ライフサイエンスコーパス: two-photon absorption

1 l properties of the system, for both one and two photon absorption.

2 h power, and therefore cannot originate from two photon absorption.

3 cules that, by themselves, have little or no two-photon absorption.

4 risk of phototoxicity compared to classical two-photon absorption.

5 ketopyrrolopyrrole, causing large changes in two-photon absorption.

6 e is subject to decoherence originating from two-photon absorption.

7 inglet oxygen production capacities and good two-photon absorption.

8 adical photoinitiator that can be excited by two-photon absorption.

9 This process was driven by one- or two-photon absorption (1PA or 2PA) of the endocytosed ph

10 The main focus is placed on two-photon absorption (2PA) and two-photon excited photo

11 The most intensive two-photon absorption (2PA) band in the rhodol spectrum

12 omplete review of the molecules that feature two-photon absorption (2PA) beyond 1100 nm is presented

13 The complexes exhibit very high femtosecond two-photon absorption (2PA) cross section values (sigma(

14 (compounds 7 and 19, respectively) exhibited two-photon absorption (2PA) cross sections of approximat

15 Finally, on the basis of two-photon absorption (2PA) cross sections, the general

16 Very high two-photon absorption (2PA) cross-sections were achieved

17 l oxygen measurements, exhibit extremely low two-photon absorption (2PA) cross-sections, we designed

18 structures have been synthesized, and their two-photon absorption (2PA) properties are reported.

19 An experimental study of the two-photon absorption (2PA) properties has revealed that

20 type derivatives were synthesized and their two-photon absorption (2PA) properties investigated.

21 Here, we investigate the two-photon absorption (2PA) properties of 11 BODIPY phot

22 Their two-photon absorption (2PA) properties were characterize

23 Their two-photon absorption (2PA) properties were studied both

24 ta storage, require precise knowledge of the two-photon absorption (2PA) spectra of target chromophor

25 Two-photon absorption (2PA) spectroscopy provides valuab

26 cence emission, fluorescence anisotropy, and two-photon absorption (2PA), of the new D-A-D compounds

27 heral substitution on triplet emissivity and two-photon absorption (2PA).

28 recent years toward porphyrins with enhanced two-photon absorption (2PA).

29 rs such as Stokes shift, emission color, and two-photon-absorption (2PA) cross section.

30 Using one and two-photon absorption (340-360 nm and 730 nm, respective

31 In silicon, the presence of two photon absorption and accompanying free carriers str

32 ion of picosecond pulses in silicon, despite two photon absorption and free carriers.

33 ous nonlinear optical spectroscopies such as two-photon absorption and electroabsorption in conjuncti

34 mbine two features: (i) aggregation-enhanced two-photon absorption and emission properties of a novel

35 taxane but also give emissive and nonlinear (two-photon absorption and emission) optical properties t

36 constitutes a unique material that exhibits two-photon absorption and near-infrared emission simulta

37 ed dielectric metamaterial, considering both two-photon absorption and photo-induced free-carrier abs

38 onlinear light absorption mechanisms such as two-photon absorption and photon upconversion have been

39 The computations of the two-photon absorption and second harmonic generation cro

40 near optical properties (e.g. dichromism and two-photon absorption) and single molecule conductivity.

41 cal properties were characterized by UV-vis, two-photon absorption, and cathodoluminescence spectrosc

42 fects, linear and nonlinear losses including two-photon absorption, and photon-generated free carrier

43 he transverse plane, which are attributed to two-photon absorption, are in close agreement with our m

44 ies within the API exhibiting strong one and two photon absorption at ~266 nm.

45 by crosslinking photosensitive hydrogels via two-photon absorption at any time during culture.

46 duction in the strength of the lowest-energy two-photon absorption band.

47 Their two-photon absorption bands reach into the NIR-II region

48 , four-wave mixing wavelength conversion and two-photon absorption-based optical-power modulation are

49 The single-shot method for broadband two-photon absorption (BB-2PA) spectroscopy also has sig

50 n in a third regime at higher fluences where two-photon absorption becomes dominant.

51 symmetric quadrupolar molecules designed for two-photon absorption behave as dipolar molecules in the

52 More importantly, the two-photon absorption behavior is 2-3 times greater on a

53 Our theory elucidates how two-photon absorption can account for the stable trappin

54 zothiazole core and imine bridges, excellent two-photon absorption capability in the NIR region can b

55 ird-order response includes a remarkably low two-photon absorption coefficient, which means minimal n

56 Observed two-photon absorption coefficients (beta ~75 cm/GW) and

57 e good two-photon absorbers, exhibiting high two-photon absorption coefficients.

58 In the case of photodynamic therapy (PDT), two-photon absorption combined with active targeting of

59 -PDLLA form micelles that can be loaded with two-photon absorption compound (T1) and photosensitizer

60 The photoacid generator has both a large two-photon absorption cross section (delta = 690 x 10(-5

61 -acceptor-donor structure possessing a large two-photon absorption cross section and one or two mono-

62 In this study, the two-photon absorption cross section of 1(4+) is quantifi

63 rannulene and two thiophene units exhibits a two-photon absorption cross section of 600 GM and two-ph

64 evinyl-SQ offers up to a 10-fold increase in two-photon absorption cross section per chromophore over

65 These reporters feature high two-photon absorption cross section, NIR-II excitation c

66 plasmon band, indicating a plasmon-enhanced two-photon absorption cross section.

