ライフサイエンスコーパス: phosphor

1 n electron-emitting object near an ultrathin phosphor.

2 he phosphorescence decay rate of a palladium phosphor.

3 insights into the excited-state manifolds of phosphor.

4 termine the absorbed X-ray power by the nano phosphors.

5 ing ~10 times the irradiance level of remote phosphors.

6 andidates for high-temperature thermographic phosphors.

7 e yellow gap of primary light-emitting diode phosphors.

8 ew type of single-phase white-light-emitting phosphors.

9 e precursors for nanostructured red-emitting phosphors.

10 pment of bright and practical purely organic phosphors.

11 longer (>800 nm) than those of most Ir(III) phosphors.

12 hermal quenching of the studied Eu(2+)-doped phosphors.

13 and emission spectral shapes of Eu(2+)-doped phosphors.

14 s crosslinked with metal-free purely organic phosphors.

15 nce properties of copper-doped semiconductor phosphors.

16 merging tools to characterize such nanosized phosphors.

17 lecular motions in the proximity of embedded phosphors.

18 photon upconversion in rare earth activated phosphors.

19 tes for the oligomerization of (guanosine 5'-phosphor)-2-methylimidazolide (2-MeImpG).

20 activation of AI-ETD and show that modifying phosphoRS (a phosphosite localization algorithm) to incl

21 esponse to dobutamine, whereas expression of phosphor-ablated TnI alone had little effect on the acce

22 Although OLEDs incorporating organic phosphors achieve an internal charge-to-light conversion

23 nhibitor of metalloproteinase-2 (TIMP2), and phosphor-activation of anti-apoptotic p70s6 kinase, Akt

24 f-feedback caused by the reflection from the phosphor-air interface.

25 9-fold induction of phosphor-MAP kinase and phosphor-AKT, markers of cell signaling pathways related

26 tential, exciting the electroluminescence of phosphor along the motion trajectory.

27 high internal quantum yield, the new yellow phosphor also demonstrates high external quantum yield,

28 two non-nucleosidic photocleavable aminotag phosphor-amidites.

29 is dependent on the rate of diffusion of the phosphor and its molecular environment.

30 on of the frequency of collision between the phosphor and molecular oxygen and of the efficiency of e

31 flexible lighting "tapes" based on patterned phosphors and large collections of small light emitters

32 -bearing borohydrides related to solid state phosphors and magnetic refrigeration.

33 Covalent cross-linking between phosphors and polymer matrices via Diels-Alder click che

34 made with low-kilovoltage, calcium tungstate phosphors and relatively large focal spots.

35 nanocrystals (NCs) have emerged as promising phosphors and solar cell materials due to their remarkab

36 structure-property design of ambient-organic phosphors and triplet harvesting materials.

37 ermined by properties of radioisotope decay, phosphor, and digitizer.

38 lutionary methods to generate new catalysts, phosphors, and a range of other materials.

39 to transform current light-emitting devices, phosphors, and lasers.

40 -optical fluorescence efficiency of the nano phosphors annealed at 1100 degrees C was 3.2%.

41 the quantitative, luminescent up-converting phosphor anti-PGL-I test [UCP-LFA].

42 d a reverse phase protein array (RPPA) based phosphor-antibody characterization approach by taking ad

43 ree) are very rarely explored as emitters in phosphor applications, despite the emerging demand in th

44 Nitride-based phosphors are adopted in high-performance applications b

45 These new NIR persistent phosphors are all-weather materials that can be rapidly,

46 Visible-light persistent phosphors are being widely used as self-sustained night-

47 Eu(2+)-activated phosphors are being widely used in illuminations and dis

48 using this design, a series of pure organic phosphors are colour-tuned to emit blue, green, yellow a

49 These phosphors are designated Oxyphor R2 and Oxyphor G2, resp

50 The calibration constants of the phosphors are essentially independent of pH in the physi

51 Visible-light and infrared-light persistent phosphors are extensively studied and are being used as

52 Both phosphors are Generation 2 polyglutamic Pd-porphyrin-den

53 ting applications, where effective molecular phosphors are lacking at present.

54 examples of sensing materials based on these phosphors are provided.

