ライフサイエンスコーパス: illumination

1 e-sensitized TiO2 surface upon visible light illumination.

2 y using methanol fixation and inclined laser illumination.

3 ed light intensity under monochromatic light illumination.

4 es (less than 1 in 100,000) under full solar illumination.

5 acutely prepared mouse brain slices using 2P illumination.

6 ate and translocates fully into the NTD upon illumination.

7 r conversion efficiency of 3.7% under 1.5 AM illumination.

8 for the detection of hydrogen upon localized illumination.

9 cence was then imaged using low intensity UV illumination.

10 bright voltage sensing using two-photon (2P) illumination.

11 autiful blue fluorescence under ultra-violet illumination.

12 ion migration with electric fields and light illumination.

13 -to-current efficiency of 31.8% under 450-nm illumination.

14 l sample mounting and integrated directional illumination.

15 ue wettability change upon ultraviolet light illumination.

16 rainbow photocathodes under white LED light illumination.

17 ht generation under femtosecond pulsed laser illumination.

18 ensitivity of RVF5 is recapitulated under 2P illumination.

19 es that are formed by the photosystem during illumination.

20 y photosensitive retinal ganglion cells upon illumination.

21 10 mA/cm(2) with a modest bias under one sun illumination.

22 electrode material to I(-) ions, or by light illumination.

23 l manipulation of liquid droplet motion upon illumination.

24 y can be achieved only at concentrated solar illumination.

25 dly, locally, and reversibly upon blue light illumination.

26 low sensitivity when imaged under two-photon illumination.

27 e organic Y123 dye under 1000 W m(-2) AM1.5G illumination.

28 illumination techniques such as stroboscopic illumination.

29 over a long time (~30 min) under continuous illumination.

30 uniform gray model in direct versus diffuse illumination.

31 ion and requires less power than distributed illumination.

32 oduce reactive oxygen species (ROS) under UV illumination.

33 and in the absence of neutralizing bases or illumination.

34 ectron-hole pair at open circuit under solar illumination.

35 ansfer from MoS2 to epitaxial graphene under illumination.

36 periodicities, parallel to the direction of illumination.

37 igrations of zooplankton are driven by lunar illumination.

38 rically tunable lens and focused reflectance illumination.

39 f the major facilitator superfamily requires illumination.

40 anoscale thickness are rearranged by optical illumination.

41 ging LOTUS-V does not require external light illumination.

42 zed by the naked eye under ultraviolet light illumination.

43 rate of H2 production was maintained during illumination.

44 on and a significant drop at 12 minutes post-illumination.

45 case of PTIR with total internal reflection illumination.

46 ide and methane are equally produced without illumination.

47 ment of curvilinear velocity under red light illumination.

48 t CB1 agonists that change their effect upon illumination.

49 ight-sensitive LOV2 domain that expands upon illumination.

50 chloride incubation and subsequent red light illumination.

51 e perovskites undergo phase separation under illumination.

52 ial performance after 1000 hours of full-Sun illumination.

53 equires grayscale Fourier basis patterns for illumination.

54 5 nm), which is accumulated under continuous illumination.

55 solar steam efficiency of 85.6% under 1 sun illumination (1 kW m(-2) ), which is among the best comp

56 tors [3,4] that hyperpolarize in response to illumination [5].

57 n causes water splitting under visible light illumination (532 nm).

58 ignificant pump activity under near-infrared illumination (730 nm light-emitting diode).

59 weight) was followed by using near-infrared illumination (753 nm for 20 minutes) through optical fib

60 Under 0.82-sun illumination (825 W/m(2)), a GO leaf floating on water g

61 Under 1-sun illumination, Ag nanoparticle electrodes achieved high p

62 Illumination alone (i.e., with no opsin expression) and

63 alized photothermal heating induced by solar illumination alone drives the distillation process, enti

64 Illumination also helps to reduce defects in the ZnSe ep

65 We find that UV illumination alters the mixture of chemical bonds at the

66 In addition to optical illumination, an efficient way to generate hot carriers

67 uantitative analysis of SPR under plane-wave illumination and a finite-difference time-domain (FDTD)

68 e-pixel camera using short-pulsed structured illumination and a high-speed photodiode, and is capable

69 velength-dependent enhanced dark-field (EDF) illumination and a least-cubic algorithm.

70 Under 325 nm 2.30 mW cm(-2) UV illumination and at a -0.45% compressive strain, the PD'

71 pite continuous and rapid changes in ambient illumination and background color?

72 ype semiconductor that is photoactive during illumination and becomes inactive in the dark.

