ライフサイエンスコーパス: dye

1 nder real-time optical guidance (fluorescent dye).

2 line with TPCs in the extract to form an azo dye.

3 loaddition reaction with an alkynyl-modified dye.

4 capillary form factor along with a resazurin dye.

5 -targeted tracer incorporating a fluorescent dye.

6 light emitting Carbon dot (CD) and Congo red dye.

7 mmercially available "live/dead" fluorescent dye.

8 their interaction with the non-fluorescence dye.

9 f the foam as an adsorbent of methylene blue dye.

10 tricine SDS-PAGE using cationic 'stains all' dye.

11 ficiencies in the red domain for a helicenic dye.

12 intensity of nuclei stained with Hoechst DNA dye.

13 ling with a reactive AlexaFluor 680 acceptor dye.

14 visible light driven photodegradation of AO dye.

15 (605nm)) to resorufin (pink, ~lambda(570nm)) dye.

16 ompound can act as a quencher for an anionic dye.

17 ransfer from the analyte to the photoexcited dye.

18 resonance energy transfer with the indicator dye.

19 ncrease in fluorescence of the aptamer-bound dye.

20 t would ordinarily be obscured by a blocking dye.

21 unctive PAD (red LED, 635 nm, photosensitive dye, 0.01% tolonium chloride), whereas the control group

22 ing strategies designed to red-shift cyanine dye absorptions and emissions further into the near-infr

23 ransfer (TG-FRET) between terbium donors and dye acceptors into HCR for multiplexed quantification of

24 )Cy5-mas(3), and EuK-Cy5(Ar)-mas(3); the Cy5 dye acts as a functional backbone between the EuK target

25 RNA or DNA strands and a fluorogenic organic dye added as a buffer component.

26 fered in their performance in gas uptake and dye adsorption, and the structure-performance relationsh

27 well as minimizing non-specific fluorescent dye adsorption.

28 sses intracellularly: the dissolution of the dye aggregates into dye molecules and the release of the

29 n is suitable for the design of well-defined dye aggregates of specific size, allowing in-depth studi

30 to that in the crystalline state of the free dye, allowing us to isolate and characterize the smalles

31 erior of the spheroid, whereas the dissolved dye alone did not penetrate the BBB.

32 sized a DML for conjugation of a fluorescent dye and (18)F.

33 with different properties and a hydrophobic dye and describe for the first time how these materials

34 ve rhodopsin domains and various fluorescent dye and fluorescent protein reporters.

35 ~3% and ~10% of partitions in intercalating dye and hydrolysis probe dPCR, respectively.

36 y reported DNA sequence that binds a dapoxyl dye and increases its fluorescence ( Kato, T.; Shimada,

37 The dye and pigment manufacturing industry is one of the mos

38 as different impacts dependent upon both the dye and solvent system.

39 Our findings with the 800CW dye and the NE probe highlight the ease of their impleme

40 nts compared a shielded heptamethine cyanine dye (and several peptide and antibody bioconjugates) to

41 o evaluate cytotoxicity by incorporating MTT dye, and genotoxicity was evaluated with the micronuclei

42 nel of pure bacterial strains, a fluorescent dye, and partial least squares (PLS) modeling was develo

43 units and the incorporation of a fluorescent dye/anticocaine aptamer complex into the structure of on

44 ites for photodegradation of Acridine orange dye (AO) was evaluated over visible light illumination.

45 In this regard, the self-assembly of dye-appended DNA sequences into programmed photonic arch

46 lulose materials in food, pharmaceutical and dye applications, using a conventional plate reader in a

47 s low brightness and limited availability of dye/aptamer combinations with different spectral charact

48 lysis, products that use carmine or beetroot dye as a food colorant in their formulations were compar

49 This work demonstrates the utility of indigo dye as a highly versatile scaffold for the synthesis of

50 forming pyrene pair as a donor and sulfo-Cy3 dye as an acceptor, which demonstrated remarkable 75-fol

51 Finally, by using a calcium-binding dye as an indicator, we demonstrate in-droplet cation ex

52 try analysis identified the magenta-coloured dye as magenta III or new fuchsin and the pink-coloured

53 nta III or new fuchsin and the pink-coloured dye as rhodamine B.

