ライフサイエンスコーパス: two-photon excitation

1 l conditions together with either single- or two-photon excitation.

2 d) fluorescent proteins, using both one- and two-photon excitation.

3 ure, underfilled objective back-aperture, or two-photon excitation.

4 genetically engineered cascades, and direct two-photon excitation.

5 lobus acidocaldarius have been studied using two-photon excitation.

6 vation kinetics, and full responsivity under two-photon excitation.

7 ately 1 microm) were examined under one- and two-photon excitation.

8 geneous or noninvasive clinical sensing with two-photon excitation.

9 and decay times observed for one-photon and two-photon excitation.

10 rned illumination for photobleaching through two-photon excitation.

11 for signal transduction under both one- and two-photon excitation.

12 toluminescence of these dots by using direct two-photon excitation.

13 silica thin bottom chips for one-photon and two-photon excitation.

14 M with a microlens array to enable efficient two-photon excitation.

15 perties in the bulk of these materials using two-photon excitation.

16 ree amyloid types was acquired ex vivo using two-photon excitation.

17 entical results are obtained under nonlinear two-photon excitation.

18 sts higher-order photobleaching pathways for two-photon excitation.

19 and can be monitored with single-wavelength two-photon excitation.

20 t infrared absorption measurements following two-photon excitation.

21 for catalyst release, and responsiveness to two-photon excitation.

22 important functional groups through one- and two-photon excitation (1PE and 2PE, respectively) have p

23 ne-photon excitation approaches, their broad two-photon excitation (2PE) and poorly understood photob

24 nt study investigates the characteristics of two-photon excitation (2PE) in comparison with confocal

25 the release of biological effectors through two-photon excitation (2PE) in tissue culture and whole-

26 pedes the use of the technique in tissue, as two-photon excitation (2PE) is typically required to acc

27 Two-photon excitation (2PE) laser scanning microscopy al

28 Using two-photon excitation (2PE) microscopy of spines during

29 Two-photon excitation (2PE) of "caged" biomolecules repr

30 Two-photon excitation (2PE) offers a solution by allowin

31 circularly polarized luminescence (CPL) via two-photon excitation (2PE).

32 We have used two-photon excitation (720 nm) of retinol fluorescence a

33 as also compatible to near infrared PDT with two photon excitation (800 nm) for extensive bioapplicat

34 d optical electrophysiology recordings using two-photon excitation above 1,100 nm.

35 methodology is based on the mechanism of the two-photon excitation, adiabatic for the GHZ and non-adi

36 Dual-wavelength two-photon excitation allowed largely independent functi

37 le optical labels suitable for both one- and two-photon excitation and also two-photon-excited ultras

38 g near-infrared (NIR) lasers for both pulsed two-photon excitation and continuous wave stimulated emi

39 rradiation, the molecule produces acid after two-photon excitation and initiates the polymerization o

40 hieves near-unity fidelity under single- and two-photon excitation and is scalable to higher photon l

41 we have developed a new microscope based on two-photon excitation and pulsed stimulated emission dep

42 c amyloid fluorescence lifetime probed using two-photon excitation and represented by model-free phas

43 Multi-photon processes (e.g. two-photon excitation and upconversion) using longer wav

44 on of dual-color cross-correlation, imaging, two-photon excitation, and coincidence analysis coupled

45 Confocal imaging along with two photon excitation are used to covalently couple phot

46 for in vitro cell imaging with both one- and two-photon excitations, as already demonstrated in the l

47 ed Ca(2+) indicator, REX-GECO1, with optimal two-photon excitation at <1,000 nm.

48 ce time-resolved fluorescence detection with two-photon excitation at 532 nm for label-free analyte d

49 In the present study, we introduce two-photon excitation at 532 nm for label-free fluoresce

50 Two-photon excitation at 532 nm offers a promising alter

51 the caged IP(3) is inert until activated by two-photon excitation at 720 nm.

52 tected in human plasma and whole blood using two-photon excitation at 730 or 820 nm.

53 One-photon excitation at 376 nm or two-photon excitation at 800 nm cleaves the bond holding

54 to study the energy transfer dynamics with a two-photon excitation at 850 nm.

55 Two-photon excitation at 900 nm was more than 60-fold gr

56 To circumvent this problem, we use two-photon excitation at 920 nm to target GFP-expressing

57 on the square of the laser power, indicating two-photon excitation at shorter wavelengths.

