ライフサイエンスコーパス: ECL

1 ECL after preservation was 4.35% with 3.55% (+/- 5.89%)

2 ECL detectors were fabricated into the ITO-coated top pl

3 ECL efficiencies for radical ion annihilation are 0.004

4 ECL experiments, performed in the presence of 2-(dibutyl

5 ECL from CdS NCs coated on glassy carbon electrode at -1

6 ECL light was initiated from RuBPY in the silica nanopar

7 ECL offers high sensitivities together with the ability

8 ECL was also observed using oxalate as the co-reactant,

9 ECL was observed for all the aforementioned PAHs and BOD

10 d a synthetic peptide based on the claudin-1 ECL-2 offered no protection to Caco-2 cells.

11 ction from CPE was afforded by the claudin-1 ECL-2 peptide.

12 ed the fluorescently labeled GCGR and GLP-1R ECL mutants with labeling yield as high as 68%.

13 d aromatic residues in extracellular loop 2 (ECL-2) for ligand binding and activation in the chemokin

14 ved using either rclaudin-4 or the claudin-4 ECL-2 peptide in both a preincubation assay and a coincu

15 on or coincubation of CPE with the claudin-4 ECL-2 peptide significantly and specifically inhibited t

16 However, the claudin-4 ECL-2 peptide was unable to neutralize cytotoxicity if C

17 These results suggest that claudin-4 ECL-2 peptides should be further investigated for their

18 hetic peptide corresponding to the claudin-4 ECL-2 sequence can similarly inhibit CPE action in vitro

19 n overall wavelength span of 73 (PL) and 67 (ECL) nm, respectively.

20 Additionally, ECL is generated for all compounds by radical ion annihi

21 Although ECL 3 years after Descemet stripping automated endotheli

22 e3O4@SiO2/dendrimers/QDs exhibited amplified ECL emissions (switch "on" state) and with the hybridiza

23 An ECL gel containing ~6.25 wt % Ru(bpy)3Cl2 (relative to [

24 ray, films of DNA, metabolic enzymes, and an ECL metallopolymer or complex assembled in microwells on

25 (+2) on the carbon electrode surface, and an ECL reaction was triggered by tripropylamine (TPrA) to y

26 e complex is excited at the electrode and an ECL signal is produced upon reacting with tripropylamine

27 n systems showed adequate light to record an ECL spectrum.

28 When an ECL luminophore, such as rubrene, is added to the emulsi

29 atically delivers samples, wash buffers, and ECL RuBPY-silica-antibody detection nanoparticles sequen

30 sor cells to produce the coupled G-cells and ECL cells.

31 cluded for the outcomes of complications and ECL.

32 her sensitivity if compared with SPR, CV and ECL, respectively.

33 characterized by making electrochemical and ECL measurements of soluble mixtures of tris(phenanthrol

34 on microscopy, absorbance, fluorescence, and ECL.

35 combination of both sets of data (ICP-MS and ECL) will permit the establishment of the ferritin:Ru st

36 ine-tuning of the photoluminescence (PL) and ECL emission from blue to green, with an overall wavelen

37 ) co-reactant using supercapacitor power and ECL was captured with a CCD camera.

38 e differentiation of serotonin-producing and ECL cells in stomach tissues of NeuroD1-cre;ROSA(tdTom),

39 linking transmembrane helix III (TMIII) and ECL-2 is crucial for chemokine and small molecule action

40 Voltammetric and ECL analyses evidenced that the ruthenium complex is not

41 No characteristic annihilation ECL signal was observed for these compounds in 1:1 MeCN/

42 fect of nitrofuran antibiotics on the anodic ECL of Ru(bpy)3(2+) CdTe-QDs was found to be selective a

43 exes [Ir(C^N)2(LX)] has been investigated as ECL labels under immunoassay conditions.

44 ation of bright emitters that can be used as ECL labels.