54 In particular, with the Ru-dye as visible light photosensitizer, hierarchical Ni(OH

55 This two-dye assay enables the rapid detection of trace Listeria

56 This unprecedented stepwise control of dye assembly via hierarchical dipole-dipole interactions

57 ior, underlining the fact that the choice of dye attachment positions within the polypeptide chain ha

58 A fluorescent dye based on the 8-brominated benzo[4,5]thiazolo[3,2- c]

59 ed by ANEPPS, FluoVolt, and ArcLight voltage dye-based APD90 measurements.

60 Dye-based pancolonic chromoendoscopy is recommended for

61 an malaria and P. falciparum species using a dye-based reaction catalyzed by the biomarker enzymes Pl

62 Dye binding and solid-state NMR studies reveal changes i

63 minescent reporting (BART) or by fluorescent dye binding shows increasing variation in timings betwee

64 oid fibrils and viscous gels validated using dye-binding assays with amyloid-specific probes, congo r

65 When associated, the two strands form a dye-binding site, followed by an increase in fluorescenc

66 g positions at a specific analyte and form a dye-binding site, which is accompanied by up to a 120-fo

67 e potential using the slow voltage-sensitive dye bis-(1,3-diethylthiobarbituric acid)trimethine oxono

68 simulations, we establish that pNPP-induced dye blinking at the ~10-ms timescale is responsible for

69 ulsions containing an oxidizable fluorescent dye, BODIPY(665/676), was blended with a soybean oil-in-

70 per reports the oxidation of Remazol black B dye by employing iron ions catalyst based gas diffusion

71 d by the entry of the impermeant fluorescent dye calcein.

72 out causing significant release of cytosolic dye (calcein) or reduction in cell viability at 24 and 7

73 Up to 84 000 tons of dye can be lost in water, and 90 million tons of water a

74 he colocalized, or dissociated, state of the dye cargo after exposure to human biologic fluids.

75 An organic dye-catalyzed visible light-promoted ketocarbonylation p

76 Gs influencing the effectiveness of acridine dye, cephalosporin, cephamycin, fluoroquinolone, penam,

77 Sudan I is a synthetic-azo dye commonly used to adulterate foods to increase sensor

78 DIPY core can disrupt the electronics of the dye, complicating the design of functional indicators; a

79 Results: The dye composition influenced the photophysical properties

80 y enables voltage imaging with low nanomolar dye concentration and offers a promising method for ally

81 he HSB color space, were proportional to the dye concentration in the analyzed samples.

82 reviously reported the safety of an antibody-dye conjugate (panitumumab-IRDye800CW) as primary outcom

83 he intratumoral distribution of the antibody-dye conjugate in patients.

84 the multiscale distribution of the antibody-dye conjugate, this study demonstrates improved microsco

85 ylated tetramers, reversible Streptamers, or dye-conjugated pMHC multimers are distinct pMHC reagents

86 tion through addition reactions that disrupt dye conjugation.

87 Nile Red is a benzo[a]phenoxazone dye containing a diethylamino substituent at the 9-posit

88 d poor sensitivity of commonly used staining dye 'coomassie brilliant blue' (CBB) towards GMP.

89 Using this J-aggregate-based FRET method, dye-core-polymer-shell nanoparticles showed two release

90 resting current increase with the number of dye-coupled IHCs.

91 This reaction generates a fluorescent dye covalently linked to the receptor while naltrexamine

92 NPs) modified with capture probe 2 and Raman dye (Cy3) via hybridization with the corresponding targe

93 In addition, the near-infrared (NIR) dye Cy5.5 was coupled to the polymer providing live-anim

94 beled with near infrared fluorescence (NIRF) dye, Cy5.5, conjugated dibenzylcyclooctyne (DBCO-Cy5.5)

95 and labeled with a near-infrared fluorescent dye, Cy5.5.

96 In dye-decolorising heme peroxidases (DyPs), controversy ex

97 n should be given to the emerging routes for dye decolorization via the enzymatic action of oxidoredu

98 It suggested cell growth, dye-decolorizing peroxidase (DyP) and reactive oxygen sp

99 Immobilized dye-decolorizing peroxidase from Pseudomonas putida MET9

100 We demonstrate dye degradation under NIR illumination using SrYbF:1 %Tm

101 aluated by quantifying the rate of Congo red dye degradation under visible light irradiation, and the

102 ier with fluorescence-sensitive nearinfrared dye, demonstrate more than two-fold increase in nanodrug

103 We quantify cell-cell permeability based on dye diffusion using mass transport models.

104 ctroscopy, refractive index sensitivity, and dye diffusion was experimentally determined, matching si