73 nd D1 receptor blockade following maintained illumination and D1 receptor activation result in minima

74 Angled illumination and detection configurations can improve bo

75 ve opsins into tissue and subsequent optical illumination and electrical recording from the regions o

76 by 4% after 600 h under continuous full-sun illumination and maximum power point tracking, respectiv

77 nd the ability of OLEDs to provide patterned illumination and spectral tuning can further broaden the

78 ate several strategies to spatially restrict illumination and thus gene induction with our new TAEL (

79 ause the challenges associated with catalyst illumination and turnover outweigh the touted advantages

80 of up to 38 V W(-1), referenced to incident illumination, and bandwidth of nearly 3 kHz.

81 eflects by counterbalancing shadowing due to illumination, and has therefore classically been thought

82 These novel imaging methods require coherent illumination, and it is therefore important to both char

83 ched to Au-electrodes, in the dark and under illumination, and show a significant and reversible chan

84 The illumination angle of spatially incoherent diffuse laser

85 patial coherence over 43% by controlling the illumination angle, scatterer's size, and the rotational

86 focal plane to allow dynamic control of the illumination angle.

87 power conversion efficiencies under AM 1.5G illumination are nearly double those of previously repor

88 Rods, active under dim illumination, are thought to saturate at higher (photopi

89 emonstrate that photoconductance at resonant illumination arises due to the Coulomb interaction betwe

90 2D projection plane, (ii) correcting uneven illumination artifacts, (iii) stitching the mosaic plane

91 V are induced under 100 W/m(2) monochromatic illumination, as a result of a 11 mK increases in the st

92 ivity is tuned to short-wavelength UV light; illumination at 400 nm initiates motor activity over a b

93 data for a composite of persistent nighttime illumination at approximately 1 km(2) scale for each res

94 tovoltaic (PV) energy delivery using optical illumination at near infrared (NIR) wavelengths, to whic

95 hat are similar in performance to sequential illumination at three wavelengths, and therefore improve

96 evaporated Au back contact, under full 1 sun illumination, at 60 degrees C, and in a N2 atmosphere.

97 Using super-resolution structured illumination, atomic force, and confocal microscopies, t

98 Janus particle oriented with respect to the illumination axis and the second being a sphere made of

99 By staggering high aspect ratio illumination beams laterally and axially within the dept

100 onversion not only by the traditional 400-nm illumination but also by an alternative method termed pr

101 rate of the Ta3N5 nanoparticles alone under illumination by white light, and continued to exhibit su

102 nd demonstrate that plants grown under laser illumination can complete a full growth cycle from seed

103 Changes in illumination can rapidly influence behavior that is norm

104 g plasmonic nanomaterials in such a way that illumination can selectively enhance desired chemical pa

105 3 films, driven by electric fields and light illumination, can induce pronounced resistive switching

106 e as a safety valve from excess electrons on illumination changes.

107 For an illumination condition equivalent to 1% of full sunlight

108 t previous comparable devices under standard illumination conditions.

109 ent cameras, camera platforms and in varying illumination conditions.

110 f light-sensitive ion channel properties and illumination configurations would be effective.

111 smic reticulum show that coherent structured illumination (csi) LSFM performs with physiologically re

112 cells undergoing high Ca(2+) flux during an illumination-defined time period.

113 otransduction pathway in the skin translates illumination differences and generates retinoic acid gra

114 istor at a rate of 1.8 frames/s by using epi-illumination diffraction phase microscopy (epi-DPM).

115 The increased illumination diversity introduced using multiple measure

116 owards contacting liquids upon visible light illumination due to a photo-induced voltage across the l

117 These results suggest that moderate UV illumination during growth may be used as a way to impro

118 stem, we explore the use of ultraviolet (UV) illumination during heterovalent interface growth by mol

119 ed by local light-emitting diode (LED)-based illumination, either of the thalamus or the peripheral t

120 During root illumination, flavonols rapidly accumulate at the side c

121 motion-cancellation system with differential illumination focal filtering, a variant of HiLo microsco

122 fluorescence microscopy under high power LED illumination, followed by serial image section deconvolu

123 0% gain in state of charge (SOC) under AM1.5 illumination for ca. 1.7 hours without any external bias

124 t ventrum counteract the gradient created by illumination from above, obliterating cues to 3D shape [

125 At room temperature, and under illumination from an (55)Fe radioisotope X-ray source, X

126 ssing to ever-changing conditions of ambient illumination, from bright sunlight to single-photon coun

127 arrier dynamics and does not require special illumination geometries.

128 ing from surface reflectance changes or from illumination gradients such as shading or shadows.