45 duced by potential steps exhibits asymmetric ECL transients in which the cathodic ECL pulse is smalle

46 70 DMEK eyes had 6-month ECL data available: ECL was 25.9+/-14.0% after DSAEK and 27.9+/-16.0% after

47 This background ECL emission is attributed to the reaction between disso

48 This near-infrared quantum dot based ECL sensor displayed a linear response over the range 3.

49 n of a streptavidin-modified ruthenium-based ECL label via reaction with a suitable biotinylated seco

50 minus and what previously was believed to be ECL-3.

51 ar loop (ECL) positions for primary binding, ECL residues mediate secondary binding and arrestin recr

52 fficient and causes an intense greenish-blue ECL emission, easily observable even by naked eye, with

53 found to coincide with other markers of both ECL cells and mast cells.

54 n (FCCD), the PMT-based detection of the BPE-ECL aptasensor exhibit a linear response over a wide dyn

55 Furthermore, the BPE-ECL aptasensor was successfully used to detect AFM1 in m

56 Here, we show how a bulk ECL signal, generated by thousands of carbon microbeads

57 oncept of dual biosensing based on this bulk ECL method for the simultaneous imaging of both enzymati

58 CL) of human NHE1 (huNHE1) and chNHE1 and by ECL replacement with a hemagglutinin (HA) tag.

59 GADA not detectable by ECL assay is shown to be of low affinity and likely not

60 These adducts are detected by ECL from a RuPVP polymer that uses DNA as a coreactant.

61 esulting 8-oxodG was detected selectively by ECL-generating bis(2,2'-bipyridine)-(4-(1,10-phenanthrol

62 s have shown a strong and efficient cathodic ECL signal with K(2)S(2)O(8) as coreactant on the glassy

63 mmetric ECL transients in which the cathodic ECL pulse is smaller than the anodic pulse due to the in

64 The electroassisted chemiluminescence (ECL) protocol offered the limit of detection (LOD) as lo

65 , and of electrogenerated chemiluminescence (ECL) as a readout method has proven to be a valuable str

66 nt-based electrogenerated chemiluminescence (ECL) as a surface-confined microscopy to image single ce

67 TP) with electrogenerated chemiluminescence (ECL) at a glassy carbon electrode in water-acetonitrile

68 ckground electrogenerated chemiluminescence (ECL) emission observed only upon electrochemical oxidati

69 opy, and electrogenerated chemiluminescence (ECL) from a solution, film, and nanoparticles (NPs) of a

70 anism of electrogenerated chemiluminescence (ECL) in a family of core-shell silica-PEG nanoparticles

71 study of electrogenerated chemiluminescence (ECL) in the radical annihilation mode.

72 produce electrogenerated chemiluminescence (ECL) in water using a family of highly hydrophobic polyc

73 Strong electrogenerated chemiluminescence (ECL) is detected from dithiolate Au nanoclusters (AuNCs)

74 well as electrogenerated chemiluminescence (ECL) of a series of donor-pi-donor derivatives bearing t

75 opy, and electrogenerated chemiluminescence (ECL) of a series of pi-stacked poly(fluorenemethylene) o

76 opy, and electrogenerated chemiluminescence (ECL) of a variety of 2- and 4-fold anthracene-functional

77 try, and electrogenerated chemiluminescence (ECL) of BB3 and BB4 are compared with those previously r

78 ance the electrogenerated chemiluminescence (ECL) of the tris(2,2'-bipyridyl)ruthenium(II) (Ru(bpy)3(

79 stry and electrogenerated chemiluminescence (ECL) of three phenanthrene derivatives, 3,6-diphenyl-9,1

80 ed (NIR) electrogenerated chemiluminescence (ECL) of water-dispersed Ag(2)Se quantum dots (QDs) with

81 ed on an electrogenerated chemiluminescence (ECL) readout, using membrane-templated gold nanoelectrod

82 dox, and electrogenerated chemiluminescence (ECL) responses.