105 Using a dye dilution-based T cell cloning method, we generated a

106 One such dye, DiR, is an infrared fluorescent membrane probe that

107 We first use a colorimetric dye-displacement assay to show that the binding spectra

108 port an intramolecular charge transfer (ICT) dye, DMNDC, as an alternative to thioflavin-T (ThT), mos

109 In this context, nanomaterials, particularly dye-doped silica nanoparticles (DDSNPs) are of high inte

110 and are recognizable commercially as a food dye due to non-precarious, non-toxic, non-carcinogenic a

111 opens the door for a more precise control of dye-dye interactions in artificial multichromophoric ens

112 n reporter fluorescence as well as quenching dye-dye interactions on crowded particle surfaces.

113 It is shown that dye emission not only depends upon the in-plane structur

114 se to the characteristic buildup time of the dye emission.

115 gonal reaction with a cell-permeable organic dye enables live cell imaging of microproteins with mini

116 The assay uses dye-encoded antigen-coated beads to quantify the levels

117 label specificity, making removal of excess dye essential.

118 ysis (ACA), was shown using an intercalating dye (EvaGreen), reducing the cost and complexity of the

119 ng profile using an affordable intercalating dye (EvaGreen).

120 40, a common azo dye excipient and a potent inhibitor of OATP2B1, decreas

121 e capable of inactivating the identified azo dye excipients, producing metabolites that no longer inh

122 Using a live cell-based propidium iodide dye exclusion assay and flow cytometry, GB was found to

123 This optimized D-A-D dye exhibits greatly improved quantum yield of organic D

124 ethod was applied to a number of challenging dye extracts from 17th- and 19th-century cultural-herita

125 , importantly, also by sensitive fluorescent dye extravasation and immunohistochemistry.

126 g microscopy, with the dissolved fluorescent dye (FAM-alkyne) as a control.

127 Displacement in z was calculated using dye-filled blood vessels as an anatomical marker, provid

128 equilibrium dynamics of an optically pumped, dye-filled microcavity.

129 to use single-channel current recordings and dye flux assays to confirm transport through the pores.

130 asured by uptake of the membrane-impermeable dye FM4-64.

131 around 97% decolorization of Remazol black-B dye for 50 min by iron ions catalyst based GDC.

132 of the fluorous soluble pentamethine cyanine dye for tracking the localization of perfluorocarbon nan

133 l violet, malachite green, and a fluorescent dye for visual detection.

134 oreover, time-gated FRET imaging with the Ln-dye FRET pairs efficiently suppressed sample autofluores

135 NPs in NDDSs: NP density and size, targeting dye functionality, encapsulated and free drug, surfactan

136 m GNSs surface-functionalized with an IR 808 dye, gold nanorods (GNRs), and gold nanourchins (GNUs),

137 Fluorescent staining with Nile red dye has proven to be effective at distinguishing micropl

138 e supramolecular assembly with a Cy7 cyanine dye (hexamethylindotricarbocyanine) threaded along the a

139 Functional voltage-sensitive dye imaging confirmed GABA circuit function determines c

140 nce problem." Here, we use voltage-sensitive dye imaging in primary visual cortex (V1) of awake monke

141 aneous injection of the nanomaterial and the dye in a flow injection analysis system allows the deter

142 dated by the photophysical properties of the dye in both solution and solid state and supported by th

143 Betanin is the least stable dye in both solvent environments and Red 40 exhibits the

144 microscopy using lifeact-mCherry as an actin dye in different cell types including the podocyte.

145 ility study to identify and quantify Sudan I dye in ketchup samples using colour histograms (obtained

146 ence variation of a pH-dependent fluorescent dye in the electrode vicinity enables reaction visualiza

147 nm in wavelength) fluorescence (by using the dye indocyanine green) for aiding the fluorescence-guide

148 le of the widely used label tdTomato and the dye indocyanine green, we show the importance of correct

149 ze cellular trafficking and to monitor light/dye-induced thrombosis.

150 orrelated with physiologically studied RGCs, dye-injected for morphological analysis.

151 By performing iontophoretic dye injections into the CX, we traced 16 subtypes of neu

152 Intracellular dye injections revealed 43 different types of tangential

153 However, dye instability, aggregation, and poor pharmacokinetics

154 ics of lipid-lipid, lipid-protein, and lipid-dye interactions with single-molecule, nanoscale resolut

155 d tumor-seeking donor-acceptor-donor (D-A-D) dye, IR-FD, is screened for primary/metastatic tumor ima

156 The dye is grafted to a newly developed membrane-targeting m

157 the cysteine-coupled AlexaFluor 680 acceptor dye is observed.