129 Electron beam illumination greatly increases the local concentration o

130 such small cells can sense the direction of illumination has remained puzzling.

131 typically based on total internal reflection illumination, has taken our understanding of protein org

132 ickness, lateral dimensions or visible light illumination, have been investigated in detail.

133 ected water absorption features within a low-illumination, highly reflective zone in Oxo, a 10-kilome

134 combination with simultaneous complementary illumination in a single-pixel camera.

135 rn-in" efficiency over 3400 h under full sun illumination in ambient conditions.

136 protrusion, retraction and ruffling by local illumination in both COS7 cells and in primary neurons.

137 ber optic system that can perform structured illumination in real time for optical sectioning without

138 e marine environments that are without solar illumination in winter, light-mediated patterns of biolo

139 oconductance, the change in conductance upon illumination, in symmetric single-molecule junctions.

140 ilver orthophosphate microparticles under UV illumination, in the presence of varying concentrations

141 TiO2 can reduce the stability of PSCs under illumination (including ultraviolet light).

142 greatly enhance the PD's response to 442 nm illumination, including photocurrent, rise time, and fal

143 visual function under conditions of limited illumination, including the processing of signals evoked

144 In spinal cords expressing ChR2, illumination increased motoneuron discharge and transien

145 Illumination induces reductions in LD abundance, and thi

146 ces with a pin OLED architecture, sufficient illumination intensity (0.3 mW.mm(-2)) to activate chann

147 resolution on acquisition parameters such as illumination intensity and time per frame, demonstrating

148 stability of the device in ambient air under illumination is also improved.

149 s are synthesized and it is found that local illumination is capable of moving selected pens by more

150 by the side that typically faces the highest illumination is darker.

151 ifold across which contrast is optimized and illumination is even.

152 ound is strongest when ambient or background illumination is most intense, e.g., at midday, and that

153 The fastest response to excess illumination is the so-called non-photochemical quenchin

154 fficiency solar steam generation under 1 sun illumination is used.

155 e the maximum power generation according its illumination level without affecting the others, and the

156 ng the darkest part of the polar night, when illumination levels are exceptionally low [2, 3].

157 of orange-red light, but their dependence on illumination limits their sensitivity as reporters in de

158 er-resolution, such as those obtained in low-illumination live-cell imaging with GFP, we show that SR

159 f the clock protein Timeless (Tim), constant illumination (LL) leads to a breakdown of molecular and

160 During illumination, loss of PLD resulted in an enhanced reduct

161 Firstly, exposure to dim nocturnal illumination (<0.1 lux), rather than completely dark nig

162 uorescent dye, which under ultra violet (UV) illumination makes the fingermarks visible and thus acce

163 In conclusion, during prolonged illumination, melanopsin regeneration depends partly on

164 le, the type of host molecule, and the laser illumination method (continuous wave or pulsed laser), i

165 Here, we present differential structured illumination microendoscopy (DSIMe), a fiber optic syste

166 brain using a custom Bessel beam structured illumination microscope (BB-SIM).

167 kidney through the use of a selective plane illumination microscope (SPIM).

168 Super-resolution structured illumination microscopic analyses revealed that in paras

169 3D structured illumination microscopy (3D-SIM) is the super-resolution

170 time-lapse and three-dimensional structured illumination microscopy (3D-SIM) to study the recruitmen

171 fluorescence, confocal or instant structured illumination microscopy (iSIM, a super-resolution imagin

172 introduce microenvironmental selective plane illumination microscopy (meSPIM) for imaging and quantif

173 Linear 2D- or 3D-structured illumination microscopy (SIM or3D-SIM, respectively) ena

174 nstruction Microscopy (STORM) and Structured Illumination Microscopy (SIM) have increased the achieva

175 Structured illumination microscopy (SIM) is attractive for superres

176 Here we show, using structured illumination microscopy (SIM), ground-state depletion (G

177 Super-resolution methods such as Structured Illumination Microscopy (SIM), STimulated Emission Deple

178 ugh the use of optical sectioning structured illumination microscopy (SIM), we have captured high-res

179 scence-based imaging technique of structured illumination microscopy (SIM).

180 ys as shown by live cell TIRF and structured illumination microscopy (SIM).

181 hree-dimensional data acquired by structured illumination microscopy (SIM).

182 struction microscopy (dSTORM) and structured illumination microscopy (SIM).