83 o obtain electrogenerated chemiluminescence (ECL), the combination of both sets of data (ICP-MS and E

84 a novel electrogenerated chemiluminescence (ECL)-based immunoassay for ultrasensitive and specific d

85 ors with electrogenerated chemiluminescence (ECL).

86 rves) and electrogenerated chemiluminescent (ECL) transients in an oil/water emulsion.

87 ataract surgical techniques cause comparable ECL to that of conventional phacoemulsification.

88 However, results at 6 months show comparable ECL between the two techniques.

89 e-based explosive) was realized by comparing ECL responses obtained from the anodic and the cathodic

90 ented as a powerful tool for the concomitant ECL sensing and imaging of two enzymatic substrates.

91 The presented surface-confined ECL microscopy should find promising applications in ult

92 rylamine and bromo groups imparting constant ECL intensity over more than 60 cycles.

93 dical intermediates involved in conventional ECL generation pathway.

94 distance 100 A), and Erythrina cristagalli (ECL) (shortest distance 100 A).

95 anocrystal (NC) and luminol as two different ECL emitters are employed.

96 printed disposable electrodes for the direct ECL imaging of a labeled plasma receptor overexpressed o

97 We propose that DMF-ECL represents a valuable new tool in the microfluidics

98 aluable indications to design more efficient ECL nano- and microsized labels for ultrasensitive bioan

99 Electrochemiluminescence (ECL) has been widely rendered for nucleic acid testing.

100 Electrochemiluminescence (ECL) is a sensitive analytical technique with great prom

101 ectrochemistry and electrochemiluminescence (ECL) of a series of compounds formed of two triphenylami

102 echniques, such as electrochemiluminescence (ECL), are promising tools for this area of analysis.

103 apid luminol-based electrochemiluminescence (ECL) technique for Sus scrofa (Porcine) DNA detection.

104 a newly developed electrochemiluminescence (ECL)-GAD antibody (GADA) assay and compare its sensitivi

105 e first example of electrochemiluminescence (ECL) of Pt(II) complexes in aqueous solution having high

106 vel dual-potential electrochemiluminescence (ECL) ratiometric sensing approach.

107 A sensitive electrochemiluminescence (ECL) aptasensor for aflatoxin M1 (AFM1) detection by a c

108 ltrahigh sensitive electrochemiluminescence (ECL) immunosensor based on Ru(bpy)3(2+)doped silica dope

109 dSe), and a strong electrochemiluminescence (ECL) signal was obtained.

110 an ultrasensitive electrochemiluminescence (ECL) aptasensing assay for selective detection of Hg(2+)

111 lex ultrasensitive electrochemiluminescence (ECL) immunoassay was developed for the simultaneous dete

112 An ultrasensitive electrochemiluminescence (ECL) immunosensor was constructed to detect 3,3',5-triio

113 ulin G (IgG) using electrochemiluminescence (ECL) are described.

114 We observed weak electrochemiluminescence (ECL) from annihilation of these thienyltriazole radicals

115 , a novel wireless electrochemiluminescence (ECL) DNA array is introduced for the visualized genotypi

116 w-voltage, flexible electrochemiluminescent (ECL) devices using patterned ion gels containing redox-a

117 rence electrode for electrochemiluminescent (ECL) measurements.

118 we describe a novel electrochemiluminescent (ECL) microwell array that produces metabolites from test

119 ercapacitor-powered electrochemiluminescent (ECL) protein immunoarray fabricated by an inexpensive 3-

120 rubrene system showed that the pre-emission ECL signal also appeared slightly red-shifted with respe

121 excellent conductivity, Ag@fGO could enhance ECL signal significantly in the system.

122 This is the first time that enhanced ECL has been achieved in ion gels (or ionic liquids) usi

123 The enhanced ECL efficiency also benefits uniquely from the multiple

124 s in the microgels resulting in the enhanced ECL emission.

