions need to be strictly controlled since

122 ation was not affected by different cameras, lighting conditions or optical magnifications, demonstra

123 cle is that most rodent models have employed lighting conditions that cause cognitive deficits rather

124 Here, we demonstrated that lighting conditions used in the prior budgerigar study-a

125 , rods/M-cones/melanopsin under intermediate lighting conditions, and cones and melanopsin under brig

126 trength is dependent on the time of day, the lighting conditions, and the mouse strain.

127 ge due to variable environmental, paper, and lighting conditions, especially across large multi-targe

128 hotoreceptor systems to DACs under different lighting conditions, furthering our understanding of the

129 h responses to be mediated by rods under dim lighting conditions, rods/M-cones/melanopsin under inter

130 by angle-specific Mie scatter under ambient lighting conditions, utilizing a smartphone camera as a

131 s were lower in older participants under all lighting conditions.

132 tina is regulated by the time of day and the lighting conditions.

133 tensities in order to mimic realistic indoor lighting conditions.

134 ding our visual world across a wide range of lighting conditions.

135 to optimize vision at specific vergences or lighting conditions.

136 eeks while hamsters remained in experimental lighting conditions.

137 larval zebrafish challenged with changes in lighting conditions.

138 -wake cycles and were independent of ambient lighting conditions.

139 cm(-3) depending on the cleaning method and lighting conditions.

140 It works well in many, but not all, lighting conditions.

141 function of fluorescent patterns in natural lighting conditions.

142 ing novel display technology under different lighting conditions.

143 tions, and cones and melanopsin under bright lighting conditions.

144 All experimental groups were exposed to 3 lighting conditions: dark, ambient room light for 30 min

145 The basal lighting, consisting of blue 455 nm, red 627 and 660 nm

146 With these magnitudes of reduction, far-UVC lighting could be employed to mitigate SARS-CoV-2 transm

147 locks sense and respond to daily feeding and lighting cues, adjusting internal ~24 h rhythms to reson

148 olecular circadian clock can be entrained by lighting cycles in vitro, but that rods, cones, and mela

149 sure to resonant or nonresonant 24-h or 20-h lighting cycles.

150 planning and governance has been the lack of lighting data at the city extent, particularly at a fine

151 We present the finest scale multi-spectral lighting dataset available for an entire city and explor

152 Electric lighting delayed sleep onset and reduced sleep duration

153 Lighting devices are used to prevent organic injuries.

154 lectrically tunable, broadband near infrared lighting devices operating at room temperature.

155 e commercialization of efficient solid-state lighting devices.

156 as alternative phosphors for use in general lighting devices.

157 aviolet light-emitting diodes in solid-state lighting devices.

158 nst form-deprivation myopia, high artificial lighting did not alter the course of compensation to imp

159 mpactness and integrability is important for lighting, display, optical interconnect, logic and senso

160 We studied whether self-selected office lighting during the habitual waking period had a differe

161 for particle formation to occur with indoor lighting during the use of common cleaning products.

162 importance because the demand for high-power lighting-emitting diodes (LEDs) is currently increasing.

163 ieve reproducible results without a separate lighting enclosure.

164 al countershading pattern is dictated by the lighting environment, which is in turn dependent upon ha

165 k cycle as compared to the modern electrical lighting environment.

166 mportant new insight to inform the design of lighting environments that benefit health.

167 of the animal's abdomen, imaged in different lighting environments.

168 and OC emissions were measured from kerosene lighting events (EF(EC) = 25.1 g/kg-fuel SD = 25.7, EF(O

169 Dogwhelks acclimated to night-time lighting exhibited natural refuge-seeking behaviour less

170 predict the spatial and temporal dynamics of lighting for a rendered mature Glycine max (soybean) can

171 antum-dot (QD) composite used in solid-state lighting for homes.

172 omotive headlights, projection technology or lighting for large spaces.

173 areas which were illuminated continuously by lighting from a large petrochemical complex invariably e

174 Supplementary lighting from blue 455/470 nm and green 505/530 nm LEDs

175 o-workers report highly efficient, broadband lighting from printed hybrid nanocarbon structures with

176 , consistent with an inference that indirect lighting from the sky and in shadows tends to be bluish.

177 inary colour change according to the ambient lighting, from emerald green in daylight to ruby red in

178 important applications, such as solid-state lighting, full-colour displays, visible colour communica

179 uPAD surface inconsistencies and cross-image lighting gradients.

180 ultiple quantum wells (MQWs) for display and lighting), green (i.e., InGaN/GaN MQWs for display), and

181 to the protective effects that high ambient lighting has against form-deprivation myopia, high artif

182 Yet how much the age of electrical lighting has altered the human circadian clock is unknow

183 new study demonstrates that modern electric lighting has caused the near-24-hour biological clock to

184 Changes in urban lighting have both positive and negative effects on city

185 dies of windowed rooms and real-time ambient lighting have found that physiologic light-dark patterns

186 Before the invention of electric lighting, humans were primarily exposed to intense (>300

187 Lanthanides are vital components in lighting, imaging technologies and future quantum memory

188 rn society is exposed to artificial electric lighting in addition to the natural light-dark cycle.

