ライフサイエンスコーパス: near-infrared

1 ticles supporting Mie-type resonances in the near infrared.

2 ver a broad wavelength range from visible to near infrared.

3 s (SCP) vascular landmarks onto those of the near infrared.

4 es for single-molecule photon sources in the near-infrared.

5 advantages that come with excitation in the near-infrared.

6 profiles span the color range from green to near-infrared.

7 sities (>10 kA cm(-2)) and tunability in the near-infrared (1,060 nm to 1,530 nm).

8 We found that the near-infrared 1800-nm luminescence intensity of (A) Er(3

9 performance of water-soluble, pH-responsive, near-infrared 4,4'-di fl uoro-4-bora-3a,4a-diaza-s-indac

10 on process has been undertaken for a Visible-Near Infrared (400-1100nm) sensor system, applied in the

11 droporphyrin in the deep-red (640-660 nm) or near-infrared (740-760 nm) spectral windows.

12 PTA was then performed with a fiber-coupled near-infrared (808 nm) diode laser with laser power of 0

13 o-based semiconducting polymer with a strong near-infrared absorbance is synthesized and its water-di

14 group on the meso-carbon are synthesized as near-infrared absorbing materials for vacuum processable

15 ein-based hosts that have been conjugated to near-infrared-absorbing Au nanoshells (SiO2 core, Au she

16 We have developed near-infrared-absorbing low bandgap COFs by incorporatin

17 Owing to their intense near infrared absorption and emission properties, to the

18 G2, were designed with the goal of achieving near infrared absorption and high photothermal conversio

19 The presented structures possess near-infrared absorption and emission, high photostabili

20 ee base bacteriochlorophylls), with a strong near-infrared absorption band (707-751 nm).

21 Herein, we apply this theory to study near-infrared absorption spectra of excitons in oligomer

22 Moreover, in addition to conferring high near-infrared absorption to plasmonic component, the hol

23 oating developed incorporates a monolayer of near-infrared active silica-coated gold nanostars (GNS)

24 by single-particle excitations do reach the near-infrared and even visible regions, making borophene

25 udy double ionization of Ar when driven by a near-infrared and near-single-cycle laser pulse for inte

26 their design progresses to allow two-photon, near-infrared and radio-frequency activation.

27 Bright fluorophores in the near-infrared and shortwave infrared (SWIR) regions of t

28 borne Visible/Infrared Imaging Spectrometer (near-infrared) and Hyperspectral Thermal Emission Spectr

29 ) ions emitting in the visible and/or in the near-infrared, and (ii) it must protect the Ln(3+) catio

30 t quality plasmonic material for visible and near infrared applications, its usage has been limited d

31 A variety of colors (green, red, and near-infrared) are demonstrated and characterized.

32 a localized surface plasmon resonance in the near-infrared at approximately 1000 nm, as confirmed by

33 cence emission computed tomography detecting near-infrared autofluorescence allows in vivo monitoring

34 We suggest that near-infrared autofluorescence imaging is a novel techno

35 Here we show that near-infrared autofluorescence is associated with the pr

36 vulnerable atherosclerotic plaques generate near-infrared autofluorescence that can be detected via

37 Efficient coupling from visible to near-infrared bands is demonstrated between a nanowavegu

38 Near-infrared cholangiography (NIR-C) provides real-time

39 By using weakly-focused near-infrared continuous wave (CW) laser microbeam in th

40 zed that IMI with a folate receptor targeted near-infrared contrast agent (OTL38) can improve maligna

41 A class of tunable visible and near-infrared donor-acceptor Stenhouse adduct (DASA) pho

42 Also, a near infrared dye surface modified K(+) NS allows fluore

43 xenografts in vivo after conjugation with a near-infrared dye.

44 e create a palette of triple-bond-conjugated near-infrared dyes that each displays a single peak in t

45 By combining single-band anti-Stokes near-infrared emission and the photothermal effect media

46 The observed changes in near-infrared emission of SWCNTs are important for under

47 microscopy, particularly in the far-red and near-infrared emission range.

48 f strong broadband visible absorption, sharp near-infrared emission, and long (>400 mus) emission lif

49 this MOF series [MOF-1114(Yb)] that exhibits near-infrared emission.

50 in the liver leads to fast restoring of the near-infrared emission.

51 oximately 175 nm were observed, which led to near-infrared emission.

52 an aptamer-anchor polynucleotide sequence to near-infrared emissive single-walled carbon nanotubes, u

53 isible emitters Sm(III) and Dy(III), and the near-infrared emitters Nd(III) and Yb(III).