125 ective pores by the interaction of the first ECL 1 with permeating ions.

126 FL ECL may be a predictable alternative approach for the tr

127 nstrate that, by contrast with fluorescence, ECL emission is only detected from fluorophores located

128 was believed to be the key intermediate for ECL production, and its stability was strongly dependent

129 (GADA only) by radioassay were positive for ECL-GADA.

130 is type of molecular system as promising for ECL applications.

131 the three-electrode cell is responsible for ECL generation and placed in a detection solution contai

132 e, in a reciprocal way, this histamine (from ECL cells), stimulates the G-cells to produce and secret

133 ith the low background signals obtained from ECL detection to clearly identify and quantify dopamine

134 f chNHE1 (chECL1) is the critical functional ECL that interacts directly with ALV-J gp85; ECL3 is als

135 uently added to luminol solution for further ECL analysis for quantification.

136 tripropyl amine (TPA) as coreactant generate ECL at an applied voltage of + 1.2V (vs Ag/AgCl) in two

137 However, ECL is intrinsically a 2D process which could potentiall

138 g exclusively charge transfer emission as in ECL.

139 a platinum electrode is a limiting factor in ECL analytical techniques and is poorly understood.

140 find that two distinct aromatic residues in ECL-2, Tyr(184) (Cys + 1) and Tyr(187) (Cys + 4), are cr

141 1-4 was observed as seen by the red-shift in ECL maxima relative to their corresponding photoluminesc

142 the molecules was noticed in PL, whereas in ECL only charge transfer emission was observed over a va

143 nd that cross-linking of cysteines placed in ECLs 1 and 4 inhibits activity.

144 ustable intraocular lenses does not increase ECL.

145 It was found that the induced ECL from the Ru(bpy)3(2+) CdTe-QDs system was inhibited

146 t the surface of the nanoelectrodes; instead ECL is generated following the TPrA oxidation, which pro

147 The LAMP-ECL sensor is shown to be highly specific, sensitive (>/

148 ovel self-referencing external cavity laser (ECL) biosensor approach that achieves high resolution an

149 glutination by Erythrina cristagalli lectin (ECL).

150 ve flapless (FL) esthetic crown lengthening (ECL) for the treatment of EGD.

151 ies demonstrate either no difference or less ECL with FLACS than with standard phacoemulsification 1-

152 Studies show either similar results or less ECL with the use of the newer viscous-dispersives when c

153 rotonin-secreting and enterochromaffin-like (ECL) cells from the stomach and to clarify their cellula

154 , and histamine, from enterochromaffin-like (ECL) cells, are two of the hormones that regulate gastri

155 that the putative fourth extracellular loop (ECL 4) is intracellular and may contain a Ca2+ binding s

156 ssess involvement of the extracellular loop (ECL) 2 in ligand-receptor interactions and receptor acti

157 very position along each extracellular loop (ECL) and adjacent parts of transmembrane (TM) segments.

158 CKR3 N terminus and some extracellular loop (ECL) positions for primary binding, ECL residues mediate

159 embrane (TM) helix 3 and extracellular loop (ECL)-2, chemokine receptors (CCR) contain a disulfide br

160 cellular loop domains, with the second loop (ECL-2) being slightly smaller than the first.

161 eated by exchanging the extracellular loops (ECL) of human NHE1 (huNHE1) and chNHE1 and by ECL replac

162 ard-facing (NBDs apart, extracellular loops (ECLs) close together) and the closed outward-facing (NBD

163 ion within the receptor extracellular loops (ECLs).

164 A, and the percent of endothelial cell loss (ECL) recorded at 6 months were compared with the Student

165 Endothelial cell loss (ECL) was comparable from 4 to 13 days' PT (n = 878; 36%-

166 ome degree of corneal endothelial cell loss (ECL).