158 A fluorescein dye labeled GO quenches the truncated aptamer by pai-sta

159 FUSIN delivery of near-infrared fluorescent dye-labeled bovine serum albumin (800CW-BSA, used as a m

160 can be observed when the bilayer contains a dye-labeled lipid.

161 t of adding a self-quenched concentration of dye-labeled lipids to the viral membrane, we tether viri

162 mpared to the conventional IHC process using dye-labeled secondary antibodies (which already has a bu

163 , and hair-cell activity as assessed with FM dye labeling and microphonic potentials.

164 ality of hand antisepsis with an ultraviolet dye labelled alcohol-based hand rub, was employed to col

165 dilated, ectatic capillaries and late phase dye leak.

166 retinal vascular nonperfusion, and variable dye leakage from affected vessels and the optic nerve.

167 ncentrations below a synergistic increase of dye leakage from vesicles.

168 model, VAD mice showed remarkable more blue dye leakage than that in VAN mice.

169 All studied samples showed dye levels in conformity with Brazilian regulations.

170 Our data from blue dye liver lymphangiography show preferential lymphatic d

171 lysis approach demonstrates the potential of dye-loaded liquid bandages as a method for skin burn ass

172 Intravenous delivery of DiR dye-loaded nanoparticles confirmed targeting to vascular

173 Single-dye-loaded nanoparticles form J-aggregates because of th

174 Dual-dye-loaded nanoparticles with high dye-loading using FRE

175 Dye-loaded particles demonstrated that intracellular del

176 ation that enables single cell intracellular dye loading and dynamic visualization/quantification of

177 Dye loading experiments showed that mechanical stimulati

178 ticles form J-aggregates because of the high dye-loading (50 wt %), resulting in a large red-shift (~

179 Also, the high-dye-loading nanoparticles (50 wt %) exhibited a slow rel

180 Dual-dye-loaded nanoparticles with high dye-loading using FRET pairs exhibited not only FRET but

181 Efficacy of fluorescent dye localization in the target kidney after intra-arteri

182 u/Asn212Lys double mutant showed the highest dye-mediated dehydrogenase activity with negligible oxid

183 , we developed an enhanced squaraine variant dye (MitoESq-635) to study the dynamic structures of mit

184 enhance the rigidity and conjugation of the dye moieties.

185 NMR measurements of the self-diffusion of a dye molecule (Eosin Y) in a series of polyacrylate netwo

186 labeled in order to avoid having an attached dye molecule impact its interactions with the aptamer.

187 erated which allows intracellular loading of dye molecules and influx of Ca(2+) into single hESCs.

188 those of luminescent sources such as single-dye molecules and quantum dots, without bleaching or bli

189 : the dissolution of the dye aggregates into dye molecules and the release of the dye molecules from

190 es into dye molecules and the release of the dye molecules from the polymer shell.

191 new knowledge on the mechanisms by which the dye molecules interact with the pore-filling medium and

192 belled EVs was detected with luminal binding dye molecules such as 5-(and-6)-carboxyfluorescein diace

193 Lipophilic fluorescent dye molecules such as the PKH family have been widely us

194 which electrons are transferred from reduced dye molecules to intra-bandgap states, and then to I(3)(

195 lowed for the selective encapsulation of two dye molecules, irrespective of the substitution pattern

196 As opposed to lipophilic dye molecules, no significant shift in the size of label

197 dine) offers access to interesting push-pull dye molecules.

198 of more nanoparticles and also of dissolved dye molecules.

199 dicating strong excitonic coupling among the dye molecules.

200 by the intraperitoneal injection of a vital dye, neutral red (NR), into mice before killing.

