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1 oration in the blue wavelength region of the visible spectrum.
2 igh efficiencies in transmission mode in the visible spectrum.
3 diversity, collectively spanning the entire visible spectrum.
4 luorine with optical properties spanning the visible spectrum.
5 he fluorescence can be tuned over the entire visible spectrum.
6 he violet, blue, and/or green regions of the visible spectrum.
7 controlled to produce colours throughout the visible spectrum.
8 ich has peaks at 448 nm and 376 nm in the UV-visible spectrum.
9 l control of brightness and color across the visible spectrum.
10 has a maximum absorbance at 381 nm in its UV-visible spectrum.
11 the radiation in the low energy range of the visible spectrum.
12 tron per incident photon in a portion of the visible spectrum.
13 approach can be extended to cover the entire visible spectrum.
14 ating through tissue than other parts of the visible spectrum.
15 n be applied to many fluorophores across the visible spectrum.
16 mperature sensors that cover nearly the full visible spectrum.
17 tinal of more than 200 nanometers across the visible spectrum.
18 ectral channels spanning only ~100 nm of the visible spectrum.
19 re complexes create a palette that spans the visible spectrum.
20 complexes with apatite and fluoresce in the visible spectrum.
21 is limited by diffraction to ~200 nm in the visible spectrum.
22 light in the red region (605-610 nm) of the visible spectrum.
23 sions of nanoparticles which emit across the visible spectrum.
24 sions of nanoparticles which emit across the visible spectrum.
25 enhanced transmission peaks spread over the visible spectrum.
26 can be hybrid-engineered to span the entire visible spectrum.
27 terials absorbing effectively over the whole visible spectrum.
28 unable optical properties across much of the visible spectrum.
29 related with the presence of a dopachrome UV-visible spectrum.
30 nd significantly shifts the redox difference visible spectrum.
31 ght (nu(1/2)), and lack of absorption in the visible spectrum.
32 rafast excitation pulse tuned through the UV-visible spectrum.
33 peroxy radical support an excitation in the visible spectrum.
34 d with a scattering peak at any color in the visible spectrum.
35 be fined tuned to virtually any part of the visible spectrum.
36 nificant blue shift of the Soret band in the visible spectrum.
37 alocyanine array absorbs strongly across the visible spectrum.
38 raviolet A/blue light to almost the complete visible spectrum.
39 o eliminate the NTA and obtain the "correct" visible spectrum.
40 ngth was thermally tunable across the entire visible spectrum.
41 olybdate ion to produce the same peak in the visible spectrum.
42 absorption coefficient (10(5) cm(-1)) in the visible spectrum.
43 penetrance and limits access to the broader visible spectrum.
44 color centers, which promise gain across the visible spectrum.
45 nd biliverdin (BV) to sense light across the visible spectrum.
46 tric metasurfaces operating across the whole visible spectrum.
47 e of free-standing meta-atoms working in the visible spectrum.
48 hen effect in film samples across the entire visible spectrum.
49 racter and yet still displays an IVCT in the visible spectrum.
50 edges that rapidly decline upon entering the visible spectrum.
51 hat selectively reflect light throughout the visible spectrum.
52 l structures with photonic properties in the visible spectrum.
53 sive pseudo refractive index over the entire visible spectrum.
54 ht colors in the yellow to red region of the visible spectrum.
55 meras using light having a wavelength in the visible spectrum.
56 ld be balanced, including across an animal's visible spectrum.
57 luorophores at the appealing red edge of the visible spectrum.
58 trol over nonlinear optical processes in the visible spectrum.
59 tance of 0.15% and less than 0.4% across the visible spectrum.
60 diffusion in transmission across the entire visible spectrum.
61 mplex, which absorbs light across the entire visible spectrum.
62 xima of varying wavelengths across the whole visible spectrum.
63 AM-based tunable nanophotonic devices in the visible spectrum.
64 ssion color purity and tunability across the visible spectrum.