58 odalities, second harmonic generation (SHG); two-photon excitation autofluorescence (2PAF); and Raman

59 n excellent signal-to-noise ratio because of two-photon excitation avoiding interference from the fla

60 Upon two-photon excitation by laser at 815 nm this molecule d

61 rption in the range of interest suitable for two-photon excitation by near-IR femtosecond lasers.

62 we use acute hippocampal slices and combine two-photon excitation Ca(2+) imaging in presynaptic axon

63 se InP-ZnS nanoparticles and their efficient two-photon excitation can be potentially useful for deep

64 Herein, we investigate the two-photon excitation-catalyzed O-ATRP, in which the cat

65 luted, whole blood as a function of pH under two-photon excitation conditions.

66 NC to the Os(II)PP can be established under two-photon excitation conditions.

67 Large two-photon excitation cross sections ( approximately 100

68 absorption coefficients (beta ~75 cm/GW) and two-photon excitation cross-sections (eta(2)sigma(2) ~ 1

69 resolution at Angstrom level, and the use of two-photon excitation enables a broader exploration of F

70 When combined with two-photon excitation, excellent spatial control can be

71 linear optical microscopy techniques such as two-photon excitation fluorescence (TPEF) and second har

72 Colocalization of the SHG signal with two-photon excitation fluorescence (TPEF) from the immun

73 d using MitoTracker and JC-1 staining, while two-photon excitation fluorescence (TPEF) microscopy ena

74 h epi-illumination by simultaneously imaging two-photon excitation fluorescence (TPEF), coherent anti

75 of the human vocal fold lamina propria using two-photon excitation fluorescence (TPEF), second harmon

76 Two-photon excitation fluorescence and second harmonic g

77 )-weighted magnetic resonance and single- or two-photon excitation fluorescence images.

78 Second harmonic generation and two-photon excitation fluorescence imaging as MPM techni

79 ated simultaneous CARS imaging of myelin and two-photon excitation fluorescence imaging of intra- and

80 Two-photon excitation fluorescence imaging provides thin

81 d combining the sectioning capability of the two-photon excitation fluorescence microscope and the pa

82 by exploiting the sectioning capability of a two-photon excitation fluorescence microscope.

83 rforms paired stimulated Raman histology and two-photon excitation fluorescence microscopy (TPEF).

84 Two-photon excitation fluorescence microscopy (TPEFM) pe

85 clamp, iontophoretic glutamate application, two-photon excitation fluorescence microscopy and glutam

86 Two-photon excitation fluorescence microscopy of nest fo

87 s have been investigated by surface tension, two-photon excitation fluorescence microscopy, specular

88 ent structural extracellular matrix (ECM) by two-photon excitation fluorescence optical sectioning (T

89 us nonlinear (second harmonic generation and two-photon excitation fluorescence) imaging and voltage

90 ary phospholipid mixtures visualized through two-photon excitation fluorescent microscopy.

91 allows one to exploit the full potential of two-photon excitation for a sensitive detection.

92 In this study, we used two-photon excitation-Forster resonance energy transfer-

93 With two-photon excitation, FRET can now be extended to in vi

94 Spatial confinement of two-photon excitation gives rise to several advantages o

95 For endomicroscope application, wide-field two-photon excitation has the advantage of requiring no

96 Quantitative two-photon excitation imaging of NAD(P)H autofluorescenc

97 Using two-photon excitation in a conventional microscope offer

98 The intensity-squared dependence of two-photon excitation in laser scanning microscopy restr

99 onstitutes a unique class of eNOS probe with two-photon excitation in the 800-950-nm range, with grea

100 ngers have had very small cross sections for two-photon excitation in the IR region.

101 Two-photon excitation is gaining rapidly in interest and

102 ability to form triplet excited states upon two-photon excitation is important for several applicati

103 In deep-UV non- or less-transparent devices two-photon excitation is mandatory for label-free detect

104 trans cis isomerization following entangled two-photon excitation is simulated using quantum nuclear

105 onversion by the PM-QD hybrid material under two-photon excitation is up to 4.3 times higher than the

106 Two-photon excitation is used to probe the intrinsic flu

107 he square of the Gaussian-Lorentzian PSF for two photon excitation, is explicitly treated.