54 rescence imaging, enabled by renal-clearable near-infrared-emitting gold nanoparticles, can noninvasi

55 e demonstrate efficient energy transfer from near-infrared-emitting ortho-mercaptobenzoic acid-capped

56 Both these fluorophores display far-red to near-infrared excitation and emission prior to reaction.

57 luorescence can be stimulated by two-photon, near-infrared excitation so as to provide visualization

58 stabilization of a charge density wave after near-infrared excitation, counteracting the suppression

59 of the high tissue-penetration capability of near-infrared excitation/emission, these nanoprobes achi

60 Here, we use visible and near-infrared femtosecond transient absorption (TA) spec

61 the tumor cell surface were conjugated with near infrared fluorescence (NIRF) dye-labeled molecules

62 ic system with nanoscale characteristics for near-infrared fluorescence (NIRF) and photoacoustic (PA)

63 in tumors than in normal organs, as shown by near-infrared fluorescence (NIRF) imaging.

64 %), which is the first observation of narrow near-infrared fluorescence for copper sulfide nanocrysta

65 magnetic resonance imaging (gadolinium) and near-infrared fluorescence imaging agents.

66 m for imaging tumor cell death, using planar near-infrared fluorescence imaging and SPECT, respective

67 el nuclear tracers and intravascular optical near-infrared fluorescence imaging catheters are emergin

68 Intravascular 2-dimensional near-infrared fluorescence imaging detected nanoparticle

69 Near-infrared fluorescence imaging with DPA-713-IRDye800

70 infrared fluorophore (CyAm7) 24 hours before near-infrared fluorescence imaging.

71 On near-infrared fluorescence microscopy, CLIO-CyAm7 primar

72 sis at 24 h confirmed PET/CT data by showing near-infrared fluorescence signal in tumors and a tumor-

73 iodo-DPA-713 SPECT/CT and DPA-713-IRDye800CW near-infrared fluorescence to delineate pancreatic, live

74 ting oxide (TCO) material and shows a strong near-infrared fluorescent at ambient pressure and room t

75 ual-labeled labetuzumab, labeled with both a near-infrared fluorescent dye (IRDye800CW) and a radioac

76 A cyanine-class near-infrared fluorescent dye, Cy7, and doxorubicin were

77 The plants employ a pair of near-infrared fluorescent nanosensors-single-walled carb

78 ones in cells and tissues that relies on the near-infrared fluorescent properties of these species.

79 ound healing, and invasion are demonstrated; near-infrared fluorescent psiRGDechi derivative is able

80 detected from various cell lines, via large near-infrared fluorescent turn-on responses.

81 xide nanoparticles (CLIO) derivatized with a near-infrared fluorophore (CyAm7) 24 hours before near-i

82 The capability of near-infrared fluorophore-labeled and (99m)Tc- and (111)

83 can hybridize to DNA strands conjugated to a near-infrared fluorophore/quencher pair (IRDye 800CW/IRD

84 n-polylysine backbone for charge variations, near-infrared fluorophores for bioimaging, and beta-cycl

85 ently weak circular dichroism at visible and near-infrared frequencies.

86 ht and serving as multifunctional devices in near-infrared frequency regime (at the specific waveleng

87 s, covering from terahertz (THz) to mid- and near-infrared frequency spectral band.

88 amples were analyzed using Fourier transform near infrared (FT-NIR) transmission spectroscopy in the

89 We report a miniature, visible to near infrared G-Fresnel spectrometer that contains a com

90 skites is demonstrated as a new and superior near-infrared gain medium.

91 nal materials: zero-gap graphene and visible/near-infrared gap transition metal dichalcogenides.

92 Thus, near infrared hyperspectral imaging arises as an attract

93 Near infrared hyperspectral imaging arises as an attract

94 Near infrared hyperspectral imaging has been applied to

95 alba L.) shavings has been determined using near infrared hyperspectral imaging.

96 ns retaining significant pump activity under near-infrared illumination (730 nm light-emitting diode)

97 al-domain OCT and hyporeflectance on en face near-infrared imaging (dice similarity coefficient, 0.76

98 They can be measured simultaneously using near-infrared imaging and spectrophotometry.

99 SNAP near-infrared imaging and tandem-affinity purification r

100 we demonstrated this approach can facilitate near-infrared imaging of mRNA localization in vivo and i

101 "fluorescence," "image-guided surgery," and "near-infrared imaging" to identify trials utilizing FGS

102 photon emitters that hold vast potential for near-infrared imaging, chemical sensing, materials engin

103 optical coherence tomography (OCT), en face near-infrared imaging, fundus autofluorescence, optical

104 d, which enables on-demand drug release with near-infrared irradiation.