67 on with a phenylacetylene unit increases the two-photon absorption cross section.

68 PECN exhibited a very high two-photon absorption cross section.

69 Mito-MPVQ also exhibited large two-photon absorption cross sections (150 GM) at nearly

70 Z-scan technique, revealing relatively high two-photon absorption cross sections of up to 2500 GM at

71 The dyes exhibit relatively high effective two-photon absorption cross sections ranging from 490 to

72 The two-photon absorption cross sections were determined by

73 nts to improve resistance to photobleaching, two-photon absorption cross sections, and fluorescence q

74 ategy for the design of molecules with large two-photon absorption cross sections, delta, was develop

75 mercial lysotracker probes, including higher two-photon absorption cross sections, good fluorescence

76 ence quantum yields, and significantly, high two-photon absorption cross sections, making them well s

77 s and through-space delocalization influence two-photon absorption cross sections.

78 coupled with hypsochromic shifts, and larger two-photon absorption cross sections.

79 led to even greater red-shifts (120 nm) and two-photon absorption cross sections.

80 best "action" cross-sections (product of the two-photon absorption cross-section and fluorescence qua

81 vailable water-soluble organic dyes have low two-photon absorption cross-section and rapid photobleac

82 We observe a steady increase in the two-photon absorption cross-section as the fluorophore e

83 An empirical estimate of CR's two-photon absorption cross-section at lambda = 920 nm i

84 emissive in solution but reveal an excellent two-photon absorption cross-section of >800 GM.

85 Owing to the large two-photon absorption cross-section of the NCs, FRET fro

86 Concomitantly, the two-photon absorption cross-section of TP-2Bzim is drama

87 r aggregation and the magnitude of nonlinear two-photon absorption cross-section remains underexplore

88 Two-photon absorption cross-section values measured in t

89 tion of the pi-electrons, which enhances the two-photon absorption cross-section values of the antiar

90 Large two-photon absorption cross-section values were observed

91 An increase in the two-photon absorption cross-section with an increase in

92 till face several limitations, such as small two-photon absorption cross-section, poor water solubili

93 absorption, time-resolved fluorescence, and two-photon absorption cross-sectional measurements.

94 antial difficulties because of extremely low two-photon absorption cross-sections of conventional pho

95 he two co-crystals possess higher calculated two-photon absorption cross-sections than those of their

96 Semiconductor quantum dots (QDs) have two-photon absorption cross-sections two orders of magni

97 both entangled (sigmaE) and random (deltaE) two-photon absorption cross-sections.

98 silicon nanoparticles with a relatively high two-photon-absorption cross-section and a large emission

99 iciency achieved through operating above the two-photon absorption edge, representing one of the larg

100 at the 1,550 nm wavelength resides above the two-photon absorption edge, while still possessing large

101 Entangled two-photon absorption (ETPA) experiments and two-photon

102 PDC) have been used to investigate entangled two-photon absorption (ETPA) in multiannulene systems.

103 e we report a theoretical study of entangled two-photon absorption (ETPA) in organic chromophores, an

104 Entangled two-photon absorption (ETPA) is known to create photoind

105 ation wavelength dependence of the entangled two-photon absorption (ETPA) process in a molecular syst

106 haracterized using single photon absorption, two-photon absorption, fluorescence emission, and fluore

107 Herein, two-photon absorption fluorescent small bioprobes based

108 cited state S(n) through resonantly enhanced two-photon absorption, followed by rapid internal conver

109 ed, in this article we report extremely high two-photon absorption from aptamer conjugated graphene o

110 Two-photon absorption has received considerable attentio

111 uously confirms the occurrence of the direct two-photon absorption in the dots.

112 ffect, these complexes demonstrate excellent two-photon absorption in the near-infrared region.

113 e visible green-yellow region and reasonable two-photon absorption in the NIR region have been obtain

114 Preliminary measurements of two-photon absorption indicate the derivatives exhibit h

115 by the strong and coupled nonlinearities of two-photon absorption induced Drude electron-hole plasma

116 ure nonlinear excitation intensity dependent two-photon absorption induced exciton photoluminescence

117 We conclude that the two-photon absorption induced PL is highly sensitive to

118 the multiphonon-assisted UPL process and the two-photon absorption induced PL process.

119 vely excited by the process of the entangled two-photon absorption is reported.

120 -resolved in-situ diagnostics of femtosecond two-photon absorption laser-induced fluorescence, cohere

121 tate oxygen atoms in water using femtosecond two-photon absorption laser-induced fluorescence.

122 Using two-photon absorption, many groups and companies have be

123 (D), 5R --> 5R(D)), there is no shift in the two-photon absorption maxima.

