ライフサイエンスコーパス: photophysics

1 have potentially interesting fullerene-like photophysics.

2 ameters, chemical kinetics, and fluorescence photophysics.

3 for concentration, mobility, chemistry, and photophysics.

4 rid perovskites, especially those related to photophysics.

5 The chromophores also have favorable photophysics.

6 olubilizing groups to optimize excited-state photophysics.

7 s, and analyze how the solvent modulates the photophysics.

8 interest and significance in their anomalous photophysics.

9 hich probably plays an important role in the photophysics.

10 ects on molecular reactivity and chromophore photophysics.

11 what is commonly observed in condensed phase photophysics.

12 e interpreted on the basis of intramolecular photophysics.

13 a careful analysis of contributions from dye photophysics.

14 re other models for dissolved organic matter photophysics.

15 r environmental influences on intrinsic 2-AP photophysics.

16 gned to test the rotamer model of tryptophan photophysics.

17 used as molecular models to investigate the photophysics and chemistry of aqueous electrolyte soluti

18 The electrochemistry, photophysics and ECL of Ru(bpy)3(2+) in the presence of

19 view is arranged by catalyst class where the photophysics and electrochemical characteristics of each

20 An overview of the basic photophysics and electron transfer theory is presented i

21 re-evaluation of current theories of polyene photophysics and highlights the robustness of carotenoid

22 statistics being independent of the detailed photophysics and its parameters being transferable, the

23 These data show that (i) coupled oscillator photophysics and metal-mediated cross-coupling can be ex

24 The photophysics and morphology of thin films of N,N-bis(2,6

25 The photophysics and photochemistry of DNA is of great impor

26 Here, we review the photophysics and photochemistry of organic fluorophores

27 ways in which a better understanding of the photophysics and photochemistry of sunscreen molecules s

28 The photophysics and photochemistry of these hairpins were i

29 ped holes have profound consequences for the photophysics and photochemistry of these materials.

30 tation and host-guest interactions; (iv) the photophysics and photochemistry that lead to photochromi

31 nd detailed analyses incorporating molecular photophysics and semiconductor density of states measure

32 l suited for investigations of the intrinsic photophysics and spectroscopy of organic-inorganic metal

33 In this Article, the photophysics and the dynamics of an efficient SPP-mediat

34 nits to the aniline nitrogens influenced the photophysics and the sensory responses of the XFs, as th

35 stimulus-dependent changes in intrinsic 2-AP photophysics and/or interactions with adjacent residues.

36 The synthesis, photophysics, and biochemical utility of a fluorescent N

37 of instrumentation, sample preparation, and photophysics, and describe major evolving strategies for

38 The electrochemistry, photophysics, and ECL of Ru(bpy)3(2+) in the presence of

39 The synthesis, characterization, photophysics, and oxygen sensing properties are examined

40 and emission spectra, electrochemistry, and photophysics are described.

41 also has a pronounced effect on the observed photophysics, as introduction of electron-releasing aryl

42 ansmitters in terms of molecular energetics, photophysics, binding affinity, stability, and energy of

43 phores, demonstrating how coupled oscillator photophysics can yield organic photovoltaic device (OPV)

44 These inorganic emitters, which exhibit rich photophysics combined with a high phosphorescence quantu

45 cribe the synthesis, computational analysis, photophysics, electrochemistry and electrochemiluminesce

46 In this work, the basic photophysics, electrochemistry, and electrogenerated che

47 nergy transfer is utilized to engineer donor photophysics for facile signal amplification and selecti

48 e amino group twisting ability in the BODIPY photophysics for nonsterically hindered and constrained

49 ography (qPAINT), works independently of dye photophysics for robust counting with high precision and

50 lassic excited-state singlet and triplet PZn photophysics for the A(His):B(Thr):(DPP)Zn protein (k(fl

51 The photophysics have been elucidated by intensity-dependent

52 lexes of Ru(ii) and Ir(iii), compounds whose photophysics have been studied for decades within the in

53 ds based on single-molecule localization and photophysics have brought nanoscale imaging with visible

54 manifestations of interesting chemistry and photophysics in N-heterocyclic coordination compounds of

55 To characterize 2AP photophysics in the context of a DNA strand, time-depend

56 sient absorption spectroscopy to investigate photophysics in these molecules, we find that homoconjug

57 Finally, the advantageous photophysics is complemented by a significant photostabi

58 material bandgap without altering ultrafast photophysics is reported.