105 nstrate real-time optical sectioning using a near-infrared labeled ErbB2 peptide that generates tumor

106 d in a polymer substrate that locally modify near-infrared (lambda=915 nm) optical wavefronts.

107 bon black nanoparticles to nanosecond pulsed near-infrared laser causes intracellular delivery of mol

108 ow-density targets, irradiated by an intense near-infrared laser is observed.

109 inding of CED in clusters ionized by intense near-infrared laser pulses, our observation of CED in th

110 icroscope equipped with a femtosecond-pulsed near-infrared laser was used to simultaneously excite se

111 Upon irradiation by a near-infrared laser, the phase-change material is melted

112 uch AuNR@G-P-aspirin complexes were used for near-infrared laser-triggered photothermal ablation of s

113 by the upcoming next generation of multi-PW near-infrared lasers.

114 B and phenol removal under UV, visible, and near-infrared light (NIR) irradiation, which can be attr

115 we present a hybrid detector for visible and near-infrared light achieving response times of the orde

116 y for combating cancer in which AuNRs absorb near-infrared light and convert it into heat, causing ce

117 xisting strategies that use tissue-penetrant near-infrared light for the targeted treatment of cancer

118 rsion nanoparticles (UCNPs) that can convert near-infrared light into visible light.

119 therapy (LLLT), refers to the use of red-to-near-infrared light to stimulate cellular functions for

120 g in a wide wavelength range from visible to near-infrared light with high sensitivity, fast response

121 reversibly photoconvertible between red and near-infrared light-absorption states.

122 enetic applications in living organisms with near-infrared light-responsive upconversion nanomaterial

123 avelength illumination with blue and far-red/near-infrared light.

124 as photoswitches that isomerize with red and near-infrared light.

125 uator nanoparticles that are controlled with near-infrared light.

126 Near-infrared mapping reveals the relative humidity with

127 Near infrared (NIR) and X-ray fluorescence (XRF) spectro

128 nanotriangular arrays, functionalized with a near infrared (NIR) fluorophore-conjugated immunoassay t

129 the sun-irradiation from ultraviolet (UV) to near infrared (NIR) is one of the key factors to ensure

130 gated the effect of a treatment of mice with near infrared (NIR) light on synaptic vulnerability to A

131 use of synchronous fluorescence, UV-Vis and near infrared (NIR) spectroscopy coupled with chemometri

132 This work aims to explore the potential of near infrared (NIR) spectroscopy to quantify volatile co

133 Determining amylose content in rice with near infrared (NIR) spectroscopy, associated with a suit

134 nergy delivery using optical illumination at near infrared (NIR) wavelengths, to which the skin is hi

135 ar cells, instead of using tandem devices or near infrared (NIR)-absorbing Sn-containing perovskites.

136 ores that simultaneously possess substantial near-infrared (NIR) absorptivity and long-lived, high-yi

137 Metal-free near-infrared (NIR) active unsymmetrical squaraine dyes,

138 Fourier transform (FT) near-infrared (NIR) and attenuated total reflection (ATR

139 omain optical coherence tomography (SD-OCT), near-infrared (NIR) and short-wavelength (SW) fundus aut

140 ons of vegetation reflectance at visible and near-infrared (NIR) bands with high spatial and temporal

141 A near-infrared (NIR) calibration was developed using an e

142 of the liposome (LP) and MeHg(+) -responsive near-infrared (NIR) cyanine dye (hCy7) for MeHg(+) detec

143 The methodologies are demonstrated on two near-infrared (NIR) data sets.

144 pothesized that if we loaded the hydrophobic near-infrared (NIR) dye IR780 into the liposome phosphol

145 Presently, by using a profluorescent near-infrared (NIR) dye, we characterize the nature of N

146 metallacrowns (MCs) that possess attractive near-infrared (NIR) emission and are highly photostable.

147 gh signal-to-noise ratios, luminophores with near-infrared (NIR) emission are particularly important

148 les with relatively low brightness and short-near-infrared (NIR) emission.