108 Two-photon excitation laser scanning microscopy (2PLSM),

109 Here we show that two-photon excitation laser scanning microscopy can pene

110 al invasion into axonal arbors, we have used two-photon excitation laser scanning microscopy to direc

111 Third, two-photon excitation markedly reduces overall photoblea

112 The nonlinear nature of two-photon excitation may provide considerable advantage

113 Two-photon excitation measurements on liposomes containi

114 The chemical nature of the two-photon excitation mechanism allows the use of inexpe

115 ara-toluenesulfonic acid through a stepwise, two-photon excitation mechanism.

116 nt wavelengths as a function of power of the two-photon excitation microbeam, we determined the activ

117 Applying two-photon excitation microchip separations and label-fr

118 A video-rate (30 frames/s) scanning two-photon excitation microscope has been successfully t

119 the non-linear optical microscopy techniques Two-Photon Excitation microscopy (TPE) and Second Harmon

120 Visualization by two-photon excitation microscopy (TPEM) demonstrated the

121 Two-photon excitation microscopy (TPEM) has revolutioniz

122 the blastomeres at the two-cell stage using two-photon excitation microscopy (TPEM).

123 Two-photon excitation microscopy can image retinal molec

124 Two-photon excitation microscopy employs ultrafast pulse

125 First second harmonic generation and two-photon excitation microscopy is used to map the micr

126 depth of whole-mounted murine brainstem via two-photon excitation microscopy of Fluoro-Gold labeled

127 microfluidic laminar flow and time-resolved two-photon excitation microscopy to investigate the earl

128 luorescence anisotropy imaging combined with two-photon excitation microscopy to map nanoscale diffus

129 We have used two-photon excitation microscopy to measure and compare

130 Two-photon excitation microscopy was used to image and q

131 Two-photon excitation microscopy with crisp-17 revealed

132 e targeted genetically and imaged by one- or two-photon excitation microscopy, they offer great promi

133 By imaging calcium dynamics with two-photon excitation microscopy, we show that LC11 resp

134 Furthermore, using two-photon excitation microscopy, we show that NMNAT-1 c

135 in vivo, thus allowing imaging by intravital two-photon excitation microscopy.

136 ew aims to provide an overview of the use of two-photon excitation microscopy.

137 his higher-order photobleaching is common in two-photon excitation microscopy.

138 ness and photostability under one-photon and two-photon excitation modes, respectively.

139 sing deep blue fluorescence in both one- and two-photon excitation modes.

140 etime in a CdTe crystal by 10x and show that two-photon excitation more accurately measures the bulk

141 obtain functional images based on selective two-photon excitation of a pH-sensitive chromophore in a

142 Two-photon excitation of an extracellular indicator disp

143 photolysis of atmospheric O(2), followed by two-photon excitation of atomic oxygen.

144 Here we demonstrate two-photon excitation of azobenzene-based protein switch

145 Two-photon excitation of Benz-AP produces fluorescence,

146 mbda1 = 850 and lambda2 = 110 nm for optimal two-photon excitation of blue and red chromophores.'.

147 Two-photon excitation of di-4-aminonaphthenyl-pyridinum-

148 These results suggest that two-photon excitation of dimer and linear trimer is stro

149 r for proteins has been constructed based on two-photon excitation of fluorescence from phenylalanine

150 s we propose a microscopic system which uses two-photon excitation of fluorescence in a volume of abo

151 Using two-photon excitation of fluorescent indicator dyes, we

152 Two-photon excitation of fluorescent proteins is an attr

153 Optimal two-photon excitation of Fluoro-Gold within microscope t

154 Imaging of cellular metabolism by two-photon excitation of NAD(P)H autofluorescence indica

155 ed-state absorption intensities after direct two-photon excitation of the carotenoid S(1) state are r

156 The method employs two-photon excitation of the metabolic intermediate, red

157 Hole injection into the DNA was initiated by two-photon excitation of the Py residue with 355 nm lase

158 he long-lived species formed from the direct two-photon excitation of the S(1) state.

159 Efficient two-photon excitation of these particles and two-photon

160 Two-photon excitation of topotecan was demonstrated by a

161 DNA damage was inflicted by either a two-photon excitation, one-photon excitation microbeam a

162 ge light elicits attractant responses, while two-photon excitation (orange followed by near-UV light)

163 f these indicators is that they have optimal two-photon excitation outside the near-infrared window (

164 For both one- and two-photon excitation, photocatalysis was terminated by

165 ar plot of the fluorescence intensity versus two-photon excitation power increased with a slope of ap

166 al theory (DFT) calculation reveals that the two-photon excitation process reached a higher energy en

167 ical delivery of nitric oxide in single- and two-photon excitation processes.