189 as 4.3 times and 2.8 times lower than clinic lighting in areas tested for DVA and NVA, respectively.

190 ttle is known about the ecological impact of lighting in different urban contexts.

191 ividuals in industrialized nations; electric lighting in homes, work environments, and public areas h

192 the other 12 lens-reared monkeys, auxiliary lighting increased the illuminance to 25,000 lux for 6 h

193 nd positive relationships between artificial lighting indicators and built density at coarse spatial

194 cantly disrupt both the power generation and lighting industries are outlined.

195 sults demonstrate that artificial night-time lighting influences the behaviour of intertidal fauna su

196 s well as conservation implications for such lighting installations.

197 t these individual differences and potential lighting interpretations also depend on the special ambi

198 As part of a lighting intervention study, 18 hospital Labor and Deliv

199 We find that for a simple building lighting intervention, using average emissions factors i

200 cortical Abeta loads in AD through tailored lighting interventions.

201 Artificial lighting is strongly associated with urbanisation and is

202 quality of currently available horticultural lighting is suboptimal, and therefore less than ideal fo

203 d in photovoltaics, displays and solid-state lighting is the ideal combination of high optical transp

204 natural light-dark cycle [1], and electrical lighting is thought to have disrupted these rhythms.

205 high-power and high-temperature solid-state lighting, lasing, and display devices that have been lim

206 ectronic applications, including solid-state lighting, lasing, and displays.

207 to be strictly controlled since variation in lighting led to significant variability in AS-OCT parame

208 tree cover varied with crossing distance and lighting level, through stratified field surveys.

209 ty, CS, and VA were not associated with home lighting levels (P > 0.18 for all), but brighter room li

210 g 3 smartphone cameras{Bq, Iphone, Nexus}, 2 lighting levels{high 815 lx, low 122 lx} and 2 magnifica

211 These responses suggest night-time lighting likely increased the energetic demand of dogwhe

212 s identified in at least 1 room were ambient lighting <300 lux and exposed light bulbs.

213 ing are provided for regulatory authorities, lighting manufacturers, designers, and engineers.

214 tant habitat structures and (ii) that public lighting may affect moth movement between patches.

215 t this is the first study to demonstrate how lighting may create resistance to species movement throu

216 us the color temperature of normal intensity lighting may have differential effects on circadian phys

217 rt and clinical testing may be owing to home lighting may initiate clinician-patient discussions to o

218 Coastal lighting may shape intertidal communities through its in

219 verting the ecological impacts of night-time lighting may ultimately require avoiding its use altoget

220 available for an entire city and explore how lighting metrics vary with built density and land-use.

221 Consequently, public lighting might divide a suitable landscape into many sma

222 The fabrication of the lighting module incorporates assembly and electrical con

223 A millimeter thin rubber-like solid-state lighting module is reported.

224 A system of five high-power, solid-state lighting modules with standard 447-, 638-, 665-, and 731

225 ites, we found significant effects of street lighting: moth abundance at ground level was halved at l

226 , it is reasonable to assume (i) that public lighting near hedges and bushes or field margins reduces

227 cly available data once the evolution of the Lighting Network will have reached a stationary operable

228 The presence of street lighting (odds ratio [OR], 0.24; 95% CI, 0.09-0.70), ill

229 te the energy harvesting behavior of FO-TEG, lighting of an array of LEDs is demonstrated using artif

230 imbus, 6 o'clock position (IC270), with room lighting 'OFF', showed a significant decrease (p < 0.05)

231 (red, green, blue), white cold, white warm) lighting on characteristics of kale sprouts.

232 We explored the impact of lighting on gap crossing for Pipistrellus pipistrellus,

233 elected types of LED (light emitting diodes) lighting on the quality of alfalfa sprouts.

234 eter-controlled conditions with ambient room lighting 'ON' and lights 'OFF', and at 5 degrees angle o

235 ificant decrease (p < 0.05) compared to room lighting 'ON'.

236 of earplugs, eye masks, noise reduction, and lighting optimization for sleep promotion was uncommon.

237 by whether the dress appears to be in direct lighting or shade (for example [5]).

238 ht mission operations (schedule-shifting and lighting) or hardware (extravehicular activity suits and

239 n in front of another vehicle, and in street lighting-other drivers can better avoid hitting them, di

240 advent and wide-spread adoption of electric lighting over the past century has profoundly affected t

241 f the LLQ subscales "difficulty with extreme lighting" (P = .0024), ''difficulty with low lighting" (

242 lighting" (P = .0024), ''difficulty with low lighting" (P = .037), and "diminished mobility"; (P = .0

243 application, the production of a solid-state lighting panel is discussed, involving a novel approach

244 commercial OLEDs that are currently used for lighting panels, televisions and mobile displays.