149 Near-infrared (NIR) emitters that can also be excited wi

150 n pulse (lambda = 266 nm) with an overlapped near-infrared (NIR) energy addition pulse (lambda = 1064

151 marin-quinoline (CQ) conjugate-based turn-on near-infrared (NIR) fluorescence probe for specific dete

152 opyrazine-based donor-acceptor-donor (D-A-D) near-infrared (NIR) fluorescent compounds were synthesiz

153 Two probes were composed with green and near-infrared (NIR) fluorescent dyes tethered to Schaap'

154 Near-infrared (NIR) fluorescent dyes with favorable phot

155 press optical reporters for luciferase and a near-infrared (NIR) fluorescent protein (iRFP670), with

156 Several series of near-infrared (NIR) fluorescent proteins (FPs) were rece

157 novel REF substrate, CNIR800, that carries a near-infrared (NIR) fluorochrome IRDye 800CW, with a que

158 w imaging platform by quantitatively imaging near-infrared (NIR) Forster resonance energy transfer (F

159 generation of molecules in an intense 800-nm near-infrared (NIR) laser field.

160 hytochrome photoreceptors absorb far-red and near-infrared (NIR) light and regulate light responses i

161 A smart release system responsive to near-infrared (NIR) light is developed for intracellular

162 tems respond only to UV irradiation, but not near-infrared (NIR) light that offers a deeper tissue pe

163 ct, AuNRs were further activated with 808-nm near-infrared (NIR) light to generate heat for photother

164 oped using hollow gold nanoshells (HGNs) and near-infrared (NIR) light.

165 A series of near-infrared (NIR) organic emissive materials were synt

166 cent semiconducting polymer based far-red to near-infrared (NIR) Pdot nanoprobe for the ratiometric d

167 To overcome this limitation, a near-infrared (NIR) photothermal activation method is pr

168 monoclonal antibody (mAb) conjugated with a near-infrared (NIR) phthalocyanine dye IRDye 700DX.

169 ese factors also strongly influenced modeled near-infrared (NIR) reflectance, explaining why both mod

170 absorption (epsilon > 10(5) M(-1) cm(-1)) in near-infrared (NIR) region and exhibit similar optical a

171 drug molecules in the deep-tissue-penetrable near-infrared (NIR) region has been the major hurdle tha

172 Strong absorbance in the near-infrared (NIR) region is observed for 1-7 with the

173 more photons need to be harvested in UV-vis-near-infrared (NIR) region to generate high photocurrent

174 ion bands that range from the visible to the near-infrared (NIR) regions.

175 n as probes for in vivo imaging due to their near-infrared (NIR) spectra and use of available in mamm

176 bit low-energy electronic transitions in the near-infrared (NIR) spectral region.

177 Hyperspectral imaging (HSI) combines Near-infrared (NIR) spectroscopy and digital imaging to

178 Near-infrared (NIR) spectroscopy was evaluated as a rapi

179 ults were compared with those obtained using near-infrared (NIR) spectroscopy.

180 ge portions of the near-ultraviolet (NUV) to near-infrared (NIR) spectrum along with favorable excite

181 tor-donor-acceptor) oligomer emitting in the near-infrared (NIR) thanks to delocalisation of the BODI

182 15 nm MNPs showed a strong absorption in the near-infrared (NIR) window and enhanced the transverse r

183 In this system, the near-infrared (NIR)-absorbing PDA acts as a platform for

184 ifetime referenced (DLR) sensors make use of near-infrared (NIR)-emitting Egyptian blue as a referenc

185 pted for the synthesis of highly luminescent near-infrared (NIR)-emitting gold nanoclusters (AuNCs) u

186 y (RT)) by controlled drug delivery/release, near-infrared (NIR)-excited deep PDT, and radiosensitiza

187 ate and carborane-based anions paired with a near-infrared (NIR)-selective heptamethine cation.

188 l spectrum, ranging from ultraviolet (UV) to near-infrared (NIR).

189 m cells (hASC), compared to red (660 nm) and near-infrared (NIR, 810 nm).

190 for photoacoustic (PA) imaging in the second near-infrared (NIR-II) window (1000-1350 nm).

191 Our near-infrared observations allow us to determine a model

192 ls from the contrast agents with an external near-infrared optical stimulus, we can further suppress

193 Compared to near-infrared optical systems, however, mid-infrared com

194 pair multiplication process, we demonstrate near-infrared optoelectronic devices that exhibit 350% e

195 tion of the reflected light intensity in the near infrared part of the spectrum.

196 By using LiGa5O8:Cr(3+) near-infrared persistent luminescent nanoparticles as a

197 high room-temperature electron mobility and near-infrared photo-response, together with much better

198 nst intense irradiation, and as a visible to near-infrared photodetector with high responsivities.