201 unctionalization strategy for solvatochromic dye Nile Red that improves its photostability is present

202 BPh(4)](3), CrBPh(4)) and an inert reference dye (Nile Red, NR or 5,10,15,20-tetrakis(pentafluorophen

203 adduct signals, regioselectivity for various dye/nucleophile combinations, and suggests use of the Bt

204 e pressure gradient at which the tube leaked dye (opening pressure) and ceased to leak (closing press

205 at one end with an oligo(phenylenevinylene) dye (OPV-Q(n) with n = 4, 7, 17, 24, 33) were acquired a

206 nt assays of an inherently fluorescent guest dye or a black-hole quencher from the receptor's cavity

207 an azide molecule tagged with a fluorescent dye or biotin to the alkyne of the analog, which can the

208 s100 Rather, lineage tracing with lipophilic dye or inducible Sox10-Cre suggests that post-embryonic

209 ectly after or during (real-time monitoring) dye or Ln DNA probe incubation and could efficiently dis

210 aring either a classical electrochromic ANEP dye or state-of-the-art VoltageFluor-type dye respond to

211 rategy for visualized injection of a calcium dye, Oregon Green BAPTA-1 AM (OGB-1 AM), at 500-600 um b

212 igh percentage of lipid exchange (>70%), the dye partition indicates induced-disordered and induced-o

213 The zwitterionic phenolate dye (PhOBtz) displays impressive temperature sensitivity

214 e fibrils were labeled with the pH-sensitive dye pHrodo red and a near infrared fluorophore.

215 cation involving the injection of ink and/or dye pigments into the dermis.

216 and to protect the aquatic environment from dye pollution caused by the textile industry.

217 rategically links a natural substrate with a dye precursor to engage both the cyclooxygenase and pero

218 ion tons of water are attributed annually to dye production and their application, mainly in the text

219 region (ca. 250-720 nm), exhibiting a black dye property as a "metal-free" porphyrinoid.

220 on, as demonstrated by Yariv phenylglycoside dye quantification and comprehensive microarray polymer

221 shing of nonbound conjugates and addition of dye reagents.

222 hermore, surface states significantly affect dye regeneration (with I(-)/I(3)(-) as redox couple) and

223 A new dye regeneration mechanism is proposed in which electron

224 Here, the evolution of a passive dye released within the north wall of the Gulf Stream pr

225 was the best fit adsorption isotherm for the dye removal.

226 EP dye or state-of-the-art VoltageFluor-type dye respond to membrane potential changes in a similar m

227 The intensities ratios of the dye's fluorescence and the analyte-inert red Tm(3+) UCL

228 yl-seryl-seryl (mas(3)) chelate to study the dye's interaction with PSMA's amphipathic entrance funne

229 ic octapeptide labelled with a near-infrared dye selectively binds to phosphorylated Annexin A2 (pANX

230 bulky hydrophobic counterions, which prevent dye self-quenching and ensure efficient energy transfer.

231 Previously, textile dye sensitised solar cells (DSSCs) woven using photovolt

232 erging applications in energy up-conversion, dye sensitization, spintronics, photoredox catalysis, an

233 diators are introduced to metal-free organic dye sensitized photo-electrochemical cells (DSPECs) for

234 toanode features of the photovoltaic cell, a dye sensitized solar cell (DSSC), and better electrocata

235 are ensured by a photovoltaic cell that is a dye sensitized solar cell (DSSC), in which one of the el

236 Dye-sensitized conductive oxides also promote long-lived

237 advances in our mechanistic understanding of dye-sensitized electron transfer reactions occurring at

238 photodetector array that contains an organic-dye-sensitized graphene hybrid composite is reported to

239 Herein, we present the concept of internal dye-sensitized hybrid perovskite compounds involving fiv

240 rtaining to interfacial electron transfer in dye-sensitized metal oxides and the design and mechanism

241 properties of water-splitting assemblies in dye-sensitized photoelectrosynthesis cells is a key to t

242 ect charges into a SnO(2)/FTO electrode in a dye-sensitized solar cell (DSSC) architecture.

243 C) as a cost-effective counter electrode for dye-sensitized solar cells (DSSCs); where M denotes mono

244 eve a better performance of NiO-based p-type dye-sensitized solar cells (p-DSCs), the function of the

245 g diodes, in imaging and sensing systems, in dye-sensitized solar cells and as photocatalysts are pre

246 s push-pull systems for nonlinear optics and dye-sensitized solar cells, DTT polymers in light-emitti

247 Adsorption of FDH on dye-sensitized TiO(2) allows for visible-light-driven CO

248 tes of Ru polypyridyl compounds serve as the dye sensitizers.