167 -one DSAEK eyes and 70 DMEK eyes had 6-month ECL data available: ECL was 25.9+/-14.0% after DSAEK and

168 etter visual recovery and comparable 6-month ECL.

169 In conclusion, the new ECL assay identifies disease-relevant GADA by radioassay

170 For the first time, NIR-ECL emission was observed in both annihilation and corea

171 No ECL emission was observed when the same solution was dea

172 Neither serotonin-secreting nor ECL cells of the corpus arose from cells expressing Neur

173 an annihilation reaction, while film and NP ECL could be generated in water through oxidation with a

174 ant potential at the Pt surface and observed ECL spectra with an emission band at 630 nm, which is ch

175 Gene expression analysis of ECL cells indicated that they are endocrine cells of epi

176 RNA sequencing analysis of ECL cells revealed high expression levels of many genes

177 We also performed RNA sequencing analysis of ECL cells.

178 genotyping of different SNPs on the basis of ECL of luminol/hydrogen peroxide system on a bipolar ele

179 the gastrin would stimulate cell division of ECL cells while histamine would stimulate that of G-cell

180 Ds could be a promising candidate emitter of ECL biosensors in the future due to their fantastic feat

181 g of ECL from CdS NCs and the enhancement of ECL from luminol could indicate the same biological bind

182 The features of ECL intensity responsive to electrode potential and solu

183 ns, whereas in CCR1 the preserved folding of ECL-2 is necessary for activation.

184 by annihilation, except for an increasing of ECL intensity for all compounds.

185 Here, we report the first integration of ECL with digital microfluidics (DMF).

186 exes, which were subjected to measurement of ECL intensity after further magnetic beads separation.

187 immunoassay formats; the basic mechanisms of ECL detection, main features of early and ongoing approa

188 oreactant, showed two parallel mechanisms of ECL generation: one mechanism (I) which involves exclusi

189 lystyrene beads (PSB) with a large number of ECL labels and conjugated them with anti-ZIKV monoclonal

190 Thus, the quenching of ECL from CdS NCs and the enhancement of ECL from luminol

191 By measuring the ratio of ECL intensities at two excitation potentials, this appro

192 es of BPE and the high visual sensitivity of ECL, it could be easily expected to achieve sensitive sc

193 resolved over the three-dimensional space of ECL intensity versus applied potential and emission wave

194 The stability of ECL proved to depend largely on the nature of the substi

195 ground state plays a key role in giving off ECL at 893 nm, while intermediate, strong, and weak NIR-

196 greater with longer PT, the effect of PT on ECL is comparable from 4 to 13 days' PT.

197 tential scanning only, whereas HMTD produced ECL upon both cathodic and anodic potential scanning.

198 e cathodic potential scanning; TATP produced ECL upon cathodic potential scanning only, whereas HMTD

199 ia UV irradiation or acid treatment produced ECL emissions upon cathodic potential scanning.

200 onditions make Au-LA-DEDA clusters promising ECL reagents for broad applications.

201 The proposed ECL aptasensor showed high selectivity for Hg(2+) determ

202 The proposed ECL immunosensor can provide a simple, sensitive and rel

203 In addition, the proposed ECL method was successfully applied to detect the total

204 The immunosensor provides ECL signals which scale with anti-tTG concentration with

205 Contralateral quadrants received ECL using OF or FL techniques.

206 Femtosecond laser-assistance may reduce ECL, but likely only in the early postoperative period.

207 potential of 0.78 V for oxidative-reduction ECL generation.