55 Nitride phosphors are suitable for white light-emitting diode ap

56 we present our own work on nano-upconversion phosphors as an example of this new class of nanomateria

57 and found a leading significant increase of phosphor-AURKA/B/C, AURKA, AURKB, and PLK1, which fall i

58 m, magnesium, potassium, sodium, iron, zinc, phosphor, barium and sulfur were determined using induct

59 ht emitting diodes (WLEDs) are predominantly phosphor based (e.g., a yellow-emitting phosphor, such a

60 nd it is challenging to design broadband NIR phosphors based on Cr(3+)-Cr(3+) pairs.

61 The orange-red emitting phosphors based on M(2)Si(5)N(8):Eu (M = Sr, Ba) are wid

62 )S(8)I was investigated as a host to develop phosphors based on solid solutions (La(1-x)RE(x))(3)Si(2

63 -blue-emitting, bis-tridentate Ir(III) metal phosphors bearing both the dicarbene pincer ancillary su

64 Posterior photostimulable-phosphor bitewing radiographs were taken to determine ce

65 The novel phosphor boasts of such three advantageous properties as

66 ety matches, organophosphorous pesticide and phosphor bronze, and the produced N2 might be collected

67 ves to the predominantly used organometallic phosphors but are generally dimmer and are relatively ra

68 e as shown by inhibition of phosphor-JNK and phosphor-c-jun, and also decreased PS1 expression.

69 These ultraviolet-C persistent phosphors can be effectively charged by a standard 254 n

70 fer from a blue fluorophore to red and green phosphors can be modulated, using the solvent polarity a

71 hemical stability and high brightness, these phosphors can serve as reference for fluorescent indicat

72 Assessment of three Pr(3+)-activated RL phosphor candidates revealed LaPO4:Pr(3+) to have the mo

73 significantly different on 2K and 4K storage phosphor chest radiographs.

74 AD-fmk did not restore motility or levels of phosphor-cofilin, indicating that the observed effects a

75 se of most well-established color-converting phosphors commonly used for optical wireless communicati

76 A series of nitridosilicate phosphor compounds, M(2-x)Si(5)N(8):Eu(x) (M = Sr, Ba),

77 system were compared to those with a storage phosphor computed radiography (CR) system.

78 This could eliminate inefficient phosphor conversion and enable color-tunable emission or

79 y, making it a promising material for use in phosphor conversion WLEDs.

80 -dimensional photonic crystal (PhC) slab for phosphor-conversion white light emitting devices analyze

81 We find that Phosphor Converted (PC) amber LED lighting - often sugge

82 e use of these materials as red phosphors in phosphor-converted white light emitting diodes (pc-WLEDs

83 y future light trapping applications such as phosphor-converted white light generation, water-splitti

84 for backlighting display and near UV-pumped phosphor-converted white light-emitting diodes (pc-wLEDs

85 that were superior to those with the storage phosphor CR system.

86 ated liver-specific expression of SIRT1 or a phosphor-defective S164A-SIRT1 mutant promoted fatty aci

87 SCF(Slmb) interacts with a phosphor degron embedded within the human and fruitfly S

88 Typical phosphor designs feature isolated Cr(3+) ion centers, an

89 Up-converting phosphors do not photobleach and are inert to common ass

90 nt dopant, in combination with green and red phosphor dopants, to yield high power efficiency and sta

91 s reported to date have been achieved in all-phosphor-doped devices, which have the potential for 100

92 ansparent hydrogel electrodes sandwich a ZnS phosphor-doped dielectric elastomer layer, creating thin

93 is ca. two to five times higher than that of phosphor-doped polymer systems having no such covalent l

94 emitters and a (passive) normal reflector of phosphor emission.

95 xcitation with a 364 nm UV laser source, the phosphors emit through a down-conversion process over a

96 operty investigations showed that NYS:Sm(3+) phosphor emitted reddish emission with CIE coordination

97 factors, i.e. CD31, VEGF, VEGF receptor II, phosphor-ERK and HIF-1alpha.