124 hromophore, using exclusively one-photon and two-photon absorption measurements.

125 in the NIR region by taking advantage of the two-photon absorption mechanism.

126 ce from a site of steady focal activation by two-photon absorption of 1064 nm light with similar deca

127 e optical probe, whilst maintaining the high two-photon absorption of over 500 GM.

128 ral imaging technique based on nondegenerate two-photon absorption of temporally chirped optical MIR

129 To test the hypothesis that the intrinsic two-photon absorption of the cornea allows blue-IRIS to

130 w that the Wolff rearrangement is induced by two-photon absorption of the terphenyl diazoketone 1, bu

131 As quantum dots, specifically the associated two-photon absorption of the wetting and barrier layers,

132 n additive fabrication process that utilizes two-photon absorption of tightly focused femtosecond las

133 Here we show that two-photon absorption permits sub-surface optical excita

134 therwise unobtainable with use of single- or two-photon absorption photopolymerization.

135 We propose approaches to minimize the two-photon absorption process by tuning the excitation s

136 This view changed when it was shown that a two-photon absorption process could, because of a quadra

137 ctroscopy were used to identify a sequential two-photon absorption process, leading to excitation of

138 ion capabilities, but also in their one- and two-photon absorption profiles.

139 Here we review the two-photon absorption properties of a wide variety of fl

140 The two-photon absorption properties of Au25 cluster has bee

141 ically investigate the aggregation-dependent two-photon absorption properties of the fluorophore TPAP

142 NOS inhibitor, called nanoshutter NS1, with two-photon absorption properties.

143 s of CPs and MOFs, with a closer look at the two-photon absorption property.

144 olecular length to obtain favorable one- and two-photon absorption resonances that lead to suitably l

145 It is found that two-photon absorption signal emerges at an early stage o

146 The Laporte rule dictates that one- and two-photon absorption spectra of inversion-symmetric mol

147 hroME-ST and capitalize on their overlapping two-photon absorption spectra to simultaneously evoke an

148 Here we utilize two-photon absorption spectroscopy to study inversion sy

149 The chromophore exhibits a two-photon absorption spectrum characterized by a peak c

150 Two-photon absorption studies show 2 orders of magnitude

151 electro-chemical etch process that utilizes two-photon absorption to create any arbitrary 3D structu

152 ond linear processes, with many groups using two-photon absorption to print in a truly volumetric fas

153 The computing mechanism of transition from two-photon absorption to synergistic excited states abso

154 at the telecom wavelength region due to the two photon absorption (TPA) and related effects.

155 l investigation is presented to estimate the two photon absorption (TPA) coefficient and the Kerr ref

156 Using classical and entangled two-photon absorption (TPA and ETPA) spectroscopy, femto

157 The open-shell 2-OS also exhibited a large two-photon absorption (TPA) cross section (760 GM at 120

158 Interestingly, we observe an enhanced two-photon absorption (TPA) cross section for single Au2

159 The two-photon absorption (TPA) cross section of Fluor-RSE a

160 Large two-photon absorption (TPA) cross sections (sigma((2)))

161 Taking advantage of the large two-photon absorption (TPA) cross sections of W(CNAr)(6)

162 region (lambdaabs(max) = 804 nm) and a large two-photon absorption (TPA) cross-section (sigma((2))max

163 Two-photon absorption (TPA) cross-section measurements,

164 A relatively large two-photon absorption (TPA) cross-section value of H2TTF

165 silica nanoparticles, which exhibit a large two-photon absorption (TPA) cross-section, high fluoresc

166 The target iBTD-cored dyes display large two-photon absorption (TPA) cross-sections in the near-i

167 nic- and water-soluble distyrylbenzene-based two-photon absorption (TPA) fluorophores containing dial

168 resent a physical discussion of the indirect two-photon absorption (TPA) occuring in silicon carbide

169 pportune chemical modifications, by favoring two-photon absorption (TPA) probability.

170 ationship between molecular architecture and two-photon absorption (TPA) processes in a class of alky

171 The pai-extended dyes show interesting two-photon absorption (TPA) properties, maintaining high

172 les with calf thymus DNA was developed using two-photon absorption (TPA) spectroscopy.

173 strate for the first time an acid-responsive two-photon absorption (TPA) switch based on reversible c

174 Two-photon absorption (TPA) technology has emerged as a

175 ions in photodynamic therapy and bioimaging, two-photon absorption (TPA), the simultaneous absorption

176 f the nonlinear optical loss associated with two-photon absorption (TPA)-induced free carrier absorpt

177 behavior but led to the observation of high two-photon-absorption (TPA) cross sections (ca. 220 GM a

178 We here investigate two-photon-absorption (TPA)-induced photoluminescence of

179 using near-infrared, NIR, and light through two-photon absorption, TPA.

180 two different sites produced via sequential two-photon absorption, using short, intense X-ray pulses

181 ever, the impact of dimensional reduction on two-photon absorption, which is the Kramers-Kronig conju

182 othiazolylfluorene 4 exhibited nondegenerate two-photon absorption, with two-photon absorptivity (del