208 Using the self-referencing ECL biosensor, we demonstrate detection of binding betwe

209 porated into the extracellular loop regions (ECLs) of GCGR and GLP-1R, two members of class B G prote

210 Resulting ECL light was measured by a CCD camera.

211 AgNPs detach from the aptamer; the resulting ECL of luminol and H2O2 at the anodic poles is monitored

212 For the first time, reversible ECL enhancement is demonstrated in stimuli-responsive 10

213 otographic RGB channels is constant, the RGB ECL intensity versus applied-potential curves could be e

214 [SD] ECD, 1620 [673] cells/mm2 and mean [SD] ECL, 41% [23%]) and 209 eyes in the 8-14d PT group (mean

215 [SD] ECD, 1537 [683] cells/mm2 and mean [SD] ECL, 44% [23%]) (mean difference, 112 cells/mm2; 95% CI,

216 The second ECL signal showed the expected steady-state behavior fro

217 PrA) solution generates an intense and sharp ECL signal, suitable for analytical purposes.

218 lica spheres in order to produce significant ECL enhancement in the presence of sodium oxalate as co-

219 ial microincision surgery, result in similar ECL rates to that of standard phacoemulsification.

220 de a global chemical view through one single ECL image of inhomogeneous samples such as a biochemical

221 Solution ECL was generated in DCM through an annihilation reactio

222 o- and electrochemical initiation and stable ECL emission in aqueous medium.

223 Strong ECL was also generated from the organic NPs in water by

224 l peroxide (BPO), BB3 and BB4 exhibit strong ECL and produce spectra that are very similar to their c

225 a in solution and the 1a film produce strong ECL (I(film) = 0.14I(solution)).

226 They produce very strong ECL with emission at 480 nm, near that of the photolumin

227 These molecules can produce a stronger ECL, which can be observed by the naked eye in a lighted

228 Overall, the results indicate that ECL ion gels are attractive multifunctional materials fo

229 The ECL devices consisted only of a 30 mum thick emissive ge

230 The ECL emission signal was investigated and the extreme enh

231 The ECL fluorophore was linked to an antibody and enabled to

232 The ECL in near-IR region (beyond 700 nm) is highly advantag

233 The ECL properties were investigated by direct annihilation

234 The ECL signal obtained under annihilation conditions, howev

235 The ECL signal of Ag(2)Se QDs can also be used for the detec

236 The ECL spectra obtained by a coreactant approach using benz

237 The ECL spectra show one single band that almost matches the

238 The ECL spectrum exhibited a peak at 695 nm, consistent with

239 The ECL spectrum of 1a in solution, produced by electron-tra

240 The ECL-GADA assay had a sensitivity similar to that of the

241 In addition, the ECL emission is obtained by applying a potential of 0.88

242 m oxidation at the electrode surface and the ECL blips from the follow-up ECL reaction, which produce

243 It is proposed that the G-cells and the ECL cells are coupled by the couplet molecules gastrin a

244 aP, and 0.25 for TpyP, respectively, and the ECL efficiency increases with the conjugation of the sub

245 in DCM on fluorine-doped tin oxide, and the ECL of the 1a film was found in phosphate-buffered salin

246 mpounds by radical ion annihilation, and the ECL spectrum shows good agreement with the fluorescence

247 nder steady-state conditions, as well as the ECL profiles when carrying out cyclic voltammetry (CV) a

248 to ECL; good agreement was found between the ECL approach curve emission profile and the simulated re

249 tion shows a linear relationship between the ECL image gray value and the logarithmic concentration o

250 ld be considered the pathway followed by the ECL process in these molecules.

251 nsidered the favored pathway followed by the ECL process in these molecules.

252 ., polyester) simply by solution-casting the ECL gel and brush-painting a top Ag electrode.

253 mersed in antibody-AuNPs-HRP composites, the ECL signal greatly decreased, which was ascribed to the

254 esence of enzyme, effectively decreasing the ECL intensity from the quantum dots.

255 In the CV mode at fixed distance, the ECL emission of rubrene showed two distinct signals at d

256 pooling spectroscopy was employed during the ECL evolution and devolution processes along with explic

257 I has an intrinsically lower efficiency, the ECL emission intensity was also found to grow linearly w

258 A novel mechanism to drastically enhance the ECL is established by covalent attachment of coreactants

259 ADH) and H2O2) acting as coreactants for the ECL emission of different luminophores ([Ru(bpy)3](2+) a

260 avelength than the singlet emission from the ECL luminophore.