183 images with light sheets by selective plane illumination microscopy (SPIM) for rapid scanning and de

184 Super-resolved structured illumination microscopy (SR-SIM) is among the most rapid

185 Using superresolution structured illumination microscopy and the DUO-Link technique, we f

186 ging of centromeric CO-FISH using structured illumination microscopy implied that CENP-A protects alp

187 Using superresolution structured illumination microscopy in conjunction with both pharmac

188 Three-dimensional structured illumination microscopy indicated that within the CR, ac

189 microscopy and three-dimensional structured illumination microscopy of Synechocystis sp PCC 6803 cel

190 pplying this labeling approach to structured illumination microscopy resulted in an increase in resol

191 Lattice light-sheet and structured illumination microscopy reveal a proximal leading proces

192 Structured illumination microscopy reveals that F-actin is reorgani

193 We improve multiphoton structured illumination microscopy using a nonlinear guide star to

194 Here, we use superresolution structured illumination microscopy with single-particle averaging t

195 plementations of super-resolution structured illumination microscopy, fairSIM takes away the hurdle o

196 Experiments combining structured-illumination microscopy, gradient centrifugation, and pr

197 Despite the progress made in selective plane illumination microscopy, high-resolution 3D live imaging

198 ocol to render it compatible with structured illumination microscopy, we can examine the 3D organizat

199 Using GCaMP and selective plane illumination microscopy, we find strong responses to aud

200 ection fluorescence microscopy and structure illumination microscopy, we show that cortical actin con

201 nd tryptase was analyzed by using structured illumination microscopy.

202 as a reagent for super-resolution structured illumination microscopy.

203 zed by confocal microscopy and by structured illumination microscopy.

204 were followed using 3-dimensional-structured illumination microscopy.

205 Upon the illumination of a linearly polarized light beam, the opt

206 We demonstrate that illumination of a polymer thin film leads to reliable, r

207 The illumination of a QW biochip with the above bandgap radi

208 ies, apoptosis was induced by infrared laser illumination of A1.

209 tage, and current was tested with a standard illumination of air-mass 1.5 global (AM 1.5 G) having an

210 Illumination of cells expressing this mutant protein led

211 like peptide-1 and its metabolites following illumination of cells with blue light.

212 on enabled by 2P holographic amplified laser illumination of Chronos, a highly light-sensitive and fa

213 Violet light illumination of JF-NP-26 induces a photochemical reactio

214 llow intracellular manipulation of Ca(++) by illumination of light-absorbing probe molecules such as

215 t and could in principle enable simultaneous illumination of many neurons in a network, with the requ

216 blue light never successfully terminated VF, illumination of red light-sensitive ion channels with de

217 We populated the states through femtosecond illumination of rsEGFP2 in its non-fluorescent off state

218 rodes, Nopt = 64, 128, 256) and (2) targeted illumination of the critical isthmus, which was identifi

219 We compared two strategies: (1) distributed illumination of the endocardium by multi-optrode grids (

220 The illumination of the environment undergoes both intensity

221 ich is present already 1 mus after red light illumination of the flavin radical.

222 Illumination of the lumbar cord in mice expressing eNpHR

223 Interestingly, illumination of the Ni(IV) complex with blue LEDs result

224 Visible-light illumination of the photoacid-modified membranes resulte

225 Illumination of the plasmonic tweezer with CPL exerts a

226 Illumination of whole flies or specific tissues containi

227 widefield, confocal or TIRF microscopes with illumination orders of magnitude lower than methods such

228 By investigating the effect of illumination orientation and simulating the photocurrent

229 terminate the same AT episodes with targeted illumination, outcomes were similar for short pulses (1/

230 c tracking of the female's position, and the illumination patterns of the sound-indication devices al

231 components for photocatalysts with the post-illumination photocatalytic "memory" could be largely ex

232 Upon illumination, photosensitizer molecules produce reactive

233 Upon illumination, photothermal heating switches the absorber

234 than one order of magnitude depending on the illumination position.

235 vskites under an electric field and/or light illumination, potentially preventing these devices from

236 2 and MoS2 , reaching 10(3) A W(-1) under an illumination power density of 1.7 x 10(2) mW cm(-2) .

237 al-like cycle of temperature and ultraviolet illumination, producing more than 7 million copies in 24

238 Retinal inputs encoding changes in external illumination provide the principle source of such inform

239 phyll accumulation under a cycled light/dark illumination regime, a condition mimicking day/night cyc

240 the generation of electron-hole pairs under illumination relative to the total Cr content increases.