65 t and do not use significant portions of the visible spectrum.
66 rescence with lifetimes of about 5 ns in the visible spectrum.
67 laying tunable emission covering most of the visible spectrum.
68 on of hybridized absorption modes across the visible spectrum.
69 can only absorb the high-energy part of the visible spectrum.
70 icrocombs with emission near the edge of the visible spectrum.
71 he photoluminescence tunable over the entire visible spectrum.
72 bsorb and emit in the green region of the UV-visible spectrum.
73 , and the other carpet cloak, both at 532 nm visible spectrum.
74 larization greater than 0.6 over most of the visible spectrum.
75 ic light-emitting diode molecules across the visible spectrum.
76 minescent proteins with emissions across the visible spectrum.
77 nescence can be tuned over nearly the entire visible spectrum.
78 precision ranging at wavelengths beyond the visible spectrum.
79 ower in the near-infrared as compared to the visible spectrum.
80 extraordinarily broad range (>100 nm) of the visible spectrum.
81 ap oligomer enhances light absorption in the visible spectrum.
82 ngly enhance the optical absorption over the visible spectrum.
83 nine-class organic fluorophores spanning the visible spectrum.
84 or detecting halogenated hydrocarbons in the visible spectrum.
85 sponse extends from the near-infrared to the visible spectrum.
86 on resonance structures that span the entire visible spectrum.
87 ient generation of detectable photons in the visible spectrum.
88 f photonic pigments with colors spanning the visible spectrum.
89 ion of optogenetic control across the entire visible spectrum, (2) increased potency of optical inhib
90 iazenes exhibited intense absorptions in the visible spectrum (359-428 nm), which were bathochromical
91 ble mechanisms and their products are in the visible spectrum (400-650 nm), limiting their in vivo an
92 nt resonant light absorption over the entire visible spectrum (400-700 nm) with an average measured a
94 t circuit photocurrent efficiency across the visible spectrum (400-750 nm) could be increased by abou
96 mitting across a range of wavelengths in the visible spectrum (610-680 nm and 740-820 nm), with a gre
98 iroptical response over a broad range of the visible spectrum-a key criterion for applications such a
100 vanced chiroptical properties in the far-red visible spectrum, along with a less compact structure co
101 orescence (410-520 nm), covering most of the visible spectrum, along with a positive solvatochromic s
102 s a spectral resolution down to 40 pm in the visible spectrum and 10 pm in the near-infrared spectrum
103 ts optical transmission exceeding 80% in the visible spectrum and a color difference DeltaE under 3 i
104 exhibits an intense light absorption in the visible spectrum and a reversible oxidation process.
106 bsorption to the yellow-orange region of the visible spectrum and allows bidirectional quantitative i
107 r, broadband optical transparency across the visible spectrum and an adjustable, stress-tuneable refr
108 th-dependent spot patterns across the entire visible spectrum and enable multiplexed single biomolecu
109 bit vivid colors and fluorescence across the visible spectrum and enhanced stability against photooxi
110 object from an observer, ideally across the visible spectrum and for all angles of incidence and pol
112 hemiindigo is shifted to the red part of the visible spectrum and how nearly perfect photoswitching c
113 ing "ultra-stable" fluorophores spanning the visible spectrum and how such fluorophores are likely to
114 of the betaines are in the red region of the visible spectrum and in the near-IR spectral domain, whi
115 how emission wavelengths covering the entire visible spectrum and near-infrared (NIR), depending on m
116 can be extremely broad, spanning the entire visible spectrum and providing high color rendition (or
117 an unperturbed view of the world across the visible spectrum and redirects near-infrared light to a
119 rganisms do not perceive the red part of the visible spectrum and that red light can be used for unde
120 tal waveguide mode was observed over a broad visible spectrum and the waveguide evanescent wave was u
121 ells (NSs) with tunable plasmon bands in the visible spectrum and their oxidative-assembly into high-
122 to extend dielectric metasurfaces across the visible spectrum and to enable applications such as high
123 peak reflectivities (>96%) across the entire visible spectrum and wide spectral stop-band widths (ful
124 emit light within a narrow bandwidth of the visible spectrum and with a high quantum yield (ca. 20%)
125 y transparent with ~70% transmittance within visible spectrum, and (c) tunable bandpass filtering eff
126 type laccase and plastocyanin, an altered UV-visible spectrum, and a decreased redox potential (by 0.