199 Near-infrared photoimmunotherapy (NIR-PIT) is a new canc

200 From the transient near-infrared photoluminescence under various excitation

201 We synthesize the optical to near-infrared photometry and spectroscopy of SSS17a coll

202 fill the 'missing link' in source-integrated near infrared photonic circuits.

203 This may allow the near-infrared photons to be harnessed for photovoltaics

204 ng as a compound class with highly desirable near infrared photophysical properties.

205 Here we report a novel assembly structure of near-infrared plasmonic gold nanoparticles (AuNPs), poss

206 To test this hypothesis, a near infrared probe was fabricated to have high affinity

207 clopropenone-masked dibenzocyclooctynes with near-infrared pulses from a femtosecond laser triggers p

208 We report the use of chirped ultrashort near-infrared pulses to modulate light-evoked ionic curr

209 The system uses near-infrared quantum dots and a membrane-impermeable et

210 The multiphoton near-infrared, quantum cutting luminescence in Er(3+)/Tm

211 ved behaviour is an interesting multiphoton, near-infrared, quantum cutting luminescence phenomenon t

212 of the entire spectrum of ambient visible to near-infrared radiation.

213 nanolaser that operates from the visible to near-infrared range at room temperature.

214 ater than 90% absorptance in the visible and near-infrared range of the solar spectrum, and exhibits

215 based on magnetic nanoparticles (MNPs) with near infrared ray (NIR) biophotonic possess tremendous p

216 dence so far for a kilonova was a very faint near-infrared rebrightening in the afterglow of a short

217 btained results demonstrate the potential of near infrared reflectance spectroscopy that can be succe

218 ocal fundus autofluorescence (FAF), confocal near-infrared reflectance (NIR), and high-resolution opt

219 Near-infrared reflectance identified typical hyporeflect

220 in optical coherence tomography (SD OCT) and near-infrared reflectance imaging.

221 methods, including fundus autofluorescence, near-infrared reflectance, and color imaging, provided c

222 All clinic patients underwent SD OCT, near-infrared reflectance, and color photography.

223 al imaging that included fundus photography, near-infrared reflectance, blue autofluorescence, blue r

224 angiography, indocyanine green angiography, near-infrared reflectance, fundus autofluorescence, high

225 Multimodal imaging testing, including near-infrared reflectance, spectral-domain OCT, and OCTA

226 efficiency has a 2.5-fold improvement in the near infrared regime, while the timing jitter remains 25

227 hoton avalanche detectors, especially in the near infrared regime.

228 gnal, the conversion can be monitored in the near-infrared region (e.g., acrylate double bonds, epoxy

229 In vivo fluorescence imaging in the near-infrared region between 1500-1700 nm (NIR-IIb windo

230 c waves from ultraviolet and visible, to the near-infrared region, with low-cost solution processabil

231 th zero real part of the permittivity in the near-infrared region.

232 Near-infrared scanning laser ophthalmoscopy images and S

233 ational-wave signal, and a transient optical-near-infrared source powered by the synthesis of large a

234 ch weaker water absorption features in their near-infrared spectra than predicted.

235 lysis, absorption of plasmons is mapped over near infrared spectral range as a function of chemical p

236 r with three wavebands in red, red-edge, and near infrared spectral regions.

237 as realized throughout the entire visible to near-infrared spectral regime (i.e., from 435 nm to 1100

238 lations are extended over the entire visible-near-infrared spectral region to cover both carotenoid a

239 The optimization of near-infrared spectroscopic parameters was realized via

240 tion spectroscopy (DCS) and frequency-domain near infrared spectroscopy (FDNIRS) to measure hemoglobi

241 ity and pupillary response, using functional near infrared spectroscopy (fNIRS) and eye-tracking glas

242 Functional near infrared spectroscopy (fNIRS) is a field-deployable

243 e, we investigated the utility of functional Near Infrared Spectroscopy in measuring brain activity f

244 Along with the biosensors, near infrared spectroscopy was used to measure percent o

245 nvasive optical techniques: frequency-domain near-infrared spectroscopy (FD-NIRS) and diffuse correla

246 re report BCI communication using functional near-infrared spectroscopy (fNIRS) and an implicit atten

247 Functional near-infrared spectroscopy (fNIRS) is an optical topogra

248 Here, we outline our use of functional near-infrared spectroscopy (fNIRS) to collect functional

249 We used functional near-infrared spectroscopy (fNIRS) to record brain activ

250 ion to this problem, here we used functional near-infrared spectroscopy (fNIRS), a noninvasive optica