98 by Go 6976 prevented HG-induced increases of phosphor-Erk1/2 and nitric oxide synthase (NOS1) express

99 Red or yellow phosphors excited by a blue light-emitting diode are an

100 om a Cr(3+)-doped LiGa(5)O(8) NIR persistent phosphor exhibiting a super-long NIR persistent luminesc

101 p-blue organic light-emitting diode from one phosphor exhibits Commission Internationale de l'Eclaira

102 y with improved thermal stability, make this phosphor family a promising candidate for alternative, R

103 e have developed an inorganic-organic hybrid phosphor family based on I-VII binary semiconductors.

104 Some of these phosphors feature an extremely broad and red-shifted Eu(

105 .12Cr(3+) (x = 0, 2, 4, 6, 8, 10, and 12) as phosphors featuring Cr(3+)-Cr(3+) pairs and evaluate str

106 ndidate as a reddish-emitting UV convertible phosphor for application in white light emitting diodes

107 ty renders these new materials promising red phosphors for blue-excitation white LEDs for solid-state

108 In contrast, persistent phosphors for higher-energy, solar-blind ultraviolet-C w

109 for developing low-cost CDots as alternative phosphors for light-emitting devices.

110 nductivity for batteries and fuel cells, and phosphors for light-emitting diodes (LEDs).

111 In contrast, persistent phosphors for near-infrared (NIR) wavelengths are lackin

112 aterials promising candidates as alternative phosphors for use in general lighting devices.

113 y are promising as single-source white-light phosphors for use with ultraviolet light-emitting diodes

114 (WLEDs) is the discovery of highly efficient phosphors free of rare-earth (RE) elements.

115 y paves the way for the growth of monolithic phosphor-free white emitters in the future.

116 We report a high-performance phosphors-free white light-emitting-diodes (w-LEDs) usin

117 hydrogen bonding between the newly developed phosphor G1 and the poly(vinyl alcohol) (PVA) matrix eff

118 morphous layer on the surface of the nitride phosphor grain during oxidative heating treatment, which

119 In this study, the structure of phosphor has been modified through cation substitution t

120 The LiGa(5)O(8):Cr(3+) phosphor has promising applications in optical informati

121 ation of the phosphors is absolute, and once phosphors have been calibrated in one laboratory the sam

122 toplumbites as promising next-generation NIR phosphor host systems.

123 Sr, Ba), CaAlSiN(3), and SiAlON, are useful phosphor hosts with good thermal stabilities.

124 al for internal light delivery is persistent phosphors; however, there is a scarcity of materials wit

125 Among the most efficient white phosphors, hybrid lead bromide (TDMP)PbBr(4) (TDMP = tra

126 creased cytosolic IkappaBalpha and increased phosphor-IkappaBalpha content were found 0-1 h postexerc

127 umors were frozen, sectioned, and exposed to phosphor image plates to obtain a quantitative digital i

128 brain slices using 18F-mefway were read on a phosphor imager.

129 )pyridine ((18)F-nifrolidine) were read on a phosphor imager.

130 ulting [(32)P]ceramide is quantified using a phosphor-imager system following TLC separation.

131 y, the short axis sections were exposed to a phosphor imaging plate to determine (18)F-LMI1195 distri

132 otiter plate format has been developed and a phosphor imaging system has been employed for sample mea

133 With phosphor imaging to quantify the washed membranes, the a

134 chromatography-mass spectrometry and storage phosphor imaging, respectively, ex vivo in rats, wild-ty

135 ery echo-planar imaging and autoradiographic phosphor imaging, respectively.

136 e could reproduce this finding using storage phosphor imaging.

137 d, dried, and analyzed by autoradiography or phosphor imaging.

138 abeled annexin V in live animals followed by phosphor imaging.

139 or has been developed that uses a commercial phosphor-imaging detector and has been optimized for low

140 Results from the phosphor-imaging system are converted to conventional el

141 ytes on the membrane is integrated using the phosphor-imaging system for 10-72 h.

142 g gel electrophoresis and autoradiography or phosphor-imaging.

143 PLQY increase occurs when characterizing the phosphor in a cylindrical cuvette due to a lensing effec

144 uring the decay of phosphorescence from a Pd phosphor in solution; the decay rate was obtained by fit

145 d phosphorescent dyes, traditionally used as phosphors in biological oxygen measurements, exhibit ext

146 aturity thanks to the use of nanocrystals as phosphors in commercial displays.