168 CABL is light-dose dependent, and two-photon excitation promotes CABL at the suborganelle

169 Then, we introduce a dynamic two-photon excitation protocol to simultaneously determi

170 Two-photon excitation provides high spatial resolution i

171 rded by these new VSDs spans 440-670 nm; the two-photon excitation range is 900-1,340 nm.

172 In addition, a two-photon excitation readout system has been developed

173 However, wide-field two-photon excitation requires peak power that is 10(4)-

174 s) in the doped quantum dots, the sequential two-photon excitation requires relatively low excitation

175 of each CO and anticancer drug upon one- and two-photon excitation, respectively.

176 Using two-photon excitation scanning fluorescence imaging, we

177 Results from fluorescence spectroscopy and two-photon excitation scanning microscopy using the memb

178 ernal reflection fluorescence detection, and two-photon excitation second harmonic generation to eval

179 se strategy applied, 11 fold increase in the two photon excitation signal has been demonstrated.

180 hoton counting distributions obtained with a two-photon excitation source agree, within experimental

181 fluctuation correlation spectroscopy with a two-photon excitation source improved this technique so

182 Two-photon excitation spectra are determined for the nap

183 Substantial overlap between the two-photon excitation spectra of the LSS-mKates and blue

184 In particular, we measure two-photon excitation spectra of the photoluminescence i

185 More than 25 two-photon excitation spectra of ultraviolet and visible

186 Here, two-photon excitation spectroscopy bolsters the exciton

187 itonic dark states in single-layer WS2 using two-photon excitation spectroscopy.

188 Herein, we report the two-photon excitation spectrum of Fluoro-Gold between 72

189 We developed a new class of two-photon excitation-stimulated emission depletion (2PE

190 glycerol (restricted environment) following two-photon excitation, suggesting more ordered structure

191 laser pulses optimized to achieve selective two-photon excitation survive as the laser pulses propag

192 With the two-photon excitation, the number of cross-bridges was s

193 Built on spatiotemporally multiplexed two-photon excitation, this approach requires only one d

194 ompletely inhibit tumor growth in mice under two-photon excitation through the synergistic regulation

195 We have advanced a two-photon excitation time-resolved imaging technique, w

196 orescence Correlation Spectroscopy (FCS) and two photon excitation to determine the translational D o

197 junction with structured illumination and/or two-photon excitation to create thinner light sheets (<0

198 We introduce the application of two-photon excitation to scanning FCS and discuss its im

199 been used in conjunction with laser-induced two-photon excitation (TPE) to damage a specific DNA tar

200 iments described here demonstrate the use of two-photon excitation (TPE) to sensitize nitric oxide (N

201 Two-photon excitation (TPE)-based imaging overcomes the

202 xcitation, can also be activated by using IR two-photon excitation (TPE).

203 vel easy-to-use homogeneous method utilizing two-photon excitation (TPX) for quantification of protei

204 e fluorescence intensity distribution in the two-photon excitation volume, a theoretical expression f

205 Two-photon excitation was found to elicit a better deGFP

206 in viable, unsectioned tissue biopsies at a two-photon excitation wavelength of 780 nm.

207 the GaAs substrate and the wetting layer by two-photon excitation, which is accounted for by a model

208 This wavelength is too long for two-photon excitation, which is expected to occur for wa

209 ectra in determining optimal wavelengths for two-photon excitation, while providing additional inform

210 Irradiation with 365 nm light or two-photon excitation with 800 nm light resulted in effi

211 razoles that can be efficiently activated by two-photon excitation with a 700 nm femtosecond pulsed l

212 We used two-photon excitation with a near-infrared (NIR) laser m

213 ndria and monitor mitochondrial Zn(2+) under two-photon excitation with low cytotoxicity.

214 also effectively activate M2 receptors using two-photon excitation with near-infrared light, which ov

215 lutamate receptors in neurons via sensitized two-photon excitation with NIR light.

216 roscopy (TPLSM) hardware, the integration of two-photon excitation with optogenetics has thus far req

217 We demonstrate how two-photon excitation with quantum light can influence e

218 hat CPL-active probes can be activated using two-photon excitation, with complete CPL spectrum recove