127 dyes that display emission colors across the visible spectrum, and all of which can be simultaneously
128 sharp absorption edge in the red part of the visible spectrum, and atmospheric methane in extreme the
129 o bright emitters in any other region of the visible spectrum, and back, by displacement of Cl(-) or
130 lization of graphene carbon can modulate its visible spectrum, and can therefore be used to improve a
131 tional emission tunability across the entire visible spectrum, and chiroptical responses surpassing t
132 t dyes, which absorb across the range of the visible spectrum, and chromogenic products of assays (e.
133 olor as it absorbs in the blue region of the visible spectrum, and its chromogenic contribution would
134 ic ordering, can be varied across the entire visible spectrum, and responds to the presence of chemic
135 luding plasmonic chiroptical activity in the visible spectrum, and they hold immense promise as chiro
136 e charge-transfer optical transitions in the visible spectrum (approximately 550-750 nm) and fluoresc
137 stals and metamaterials operating across the visible spectrum are extremely difficult to construct ov
138 with spectral properties spanning the entire visible spectrum are indispensable tools for imaging the
139 Certain wavelengths in the visible and near-visible spectrum are known to have discrete effects on p
143 with the development of metamaterials in the visible spectrum are the high costs and slow production
145 QE is approximately constant over the entire visible spectrum as opposed to a p-n junction hybrid sol
146 ) and absorbs homogenously across the entire visible spectrum as solar cell applications require.
147 the emission into the deep-red region of the visible spectrum as well as into the biological transpar
148 challenging, especially in the infrared and visible spectrum, as metals are dispersive and absorbing
150 r method enables transparency throughout the visible spectrum at one angle--the generalized Brewster
152 maturation kinetics of 50 FPs that span the visible spectrum at two different temperatures in Escher
153 olecules with intense absorptions across the visible spectrum but are generally focused on systems th
154 o that of commercial indium tin oxide in the visible spectrum, but far superior transmittance in the
155 e three classes of photoreceptor to span the visible spectrum, but smell relies on hundreds of distin
156 ed that propofol dimer did not absorb in the visible spectrum, but the propofol dimer quinone had an
157 hieve optical transparency across the entire visible spectrum by employing molecules with strong abso
158 licon nanowires is tunable across the entire visible spectrum by simply moving the height of the nano
159 of the device can be varied over the entire visible spectrum by tailoring the hot-electron interplay
160 ion wavelength was tunable across the entire visible spectrum by tuning the excitation wavelength.
163 y inactivated the enzyme with concomitant UV/visible spectrum changes characteristic of reduction of
165 0 acid-labile S(2-) per protein and has a UV-visible spectrum characteristic of iron-sulfur proteins
166 The Co(II)-substituted enzyme exhibits a UV-visible spectrum characterized by strong Co(II) d-d tran
167 DIPY) chromophore in the green region of the visible spectrum cleaves an adjacent oxazine heterocycle
168 xygen, the protein forms a complex with a UV-visible spectrum closely resembling that of peroxo-bridg
169 ns in next- generation technologies, such as visible-spectrum communication, superbright solid-state
170 to the holoenzyme elicits a change in the UV-visible spectrum consistent with the formation of cob(II
171 rption below approximately 1 eV, outside the visible spectrum, consistent with the formation of a nar
172 nce that the ground-based calibration of its visible spectrum could be safely extrapolated into the u
173 dical cations with absorptions that span the visible spectrum, creating green, yellow, and red chromo
175 the longest wavelength transition in the UV-visible spectrum, DeltaE, was examined for a series of a
176 rofiles in the green to orange region of the visible spectrum, demonstrate high sensitivity to membra
177 de-range phosphorescence spanning across the visible spectrum, depending on the core substituent.