261 abels, so that they efficiently generate the ECL signal.

262 tial at the working electrode, and hence the ECL output, when a constant-potential pulse is applied b

263 However, the ECL of F6 in the presence of the coreactant C(2)O(4)(2-)

264 to study the potential of Ag(2)Se QDs in the ECL analytical application.

265 re, we attributed the observed change in the ECL generation mechanism along the DDSN series to a modu

266 the radical cationic species involved in the ECL generation.

267 mposites led to a remarkable increase in the ECL intensity and, thus, the sensitivity of the method.

268 d to an antibody and enabled to localize the ECL generation on the cancer cell membrane in close prox

269 the solution of Ru(bpy)3(2+) to magnify the ECL signal.

270 Moreover, the ECL immunosensor was successfully applied for quantifica

271 A linear response of the ECL intensity to the logarithmic potassium concentration

272 estigated and the extreme enhancement of the ECL intensity was achieved due to the energy transfer by

273 oelectrodes in the immediate vicinity of the ECL labels, so that they efficiently generate the ECL si

274 -stranded DNA(dsDNA) and the recovery of the ECL signal of QDs (second signal switch "on" state).

275 LAMP with inherently high sensitivity of the ECL technique, to facilitate the detection of low quanti

276 des, d, and the annihilation kinetics on the ECL light emission profiles under steady-state condition

277 d with complementary aptamer (AuNPs-S2), the ECL of QDs nanocomposites was efficiently quenched (swit

278 al samples such as whole blood, and show the ECL detection of dopamine in whole blood for the first t

279 dization of M-L-PtNPs to mismatch sites, the ECL of luminol is followed using a photomultiplier tube

280 The gastrin (from G-cells) stimulates the ECL cells to produce and secrete histamine while, in a r

281 In the present study, the ECL emission from rubrene and [Ru(bpy)(3)](2+) was used

282 he results we report therefore show that the ECL intensity of a nanosized system cannot be merely inc

283 eted for the limited antibody, and thus, the ECL intensity was linearly dependent on the logarithm of

284 red-shifted from its fluorescence, while the ECL spectrum of 1a film produced by reaction with TPrA c

285 no particles (Si NP) functionalized with the ECL luminophore [Ru(bpy)(2)PICH(2)](2+)], and IgG labell

286 These ECL approach curves provide an additional channel to des

287 CPE has been shown to bind to ECL-2 in receptor claudins.

288 describe the reaction kinetics that lead to ECL; good agreement was found between the ECL approach c

289 ry, a factor known to be directly related to ECL.

290 closed outward-facing (NBDs close together, ECLs apart) conformations.

291 chemiluminescence resonance energy transfer (ECL-RET) approach, Fe3O4@SiO2/dendrimers/QDs exhibited a

292 is intrinsically associated with the unique ECL mechanism and is rationalized by considering the lim

293 surface and the ECL blips from the follow-up ECL reaction, which produces light.

294 gies, making their population accessible via ECL pathways and leading to the generation of the lumine

295 actant C(2)O(4)(2-) showed a long-wavelength ECL emission that was proposed to be electrolyzed byprod

296 entration dependence of this long-wavelength ECL signal is not indicative of emission from an excimer

297 ifluorene derivative (compound 3) shows weak ECL obtained by a direct annihilation mechanism.

298 g/AgCl, which is about 0.3 V lower than when ECL is initiated by the electrochemical oxidation of Ru(

299 cation of the immobilized biomolecules where ECL is finally emitted.

300 (NPs) via a biological binding event, while ECL from luminol at +0.45 V (vs SCE) could be enhanced b

301 ediated isothermal amplification (LAMP) with ECL technique for DNA detection and quantification.