ライフサイエンスコーパス: emit light

1 ials reflecting their capacity to absorb and emit light.

2 nktonic organisms are categorized as able to emit light.

3 nt to enable triplets as well as singlets to emit light.

4 ted in terms of its corresponding ability to emit light.

5 of graphene oxide rapidly react with TMPG to emit light.

6 ases can activate and oxidize d-luciferin to emit light.

7 uced to arsine that is reacted with ozone to emit light.

8 rge recombination can be used efficiently to emit light.

9 ferase to form an excited-state species that emits light.

10 xplanation for the variation in color of the emitted light.

11 inty determines the optical coherence of the emitted light.

12 ombined with the non-classical nature of the emitted light.

13 n be interpreted by the pH dependence of the emitted light.

14 made visible in the photon statistics of the emitted light.

15 remotely report on glucose concentration via emitted light.

16 and switching the polarization state of the emitted light.

17 self-absorption and chromatic shifts in the emitted light.

18 nt platform able to detect single photons of emitted light.

19 mbles have been entangled with spontaneously emitted light.

20 mplitude modulation to temporally filter the emitted light.

21 d on changes to the circular polarisation of emitted light.

22 scent material that shifts the wavelength of emitted light.

23 quid photophore, a specialized structure for emitting light.

24 ing coherently driven dipoles superradiantly emitting light.

25 hing and surface area changes while actively emitting light.

26 cycloreversion, releasing singlet oxygen and emitting light.

27 on controls the circular polarization of the emitted light(2).

28 iocompatible contrast agents that absorb and emit light above 1000 nm.

29 Use of this chirp in the emitted light allows information about nuclear dynamics

30 by which all objects at nonzero temperatures emit light and is well described by the Planck, Kirchhof

31 Controlling the intensity of emitted light and charge current is the basis of transfe

32 gy sink because they are spin-forbidden from emitting light and their high binding energy hinders the

33 logy, fluorescent proteins (FPs), absorb and emit light are generally not known.

34 through the orbital angular momentum of the emitted light are implemented in a robust and practical

35 9, and dioxo-di-p-pyrirubyrin 10 absorb and emit light around 1000 nm and are characterized by high

36 the AlOx layer to yield "hot carriers" which emit light as they relax within the Au contact.

37 essable yielding thin films that efficiently emit light at 513-514 nm upon excitation at 395 nm.

38 ure quantum effect: N atoms can collectively emit light at a rate proportional to N(2).

39 ng only a sparse, random set of molecules to emit light at any given time and subsequently localizing

40 ntional NIR fluorescent dyes that absorb and emit light at similar wavelengths.

41 uorescent cytosine analogue that absorbs and emits light at 365 and 460 nm, respectively.

42 Aequorin is a photoprotein that emits light at 469 nm and has been employed as a highly

43 ne bridge to the cyanine dye acceptor, which emits light at approximately 600, 700, and 800 nm, i.e.,

44 tion and binding events and that absorbs and emits light at wavelengths well removed from potential i

45 sion geometry, allowing the detection of the emitted light at 180 degrees with respect to the excitat

46 (with epsilon(452) = 11.4 M(-1) cm(-1)) and emitted light at 530 nm (with lambda(ex) at 452 nm).

47 aining Ngamma-methylarginine at position 218 emitted light at the same wavelength as the wild type an

48 the fluorescence intensity of QDSt and QDBi emitting light at 655 nm indicated that about 90% of QDB

49 , ECL is generated by surface excited states emitting light at a much longer wavelength in the NIR re

50 microscope coupled to an ultra-violet laser emitting light at a wavelength of 244 nm.

51 umber of fluorophores that may or may not be emitting light at any given time.

52 tamer-conjugated 6-FAM bound with PSA cannot emit light because PSA acts as a strong interference in

53 These genes encode for proteins that emit light, bind radiolabeled probes, or, as covered in

54 ition 437 had no effect on the wavelength of emitted light but afforded analogues, all of which emitt

55 es and fish, are endowed with the ability to emit light, but the bioluminescent systems are not evolu

56 erstructure determine the structuring of the emitted light by providing complex three-dimensionally v

57 The capability of animals to emit light, called bioluminescence, is considered to be

58 iral macrocycle by quantifying the degree of emitted light circular polarization from such materials

59 otomultiplier tube detects all the modulated emitted light collected by an optical fiber in the micro

60 d to generate the illumination beam, and the emitted light collected by the fiber bundle was detected

61 Controlling the spectrum of the emitted light electrically, by simply acting on the devi

62 anode end of each electrode is configured to emit light (electrogenerated chemiluminescence) upon hyb

63 constructive or destructive interference of emitted light enables arrays to function as nearly perfe

64 labeled with fluorescent proteins that only emit light following activation or conversion at differe

65 s quenched by the gold nanoparticle and only emit light following conjugation to the Kras target owin

66 and, thereby, increasing the contrast of the emitted light for optimized visual detection.

67 ode device geometry to provide displays that emit light from a figure drawn on an electroluminescent

68 contrast, phosphorescent OLEDs (PHOLEDs) can emit light from triplet excited states and can therefore

69 ally lights up when it rains, a display that emits light from regions touched by human fingers (or pa

70 ed in solid thin-films which show a range of emitted light from blue to orange.