147 ts to act as down-shifting and up-converting phosphors in display and lighting applications due to th

148 promising candidate for alternative, RE-free phosphors in general lighting and illumination.

149 model analyte to describe the properties of phosphors in immunochromatographic assays, a detection l

150 itionally, the use of these materials as red phosphors in phosphor-converted white light emitting dio

151 io, and are useful as energy down-conversion phosphors in polarized LEDs.

152 ze stable colloidal solutions of solid-state phosphors in the range of 470 to 650 nm and diameters do

153 ensor based on the metal-free purely organic phosphors in the temperature-sensitive polymer matrix.

154 expression by GSK-3 was consistent with the phosphor-inactivation of GSK-3beta by CCCP and by the in

155 MK-2206 also inhibited the phosphor-inactivation of GSK-3beta by CCCP, a result con

156 Phosphor-inactive mutations of ICE1 complement freezing

157 eveloped by designing two isomeric molecular phosphors incorporating and combining a bridge for o-con

158 eveloped by designing two isomeric molecular phosphors incorporating and combining a bridge for sigma

159 such, the photoluminescent intensity of the phosphors increased by more than 10% and a blue shift oc

160 others lost transport activity but retained phosphor-intermediate formation or had partial losses of

161 hosphorescence by embedding a purely organic phosphor into an amorphous glassy polymer matrix.

162 Photon upconversion in rare earth activated phosphors involves multiple mechanisms of electronic tra

163 hen hexagonal NaYF(4):(18%)Yb(3+),(2%)Er(3+) phosphor is in air compared to a refractive index-matche

164 Calibration of the phosphor is of particular value because it is absolute,

165 50-360 nm) pre-irradiated LiGa(5)O(8):Cr(3+) phosphor is repeatedly stimulated with a visible light o

166 Calibration of the phosphors is absolute, and once phosphors have been cali

167 onstrate that site engineering of rare-earth phosphors is an effective strategy to target tailored op

168 ir suitability as energy-saving LED lighting phosphors is assessed.

169 first time such efficiency for Eu/Gd2O3 nano phosphors is determined, and the measured efficiency is

170 erovskite nanocrystals, and rare earth doped phosphors), it is surprising that the development of nan

171 SK-N-SH cell line as shown by inhibition of phosphor-JNK and phosphor-c-jun, and also decreased PS1

172 laces them among the brightest near-infrared phosphors known to date.

173 Preliminary assays that use up-converting phosphor labels, including tests for a drugs of abuse pa

174 o generate compositionally diverse thin-film phosphor libraries containing 1024 different composition

175 associated with an 8- to 9-fold induction of phosphor-MAP kinase and phosphor-AKT, markers of cell si

176 The hybrid phosphor materials are totally free of rare-earth metals

177 The demands for phosphor materials have become increasingly stringent ov

178 ehensive understanding of the development of phosphor materials in different generations and to eluci

179 n elucidating the key designed mechanisms of phosphor materials in different generations.

180 ) (LTO) and Li(2)ZnTi(3)O(8), as well as the phosphor materials NaCaPO(4) and MgAl(2)O(4), all doped

181 Copper-doped semiconductors are classic phosphor materials that have been used in a variety of a

182 We highlight the developments in phosphor materials through the classification of demands

183 Phosphor materials, as crucial color-converted component

184 In contrast to inorganic phosphor materials, organic afterglow substrates possess

185 ogress has been made for currently developed phosphor materials, simultaneously satisfying all requir

186 g systems rely on light-converting inorganic phosphor materials, which strongly limit the efficiency

187 Cells expressing phosphor-mimetic mutant (S235D) of p73 manifest altered

188 Interestingly, we found that the phosphor-mimetic mutant S195D and the deletion mutant De

189 t, the phosphorylation state, represented by phosphor-mimetic mutants of ezrin, only plays a minor ro

190 in ARP6 expression in PIF4 phosphor-null and phosphor-mimetic seedlings affect hypocotyl growth at 22

191 demonstrate that phosphorylation by GSK2 or phosphor-mimic mutation of S269 substantially impairs th

192 fects were not observed in mice expressing a phosphor-mimic S164D-SIRT1 mutant.