180 ter depth and clarity compared to FPs in the visible spectrum due to reduced light absorbance and sca
181 As a consequence, we have observed in the UV-visible spectrum during catalytic turnover a new interme
183 polyacrylamide gel electrophoresis and had a visible spectrum, electrophoretic mobility, and number o
184 erial scatters each band of light across the visible spectrum equally at all locations of the screen,
187 volvable by imaging treatment from an entire visible spectrum for each pixel (spectral analysis).
188 specific 50 nm light wavebands spanning the visible spectrum from 300-600 nm and the genetic respons
189 transmission efficiencies of >86% across the visible spectrum from 405 nm to 633 nm (peak value of ab
190 ecular fluorescent assemblies that cover the visible spectrum from blue to red using a single protein
191 scence with wavelengths spanning most of the visible spectrum from green-yellow for the dyes possessi
192 ization-insensitive across nearly the entire visible spectrum from wavelength lambda = 460 nm to 700
193 s with photonic bandgaps spanning the entire visible spectrum, from ultraviolet (UV) to near infrared
194 e variations in deoxyhemoglobin (HHb) in red visible spectrum (>600 nm), and to improve the detection
195 ent fluorescence in a broad range within the visible spectrum illustrates their potential for use in
199 vinyl ether caged fluorophores spanning the visible spectrum, including a near-infrared (NIR)-emitti
201 tors show high transparency of >90% over the visible spectrum, indicating their potential for transpa
202 n of the QD, but it is effective through the visible spectrum into the nIR, offering a large array of
203 a full range of colours spanning the entire visible spectrum is achieved, paving the way towards dyn
204 ant, where tunability of emission across the visible spectrum is desired, and where efficient emissio
205 rosyl radical with a red-shifted ultraviolet-visible spectrum is formed, which is essential for the f
206 Moreover, a record-high Cotton effect in the visible spectrum is observed for enantiopure NP, with |D
208 nge of smaller incident angles, the complete visible spectrum is reflected with a reflectivity of 100
209 g discharge channels that is radiated in the visible spectrum is similar for Earth, Venus and Titan,
210 hat of a 6-s-trans,13-cis chloride salt, the visible spectrum is strongly red-shifted from the lambda
211 h the uptake of one proton; this, and the UV-visible spectrum, is consistent with the reduced flavin
212 femtosecond laser pulses tunable across the visible spectrum, it is demonstrated that single-crystal
213 , which emit in the blue-green region of the visible spectrum (lambda(em) up to 560 nm) and show extr
214 Both emit in the deep-blue region of the visible spectrum (lambda(em) ~ 440 nm) upon excitation a
215 exhibits a weak electronic absorption in the visible spectrum (lambda(max) = 467 nm) that is characte
216 photoexcitation of A2E by wavelengths in the visible spectrum leads to singlet oxygen production and
217 ous alumina is highly transparent across the visible spectrum, making it a promising candidate for lo
218 ignal of molecular recognition events in the visible spectrum, making the signal interpretation much
221 To address how specific wavelengths in the visible spectrum modulate behavioral performance, we use
223 to both arms by analyzing changes in the UV-visible spectrum of A2E, and we have observed a preferen
228 erior to posterior every 0.25 mm, and the UV-visible spectrum of each section was measured to determi
232 arrows, deepens, and continually rejects the visible spectrum of light until it stabilizes as a black
235 te absorption is transiently observed in the visible spectrum of purified murine erythroid ALAS.