245 ur findings provide evidence that artificial lighting patterns may influence wildlife behavior at a b

246 iving, emotional distress, mobility, extreme lighting, peripheral vision, and general dim lighting.

247 d during high power stove operation, and the lighting phase of a cooking event contributed 45% and 34

248 , and their suitability as energy-saving LED lighting phosphors is assessed.

249 iving moth declines, and suggest that street lighting potentially impacts upon pollination by nocturn

250 ecovery process was not affected by the high lighting regimen.

251 ntly, TRF was effective even in an irregular lighting schedule mimicking shiftwork.

252 Prolonged subjection to unstable work or lighting schedules, particularly in rotating shift-worke

253 try, as well as for possible applications in lighting, sensing, and catalysis.

254 ons including energy conversion, solid-state lighting, sensing, and information technology are underg

255 Simulations with rendered physical lighting show that higher values in an object's luminanc

256 ications in solar concentrators, solid-state lighting, single-photon devices, optical computing, and

257 ld provide optimal visibility in any ambient lighting situation, materials available that exhibit suc

258 Integration of nanostructure lighting source arrays with well-defined emission wavele

259 (LEDs) are gradually replacing conventional lighting sources due to their advantages in energy savin

260 locks for highly efficient broadband visible lighting sources.

261 y we explore the effects of multi-colour LED lighting spectrum on nutritive primary metabolites in gr

262 s that approach requirements for solid-state lighting (SSL).

263 year field experiment in which each of these lighting strategies was simulated in a previously artifi

264 energy and cost due to the use of artificial lighting such as high-pressure sodium lamps, fluorescent

265 ed, despite the fact that day and night-time lighting systems differed only in spectra, but not in in

266 However, state-of-the-art laser diode-based lighting systems rely on light-converting inorganic phos

267 f the capabilities, including thin, flexible lighting "tapes" based on patterned phosphors and large

268 ironmental consequences of using alternative lighting technologies are increasingly well established.

269 ) are rapidly replacing conventional outdoor lighting technologies around the world.

270 ies ( approximately 40%) surpassing existing lighting technologies, and nearing a limit for lighting

271 ost rapidly evolving branches of solid-state lighting technologies, light emitting diodes (LEDs) are

272 for next-generation displays and solid-state lighting technologies.

273 0 cd m(-2), comparable to the most efficient lighting technologies.

274 nlock the advantages of this next generation lighting technology for highly energy-efficient horticul

275 asks were better in bright and self-selected lighting than in dim light for both chronotypes, whereas

276 Ambient occlusion is an aspect of global lighting that offers great visual benefits and powerful

277 This could be relevant for developing lighting that reduces the disruptive effects of nocturna

278 Under a scenario for brighter street lighting, the area of accessible land cover was further

279 ts of globally widespread outdoor night-time lighting through spectral manipulation, dimming and swit

280 t the need for outdoor artificial night-time lighting to be limited to the places and forms-such as t

281 l transmissions, the use of low dose far-UVC lighting to disinfect in-room air has been proposed.

282 erging energy technologies, from solid-state lighting to efficient photovoltaics that have transforme

283 broaden their focus from residential street lighting to include security lighting within manufacturi

284 Besides, its collected power is capable of lighting up a warning indicator, sustainably charging a

285 the NPs exhibit a charge/discharge behavior, lighting up and fading away for an average period of 15

286 y making practical changes such as adjusting lighting, using handrails and magnifying glasses, or act

287 measurements between morning and afternoon, lighting variations, and angle of incidence were compare

288 arse spatial scales, whilst at a local level lighting varied with land-use.

289 Median home lighting was 4.3 times and 2.8 times lower than clinic l

290 Home lighting was below that recommended in 85% or greater of

291 levels (P > 0.18 for all), but brighter room lighting was noted in the homes of participants with hig

292 Lighting was the most significant factor associated with

293 ngly, whelks not acclimated under night-time lighting were more likely to respond to the presence of

294 ehavioural responses to night-time white LED lighting were performed on individuals that had been acc

295 ow code violation, public health, and street lighting were the top three accurate predictors with pre

296 ing difficulties and difficulties related to lighting, whereas women were more likely to report diffi

297 conclude that the growing use of night-time lighting will continue to raise numerous ecological, hum

298 of supplementary light-emitting diode (LED) lighting within a greenhouse for cultivation of red, gre

299 idential street lighting to include security lighting within manufacturing areas.

300 sual objects independently of view angle and lighting, words independently of volume and pitch, and s