193 Moreover, phosphor mutants had defects in alleviating actin stress

194 Phosphor mutants of CAP1 at the S307/S309 regulatory sit

195 arent and scattering dye solutions and solid phosphors, namely, YAG:Ce optoceramics of varying surfac

196 A novel red-emitting phosphor NaY9(SiO4)6O2:Sm(3+) (NYS:Sm(3+)) was synthesiz

197 Moreover, Phosphor-NIP30 mimetics significantly increase the growt

198 In contrast to phosphors, no light conversion is required as the diffus

199 mine the absolute quantum efficiency of nano phosphors, normally a difficult task.

200 minescent (e.g., quantum dots, up-converting phosphor NPs, and dye-doped NPs), and magnetic NPs are i

201 e that variations in ARP6 expression in PIF4 phosphor-null and phosphor-mimetic seedlings affect hypo

202 a new type of RE-free, blue-excitable yellow phosphor, obtained by combining a strongly emissive mole

203 are luminescent nano- and microparticles and phosphors of different compositions in various matrices

204 As a proof of concept, we use bP ink as a "phosphor" on a red commercial light-emitting diode to de

205 Two new phosphors, one based on Pd-meso-tetra-(4-carboxyphenyl)p

206 pe pc-wLEDs fabricated from a blend of three phosphors or from single-phase phosphors showed promisin

207 mutation (CTNNB1), and immunohistochemical (phosphor[p]-protein kinase B, p-insulin growth factor-IR

208 The phosphor-p68 facilitates beta-catenin nuclear translocat

209 These data demonstrated a novel mechanism of phosphor-p68 in mediating the growth factor-induced EMT

210 The Y593-phosphorylated p68 (referred to as phosphor-p68) promotes beta-catenin nuclear translocatio

211 A prototype sensor integrates phosphor pairs with silicon photodiodes and transimpedan

212 local cation disorder that can influence the phosphor performance.

213 light-emitting diode employing an efficient phosphor-phosphor type host-guest emitting system achiev

214 Phosphor plate autoradiographs showed decreased uptake u

215 were frozen and sectioned for histology and phosphor plate autoradiography.

216 this computed radiography system, which uses phosphor plate imaging, equates approximately to a 300-s

217 Periapical images obtained with a storage phosphor plate system during clinical examination were u

218 Photostimulable-phosphor, posterior bitewing radiographs were taken to a

219 The device uses phosphor powders as electroluminescent materials, and hy

220 Subject to cyclic voltage, the phosphor powders luminesce, but the ionic conductors do

221 Up-converting phosphors promise simpler readout systems with less back

222 ol phosphatase 1 (SHIP1), thereby increasing phosphor-protein kinase B (AKT) that in turn serine-phos

223 ospho-protein kinase C-Zetalambda-Thr538 and phosphor-protein kinase D-Ser744-748 were reduced, where

224 s were measured by CEU perfusion imaging and phosphor quenching, respectively.

225 erated a number of model structures for five phosphors, RbLi[Li(3) SiO(4) ](2) :Eu(2+) , Na[Li(3) SiO

226 tudy, we investigated roles for CAP1 and its phosphor-regulation in pancreatic cancer cells.

227 cited Eu(2+) -doped red-emitting oxide-based phosphors remains one of the significant challenges for

228 eld among all RE-free, blue-excitable yellow phosphors reported to date, with a value as high as 90.7

229 Phosphor-residues at the amino-terminus instigate an int

230 ophically stressed as shown by high podocyte phosphor-ribosomal S6 (a marker of mTORC1 activation), h

231 y, self-absorption decreases the PLQY as the phosphor's thickness increases from 1 to 9 mm.

232 Immunostaining of phosphor-S6 ribosomal protein (pS6RP) revealed high mTOR

233 We applied [F-18]-AV-1451 phosphor screen autoradiography, [F-18]-AV-1451 nuclear

234 In this study, we have coupled an MCP-phosphor screen-TPX3CAM detection assembly that contains

235 ith radiolabeled (AATCCC)4, and exposed to a phosphor screen.

236 Phosphor screens were exposed for (99m)Tc and (125)I, an

237 the p34(Cdc2)/clb phosphorylation site (p53-phosphor-Ser(315)).