237 luorescence without affecting the overall UV-visible spectrum of rhodopsin, supporting their actions
239 rast, in the case of IACoA, the resultant UV/visible spectrum of the enzyme-IACoA complex (lambdamax
243 s a homodimer of 29-kDa subunits, and the UV-visible spectrum of the purified protein showed absorban
245 e broadly spaced in the ultraviolet (UV) and visible spectrum on a AlGaN/AlN integrated photonic plat
246 with photosensitivity throughout the entire visible spectrum, one can optimize the controlling mater
247 order, especially at low temperatures, while visible-spectrum optical conductivity and high-temperatu
248 having wavelengths in the red region of the visible spectrum, optimal for detection by the CCD camer
249 nating laser beam to resolve to 70 nm in the visible spectrum or have limited imaging resolution abov
250 Tetrahedron T absorbs strongly across the visible spectrum out to 650 nm and exhibits a total of 7
251 l as an experimental realization with an all-visible spectrum, p-polarized angularly selective materi
253 Melanopsin was highly resistant to both visible-spectrum photic bleaching and chemical bleaching
254 nucleic acids, and that is permeable to both visible-spectrum photons and exogenous macromolecules.
255 on with improved light absorption within the visible spectrum, played a crucial role in the 25FeS/MX-
262 dex material in the blue-green region of the visible spectrum, substantiated by direct geometric visu
263 rated F-P filters, being able to cover whole visible spectrum, successfully modulate the spectral res
264 DTBT:PC60/70BM, exhibit flat IQEs across the visible spectrum, suggesting that charge generation is o
265 he four-electron-reduced form of QSOX with a visible spectrum suggestive of active site occupancy.
266 cene charge-transfer band in a region of the visible spectrum suitable for detailed resonance Raman s
267 of sulfide per polypeptide and displays a UV-visible spectrum that is consistent with a [4Fe-4S] clus
268 hown to be a fluorescent emitter outside the visible spectrum, the caging process provided an unprece
269 coloration or optical properties within the visible spectrum, their properties in infrared wavelengt
270 ectral bandwidth laser source centred in the visible spectrum, thereby allowing facile assessment of
271 an be continuously tunable across the entire visible spectrum through experimentally controlling thei
272 chieved dynamic reflection tuning across the visible spectrum through incorporation into a self-organ
275 olor can be tuned to reflect across the full visible spectrum using only a single polymer (M(n) = 290
276 of commonly used porous materials across the visible spectrum via excitation-emission spectroscopy an
277 to multiple phosphorescence bands across the visible spectrum via luminescence thermochromism and sit
281 um dots that emit in the green region of the visible spectrum when excited in the ultraviolet region.
282 ase in diffuse reflectance across the entire visible spectrum, which was in stark contrast to radiofr
283 oefficients are reasonably stable across the visible spectrum, which we demonstrate by measuring whit
284 fferent luminescence centers emitting in the visible spectrum, which we have hypothesized as trace Cu
285 al fluorescence enhancement across the whole visible spectrum while maintaining good synthetic access
286 escent bioorthogonal smart probes across the visible spectrum will enable sensitive visualization of
287 tical response from the near infrared to the visible spectrum with decreasing layer thickness down to
288 ble to work with emission lines covering the visible spectrum with desired directionality, thus provi
291 red complex, designated 2b, that exhibits a visible spectrum with lambda(max) at 485 nm (9,800 M(-1)
292 umping, which enables modulation of the full-visible spectrum with large absolute change of transmiss
293 ked films exhibiting optical gain across the visible spectrum with less than one exciton per colloida
294 robe that emits in the far-red region of the visible spectrum with properties desirable for single-mo
295 scence and laser) toward the red edge of the visible spectrum with remarkable tolerance under strong
296 infrared to shorter wavelengths close to the visible spectrum with remarkably low voltages ( approxim
297 photoluminescence quantum yields across the visible spectrum, with exchange kinetics that were tunab
298 of nickel elicited marked changes in the UV-visible spectrum, with intense charge transfer bands ind
299 ical (linear) polarization states across the visible spectrum, with the degree of polarisation determ
300 when the eye is focused to the middle of the visible spectrum, yet we normally are not aware of chrom