251 We use functional near-infrared spectroscopy (fNIRS), an emerging optical

252 Using functional near-infrared spectroscopy (fNIRS), we examined hemodyna

253 Using functional near-infrared spectroscopy (fNIRS), we measured top-down

254 Fiber optic-based near-infrared spectroscopy (FONIRS) setup was developed

255 ygium malaccense (L.) Merryl et Perry] using near-infrared spectroscopy (NIRS) and partial least squa

256 This study describes the development of near-infrared spectroscopy (NIRS) calibration to determi

257 While near-infrared spectroscopy (NIRS) haemodynamic measures

258 We exploited a Near-Infrared Spectroscopy (NIRS) method to monitor the

259 ound (r=0.69; P<0.0001) but not with LCBI by near-infrared spectroscopy (r=0.24; P=0.07).

260 METHODS AND Combined near-infrared spectroscopy and intravascular ultrasound

261 This was illustrated with the aid of near-infrared spectroscopy and the previously optimized

262 roscopic methods, including Raman and UV-vis-near-infrared spectroscopy as well as by scanning tunnel

263 LRP, defined as a bright yellow block on the near-infrared spectroscopy block chemogram.

264 Among 268 10-mm coronary segments, near-infrared spectroscopy images were analyzed for LRP,

265 integrated electroencephalography (aEEG) and near-infrared spectroscopy in NE.

266 We used near-infrared spectroscopy to record PFC activity in 8-m

267 To address this question, we used functional near-infrared spectroscopy to test 40 healthy newborns o

268 w cerebral oxygenation levels as measured by near-infrared spectroscopy.

269 rebral oxygen saturation was estimated using near-infrared spectroscopy.

270 lized holographic devices in the visible and near-infrared spectrum can be improved by introducing co

271 alenses, with an emphasis on the visible and near-infrared spectrum, and summarize their important fe

272 nce and suppress the thermal emission in the near-infrared spectrum, crucial for improved TPV efficie

273 hat widens the optical imaging window to the near-infrared spectrum, thereby allowing deeper tissue p

274 nly be reliably identified by extremely deep near-infrared surveys.

275 With strong scattering in near infrared, the Au nanocups exhibit superior efficien

276 Here we report a near-infrared thermal spectrum for the ultrahot gas gian

277 demonstrated that allows modulation from the near-infrared to shorter wavelengths close to the visibl

278 % over a wide wavelength range spanning from near-infrared to ultraviolet light, i.e. 250 nm-2500 nm.

279 Up to now, investigations have focused on near-infrared to X-ray laser pulses consisting of many o

280 Near-infrared tumour irradiation, following intravenous

281 onstrate strong light-matter coupling in the near infrared using single-walled carbon nanotubes (SWCN

282 as to image the measured soil, and a visible-near-infrared (vis-NIR) spectrometer to measure iron oxi

283 s Europe and North America that uses visible-near-infrared (VNIR) spectroscopy on lake sediments.

284 of the model by a factor 100,000, and using near infrared wavelength, the radar cross section can be

285 The absorption of near-infrared wavelength light is significantly enhanced

286 f anisotropic T-shaped plasmonic antennas in near-infrared wavelength range, where the achromatic nea

287 low level laser therapy (LLLT) using red or near-infrared wavelengths has been reported to have effe

288 Proof of concept experiments operated at near-infrared wavelengths were carried out at the NASA I

289 emit most of their power from ultraviolet to near-infrared wavelengths, but when in close orbits with

290 ent of the magnetooptical figure of merit at near-infrared wavelengths.

291 rption cross sections across the visible and near-infrared wavelengths.

292 tor applications ranging from the visible to near-infrared wavelengths.

293 wavelength range from the ultraviolet to the near-infrared, we find that the kilonova is characterize

294 Fluorescence imaging in the second near-infrared window (NIR-II) allows visualization of de

295 A new design for second near-infrared window (NIR-II) molecular fluorophores bas

296 rth based probes.Fluorescence imaging in the near-infrared window between 1500-1700 nm (NIR-IIb windo

297 nm, tunable excitation band in the deep red/near-infrared window, and tunable emission.

298 erties is luminescence, often in the visible-near-infrared window, useful in biological applications.

299 SiPcs 1-7 fluorescence in the near-infrared with emission maxima at 691-700 nm.

300 viding detection by (i) visible (Tb(3+)) and near-infrared (Yb(3+)) luminescence, (ii) PARACEST- (Tb(