241 ationship to the user's eyes, field of view, illumination, resolution, color, stereopsis, effect on h

242 hermal imaging of the metamaterial during UV illumination reveals an apparent temperature increase as

243 to the alleviation of excess electrons under illumination: RTOs continue to function under light, ope

244 In mammalian cells under one-photon (1P) illumination, RVF5 demonstrates high voltage sensitivity

245 digital-micromirror-device based structured illumination scheme to both improve resolution and great

246 porally modulated and spatially patterned UV illumination source to characterize both the temporal re

247 rescent emission and coherent laser light as illumination source.

248 Environmental illumination spans many log units of intensity and is tr

249 man hearts using a strategy that targets for illumination specific regions identified in an automated

250 al tachycardia (AT), comparing two different illumination strategies: distributed vs. targeted.

251 stent mechanism to explain the negative bias illumination stress instability found in oxide semicondu

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

253 eliable approach for identifying the optimal illumination target in each individual (i.e. the critica

254 ments, this measurement may require advanced illumination techniques such as stroboscopic illuminatio

255 Here, we present a home-built side-illumination TERS setup design based on a commercial sca

256 everse water-gas shift reaction under milder illumination than in conventional thermal conditions.

257 Thus, tapered fibers permit focal or broad illumination that can be precisely and dynamically match

258 t a range of complex dynamic phenomena under illumination that remain poorly understood.

259 atively small, at the conditions of repeated illumination the overall effect is significant.

260 g the TSDP onto gold nanoshells and upon NIR illumination, the increased temperature dehybridizes the

261 nsivity can reach a maximum of 78% to 442 nm illumination, the linearity and saturation limit to 1060

262 Under illumination, the magnetic domains in [Co/Pd] produce a

263 At pH = 7 with 3 Sun illumination, the n-Si/TiO2/C/CNT/[1+1(O)] electrodes ex

264 Under continuous illumination, the protocells generate a gradient of 0.06

265 gle-particle imaging using laser light-sheet illumination: the first detection channel records elasti

266 ith the simplicity of implementation of edge-illumination, these findings suggest a high potential fo

267 Under illumination, these tubules display a nonlinear operatio

268 es possess tunable band gaps, however, under illumination they undergo phase separation.

269 ients even with unfocused, spatially uniform illumination to generate a thermoelectric voltage.

270 hannelrhodopsin) were subjected to patterned illumination to induce single, stable, and centralized r

271 chnique, our cardiac LSFM enables dual-sided illumination to rapidly uncover the architecture of muri

272 rabidopsis proteins that interact upon light illumination, to regulate transcription with light in ye

273 sts during light-to-low-intensity blue light illumination transition.

274 evel after light-to-low-intensity blue light illumination transitions, but monitor transient Ca(2+) s

275 Optimized blue-light illumination triggered the co-localization of TALE const

276 electronic properties of domain walls under illumination until now have been accessible only to macr

277 angle of spatially incoherent diffuse laser illumination was controlled with an amplitude spatial li

278 visual analog scale (VAS) during blue light illumination was not significantly different between the

279 -chip microscope operating at an ultraviolet illumination wavelength (UV) of 266 nm.

280 erent lines of the oligomer depending on the illumination wavelength relative to the Fano dip.

281 amatically less input power than distributed illumination We conclude that simulations in patient-spe

282 ter splitting experiments under steady-state illumination were conducted.

283 AT termination rates for distributed illumination were low, ranging from <5% for short pulses

284 rded with a video eye tracker under infrared illumination while fixating on a small central near targ

285 4-ethylenedioxythiophene under visible light illumination while preserving the quantum dot in the des

286 Most photocatalysts only function under illumination, while many potential applications require

287 e mutant cells are able to grow under excess illumination, while single pgrl1 are not, thanks to the

288 targeted ablation (2Phatal) that uses focal illumination with a femtosecond-pulsed laser to bleach a

289 primed conversion, employing dual wavelength illumination with blue and far-red/near-infrared light.

290 While illumination with blue light never successfully terminat

291 orylated in DeltapsaI in darkness even after illumination with far-red light.

292 d, strongly fluorescent product (resorufin); illumination with green light initiates multiple radical

293 Our analysis revealed that illumination with red light effectively terminates VT in

294 After illumination with sub-gap light, the resistance decrease

295 dyes that become reversibly fluorescent upon illumination with ultraviolet light.

296 scopic mechanical waves under constant light illumination, with a feedback loop that is driven by sel

297 duce microscale motion in response to modest illumination, with an actuation efficiency as high as 20

298 photovoltage such a cell can generate under illumination, with the aim of increasing the overall cel

299 However, the spatial extent of illumination within the brain is difficult to control an

300 Upon a drastic change in environmental illumination, zebrafish larvae display a rapid locomotor