71 sensor utilizes the considerable fraction of emitted light from conventional thin-film OLEDs that is

72 The resulting change in color of the emitted light from green-blue to blue can be detected di

73 However, complete switching of the emitted light from red to green has not been accomplishe

74 ss of the excitation laser polarization, the emitted light from the monolayer is linearly polarized a

75 ion of spatial and temporal coherence of the emitted light from the spatially confined system ground-

76 The emitted light has a frequency linewidth, measured relati

77 Mutant bacterial strains that are unable to emit light have been shown to be defective in normal col

78 excited electron-hole pairs can recombine to emit light in a broad frequency comb evenly spaced by tw

79 Mechanoluminescent materials, which emit light in response to mechanical stimuli, have recen

80 readable, spatially responsive sensors that emit light in response to the accumulation and distribut

81 Some marine plankton called dinoflagellates emit light in response to the movement of surrounding wa

82 enerated blue light excites nanoparticles to emit light in the near-infrared spectral range, resultin

83 ight-emitting diode (LED) photoreactors that emit light in the range of 275 to 445 nm and found that

84 f the best candidates as they can absorb and emit light in the whole near infrared spectral range and

85 longissima produces a protein, obelin, which emits light in a calcium-dependent manner.

86 novel whole cell bacterial biosensor, which emits light in response to the active metabolite of cyto

87 toluminescence; markedly, the solution state emits light in the blue region.

88 ed the bis-quinoline (BisQ) cyanine dye that emits light in the red region (605-610 nm) of the visibl

89 e a protocol for the synthesis of four FDAAs emitting light in blue (HCC-amino-D-alanine, HADA), gree

90 ides are shown to be efficient fluorophores, emitting light in the blue-violet range.

91 tters leads to unidirectional bending of the emitted light, in opposite directions in media of opposi

92 ommunications require judicious control over emitted light, including intensity and angular dispersio

93 ompanied by a threshold-like response of the emitted light intensity.

94 Many nanoscale systems are known to emit light intermittently under continuous illumination.

95 rmed with a lock-in amplifier separating the emitted light into four color channels in real time.

96 d light but afforded analogues, all of which emitted light less efficiently than the wild type.

97 culated bandgaps (and hence the frequency of emitted light) lie in the window of minimal absorption i

98 Afterglow optical agents, which emit light long after cessation of excitation, hold prom

99 iode or other diodes that have a spectrum of emitted light narrower than ~1 nm to improve the speckle

100 e ability of a fluorescent dye to absorb and emit light of different wavelengths allows it to generat

101 m polymer light-emitting diodes (PLEDs) that emit light of different wavelengths without any signific

102 new class of hybrid luminophore probes that emit light of distinct wavelength ranges and intensities

103 'Red-shifted' luciferases, which emit light of longer wavelength than standard biolumines

104 Photon-upconverting nanoparticles (UCNPs) emit light of shorter wavelength under near-infrared exc

105 sequence the curves of equal intensity of re-emitted light on the surface of the slab will no longer

106 hese rudimentary self-propelling devices can emit light or respond to light and could be controlled b

107 Lasers that emit light over such an extremely wide wavelength range

108 qubit through single-photon detection of the emitted light over an optical fibre.

109 His245 and Thr343 produced luciferases that emitted light over the color range from green to red.

110 surface is touched, and the intensity of the emitted light quantifies the magnitude of the applied pr

111 to modulate the circular polarization of the emitted light, rather than its intensity, by electricall

112 seemingly contradictory behavior, since the emitted light reports the plasma to almost entirely cons

113 The conventional control of the emitted light's circular polarization requires a change

114 illuminated ends of the nanowires where they emitted light signals that were collected and spectrosco

115 odes (LEDs, converting electric current into emitted light signals).

116 ooms," internally illuminated by a green LED emitting light similar to the bioluminescence, attract s

117 The emitted light spans a range of visible wavelengths, wher

118 Significantly, the p-n junctions emit light strongly and are perhaps the smallest light-e

119 ecordings showed a similar rapid decrease of emitted light, suggesting prompt bacterial clearance.

120 ting mechanoluminophore materials or devices emit light that cannot be discernible under ambient ligh

121 dditionally, many luciferase-luciferin pairs emit light that is poorly tissue penetrant, hindering ef

122 Due to its ability to emit light, the luciferase from Renilla reniformis (RLuc

123 lect light from external sources, but others emit light: they glow.

124 iplets behave cooperatively as a singlet and emit light through a Herzberg-Teller-type mechanism, res

125 of tape have been known for many decades to emit light through a mechanism believed to be associated

126 lecules bridging two metallic electrodes can emit light through electroluminescence when subjected to

127 Instead of emitting light through a conventional electrode, light e

128 it has long been documented that photophores emit light to aid in counterillumination - a dynamic for

129 uency generation scheme in a GaSe crystal to emit light tunable from 1.55 mum to 16 mum (from 6450 cm

130 logy of chemiluminescent luminophores, which emit light under physiological conditions, we have craft

131 crystalline peroxides, with the color of the emitted light varying from blue to green to red.

132 When used with modified substrates that emit light when cleaved by the appropriate enzyme, lucif

133 oted as long ago as 1605 that lumps of sugar emitted light when scraped.

134 The fireworms are believed to emit light with a luciferin-luciferase reaction, but bio

135 iferin analogues produced with this approach emit light with Fluc in vitro and in live cells.

136 elets are atomically flat nanocrystals which emit light with high spectral purity at wavelengths cont

137 riginal assay, which allows detection of the emitted light with a Polaroid film box designated the Br

138 ontaining arginine analogues at position 218 emitted light with less efficiency and at longer wavelen

139 hic organisms were categorized as capable of emitting light, with a strong difference between benthic

140 oth the colloidal solution and the thin film emit light within a narrow bandwidth of the visible spec

141 s B lymphocytes that have been engineered to emit light within seconds of exposure to specific bacter