249 NA synthesis and DNA sequencing via Illumina dye sequencing, and requires 1-2 h of preparation time,

250 An aqueous dye solution can be incorporated into the cavities durin

251 ture elevation and the subsequent release of dye solutions from the central clip unit to surrounding

252 This unprecedented series of dye stacks from dimer to octamer enabled a systematic st

253 3) beads and the short-lived emission of the dye-stained bacteria with time-resolved fluorescence tec

254 g measurements of hydraulic conductivity and dye staining during drought progression and short-term (

255 sient facial nerve weakness, persistent blue dye staining of the conjunctiva, neck hematoma, and sutu

256 d membrane fluidity assays (FRAP and Laurdan dye staining) we further show that the human ACSL1 poten

257 ombined with nanogold probe (AuNP) or styryl dye (STR).

258 multaneous fluorescent labeling with a green dye (tetramethylrhodamine, TMR) and attachment to microb

259 sted to angularly disperse a mist of colored dye that approximated a patient sneezing on a dimensiona

260 introduced the bis-quinoline (BisQ) cyanine dye that emits light in the red region (605-610 nm) of t

261 Here, we report the synthesis of a novel PDI dye that is encapsulated by four alkylene straps.

262 D) is a strong contact allergen used in hair dye that is known to cause allergic contact dermatitis (

263 For the use of the black-hole indicator dye, the calix[4]pyrrole was modified with a dansyl chro

264 ior is predicted for a four-photon absorbing dye, the herein proposed approach opens the way to use t

265 hen compared with the commercially available dye, the new fluorescent compounds showed far better res

266 oupling between the nanoring and the central dye, thereby explaining the efficient energy transfer an

267 velopment of the first NIR fluorescent rosol dye (THQ-Rosol) tailored to overcome the limitations ari

268 PCE) spectra confirm the contribution of the dye to the overall photocurrent of the solar cell.

269 ent energy transfer from the central cyanine dye to the surrounding zinc porphyrin nanoring.

270 Dye tracer studies at three wells confirmed the impact o

271 asurements, chemical water quality data, and dye tracer tests provide evidence of human fecal contami

272 oot ganglion neurons were double labelled by dye tracers injected into either bladder or prostate.

273 nalog), bentonite particles, and fluorescent dye tracers through the flow path was analyzed.

274 or continuous visualization of intercellular dye transfer and Ca(2+) diffusion in hESC colonies.

275 Using a dye transfer assay, we found that an elevated PCO2 of 55

276 Fluorescent-dye transfer between cells showed that the extent of fun

277 n and hyperactive hemichannels, confirmed by dye transfer, patch clamp, and neurobiotin uptake assays

278 Ectopic Dsg1 expression increased cell-cell dye transfer, which Cx43 silencing inhibited, suggesting

279 might receive pheromonal input, we devised a dye-transfer paradigm and found that large, hydrophobic

280 trands that have low affinity to the dapoxyl dye unless hybridized to abutting positions at a specifi

281 nts have difficulty moving water as shown by dye uptake and movement assays.

282 ator activity at human P2X7 using a YO-PRO-1 dye uptake assay in HEK-293 cells stably expressing the

283 the CANCAN-ES paradigm by measuring YO-PRO-1 dye uptake in CHO-K1 cells which were permeabilized by m

284 ed with retrograde neuronal tracer (DiI) and dye uptake in nodose ganglia was examined.

285 geal lymphangiogenesis (P = .035) and tracer dye uptake in the anterior and middle regions of the cor

286 indocyanine green) is a surgical fluorescent dye used widely for imaging blood flow.

287 aled more uniform distribution of Evans Blue Dye using a double distal injection (DDI) approach compa

288 tion of a commercially available fluorescent dye (via an amine-reactive prosthetic group), and rapid

289 sing near-infrared cyanine voltage-sensitive dye (VSD) imaging, which visualizes membrane potential v

290 Direct photorelease of a hydroxycoumarin dye was demonstrated in living HeLa cells.

291 Aqueous food dye was infused through the cannula from an adjustable h

292 A NIR II emissive dye was synthesized by the C-H bond functionalization of

293 , a feature not observed when the commercial dye was used to carry out the bioimaging experiments.

294 ive biofilm communities for the treatment of dye wastewater.

295 Using a fast voltage-sensitive dye, we have imaged the AP waveform from the presynaptic

296 Using a flavonol-specific dye, we observed that in the tt7-2 mutant, kaempferol ac

297 yfluorescein (CFL) was used as a fluorescent dye while -COOH functionalized multiwall carbon nanotube

298 olves conjugation of a seminaphthorhodafluor dye with a diselenide moiety.

299 ractions between the metalloproteins and the dye with no metal ion dissociation.

300 a and requires the insertion of an exogenous dye with potential adverse side effects.