238 lcium phosphate precipitate core of LCP, two phosphor-serine residues were added to the N-terminal of

239 NYS:Sm(3+) phosphor showed obvious absorption in the UV regions cen

240 bstituted (La(1-x-y)Ce(x)RE(y))(3)Si(2)S(8)I phosphors showed even more intense photoluminescence and

241 lend of three phosphors or from single-phase phosphors showed promising performance.

242 Analyses of the different phosphors showed that CaF2:Eu enabled the best resolutio

243 further understanding of spectral shifts in phosphor solid solutions and in particular the applicati

244 In the current process, TOP, serving as phosphor source, reacts with Fe precursors to form FeP n

245 ough directed halogen bonding, these organic phosphors still have limitations to practical applicatio

246 ntly phosphor based (e.g., a yellow-emitting phosphor, such as cerium-doped yttrium aluminum garnet o

247 Nitride-based phosphors, such as Sr2Si5N8:Eu(2+) and CaAlSiN3:Eu(2+),

248 A newly developed water-soluble phosphor suitable for measuring oxygen pressure in the b

249 quivalent to those acquired with the storage phosphor system.

250 ngles, formed by amyloid B (AB) peptides and phosphor-tau, respectively, in the central nervous syste

251 formed by amyloid beta (Abeta) peptides and phosphor-tau, respectively, in the central nervous syste

252 arbon nanotubes, quantum dots, up-converting phosphor technologies, and latex beads, between others)

253 Up-Converting Phosphor Technology (UPT) is based on lanthanide-contain

254 and orthosilicate) ultraviolet-C persistent phosphors that can act as self-sustained glowing tags in

255 3+)-doped zinc gallogermanate NIR persistent phosphors that exhibit strong emission at 650-1,000 nm,

256 nitride, oxo-nitride, and oxide Eu(2+)-doped phosphors, the energy distribution and the band shape of

257 In conventional photostimulable storage phosphors, the optical information written by x-ray or u

258 n focal point is moved from the front of the phosphor to 8.4 mm deep.

259 riplet decay and allows the embedded organic phosphors to achieve a bright 7.5% phosphorescence quant

260 otropy, enabling their use as downconversion phosphors to create polarized light-emitting diodes.

261 -dose X-ray-activated persistent luminescent phosphor, triggering on demand in situ photo-crosslinkin

262 ues) that initiates the dephosphorylation of phosphor-tyrosine substrates upon loop closure.

263 be the use of a novel reporter, upconverting phosphors (UCP), in this assay format.

264 It consists of micrometer-sized upconversion phosphors (UCPs) and a pH indicator (Neutral Red) that a

265 transfer (LRET) associated with upconverting phosphors (UCPs) can be used to develop a paper-based DN

266 at 611 nm emitting from Eu doped Gd2O3 nano phosphors upon X-ray excitation from a microfocus X-ray

267 lcium fluoride doped with europium (CaF2:Eu) phosphors using an edge pattern and a thin-line optical

268 te light-emitting diodes operate by exciting phosphors using blue light-emitting diodes, leading to t

269 mum quenching concentration of Sm(3+) in NYS phosphor was about 10%mol, and the corresponding concent

270 r potential applications in the recycling of phosphor waste from compact fluorescent light bulbs.

271 Most of the optimized phosphors were moderately stable at 80-100 degrees C bef

272 provides a uniform microenvironment for the phosphor which is relatively unaffected by changes in th

273 ation of the SrAl(5.88)Ga(6)O(19):0.12Cr(3+) phosphor, which possesses an internal quantum efficiency

274 f Eu(2+) ions in a new hexagonal EuAl(2)O(4) phosphor whose Eu(2+) luminescence exhibits a very large

275 ant reference for designing new Eu(2+)-doped phosphors with desired photoluminescence properties.

276 Mechanoluminescence platforms, combining phosphors with elastic polymer matrix, have emerged in s

277 alternative strategies toward the design of phosphors with rigid excited-state geometries.

278 Highly efficient red phosphors with superior intrinsic properties that are ex

279 The renowned yellow phosphor yttrium aluminum garnet (YAG) doped with trival