59 investigate the effect of aggregation on the photophysics of 1,4-diethynylbenzenes, we analyzed the a

60 omolecular structure based on the changes in photophysics of a chromophore upon dimer formation.

61 nce spectroscopies, we have investigated the photophysics of a series of carbon nitrides on time scal

62 synthesis, structures, electrochemistry, and photophysics of a series of facial (fac) and meridional

63 rovides mechanistic insight into the complex photophysics of Anthozoan PCFPs and will facilitate futu

64 A key element and enduring mystery in the photophysics of azobenzenes, central to all such applica

65 rick base pair is an inadequate model of the photophysics of B-DNA.

66 The photophysics of both the sodium salts and the ethyl este

67 well suited as a testbed for studies of the photophysics of carbon-based nanoscopic emitters.

68 These results suggest that the photophysics of CH3NH3SnI3 perovskite are as favorable a

69 dition to detailing a process central to the photophysics of Cr(III), these results reinforce the not

70 The photophysics of dialkylamino- and/or pyridine-containing

71 materials and highlights new aspects in the photophysics of donor-acceptor small molecules when comp

72 The results show the complex photophysics of efficient TADF materials and give clear

73 understanding and ultimately controlling the photophysics of energy flow in CNT-based devices.

74 However, to date, the photophysics of excitons in carbon nanotubes is largely

75 The photophysics of flavins is highly dependent on their env

76 We also provide an overview of the photophysics of fluorescent proteins, highlighting the i

77 ibution (i.e., the lattice constant) and the photophysics of fluorophores (i.e., critical radius of t

78 In addition, the role of W57 in the photophysics of GFP has been probed by mutating this res

79 w us to systematically unravel the ultrafast photophysics of molecular dyads and triads in surface ar

80 exploited for tuning the photochemistry and photophysics of organic chromophores.

81 comparison of the efficiency, stability, and photophysics of organic solar cells employing poly[(5,6-

82 We explore the photophysics of P(NDI2OD-T2), a high-mobility and air-st

83 Although the photophysics of QDs has been intensely studied, much les

84 Here, the photophysics of red fluorescent protein (dsRed) from dis

85 The effect of a methanesulfinyl group on the photophysics of several aromatic chromophores is reporte

86 ress in characterizing and understanding the photophysics of single molecules in condensed matter, mo

87 ring analysis that leverages on the blinking photophysics of specific organic dyes showed that the ma

88 onic structure theory is used to analyze the photophysics of sulfur-bridged terthiophene dimers.

89 ically coupled mechanism describes the basic photophysics of TADF.

90 n important role in the electrochemistry and photophysics of the complexes.

91 The photophysics of the cruciforms was investigated upon add

92 important temperature-related changes in the photophysics of the dyes that have been largely ignored.

93 the kinetic rates that govern the stochastic photophysics of the fluorophores to improve the predicti

94 , the inclusion of these dopants affects the photophysics of the host in a surprising way, generating

95 does not have a substantial influence on the photophysics of the materials.

96 Photophysics of the MLCT excited-state of [Ru(bpy)(tpy)(

97 We start with an overview of the photophysics of the nucleobases in the gas phase and in

98 ) from 6 to 900 has been synthesized and the photophysics of the series and monomer cyanine dye have

99 um yields were measured as well to probe the photophysics of the system.

100 Knowing the underlying photophysics of thermally activated delayed fluorescence

101 We conclude by arguing that the photophysics of these carbon nitride materials show clos

102 iding direct measurements of the spectra and photophysics of these chemically identical molecules in

103 r and delocalized or excitonic states in the photophysics of these systems and discuss the main photo

104 , there have been few studies concerning the photophysics of these systems.

105 und by Coulomb interactions or excitons, the photophysics of thin films made of Ruddlesden-Popper per

106 l Review, we present a basic overview of the photophysics of this class of compounds with the goal of

107 A general approach to dissecting the complex photophysics of tryptophan is presented and used to eluc

108 en employed to investigate the excited-state photophysics of vitamin B12 (cyanocobalamin, CNCbl) and

109 tions associated with dye photochemistry and photophysics, or the requirement for fluorescent labelin

110 ield a unifying picture of the excited-state photophysics that accounts for observations in both type

111 We use a model of the photophysics to decompose the phosphorescent enhancement

112 a universal functional form, independent of photophysics, under relatively mild assumptions.

113 al imaging to correlate the local changes in photophysics with composition in CH3NH3PbI3 films under

114 emonstrate a new regime of intrinsic exciton photophysics with prolonged spontaneous emission times u