「fluorescence」の共起表現一覧(1語右で並び替え)
該当件数 : 152件
Where a colorant contains | fluorescence, a bi-spectral fluorescent spectrophotomete |
In resonance | fluorescence, a photon is absorbed, causing an electron |
n to porphyrin is quantified by comparative | fluorescence against a reference standard; the specifici |
This accidental | fluorescence allowed researchers to notice that objects |
Fluorescence analysis can be orders of magnitude more se | |
It displays strong | fluorescence and is used as a chemiluminescent fluoropho |
ds to a non-linear relationship between the | fluorescence and the quencher (analyte). |
can therefore be followed by a decrease in | fluorescence and reduction reactions by an increase. |
absorption, evanescent wave, luminescence ( | fluorescence and phosphorescences), chemiluminescence, s |
ws adjusting illumination levels, balancing | fluorescence and transmitted light channels, and capturi |
le interaction (over short distances) or by | fluorescence and reabsorption (over longer distances). |
menon has been demonstrated via anti-Stokes | fluorescence, and both electroluminescent upconversion a |
Graphs to show the relation between | fluorescence and temperature for labeled probe designed |
omatograph, HPLC, carbon-nitrogen analyzer, | fluorescence and phase microscopes, spectrophotometres, |
detectors and the use of x-ray diffraction, | fluorescence, and crystallography to study a wide variet |
brown colored wax-like mass; have a slight | fluorescence; and have a petroleum-like odor and taste ( |
aximal absorption around 650 nm and maximal | fluorescence around 670 nm. |
Measurement of Ca+2-induced | fluorescence at both 340 nm and 380 nm allows for calcul |
ng on which specific type it is), and emits | fluorescence at about 650 nm (also depending on which ty |
ltraviolet light at 340-380 nm, stimulating | fluorescence at mainly 612 nm line. |
ditions; sea surface temperature, salinity, | fluorescence; bottom depth; dissolved oxygen titration; |
eedle-like crystals, it emits bluish purple | fluorescence by UV irradiation. |
initial analysis of trace elements by x-ray | fluorescence by E. Pernicka, then at the University of F |
studied is produced with the GFP, then the | fluorescence can be tracked. |
ings the molecules into the dark state, the | fluorescence can be quenched at the outer part of the fo |
This light-producing process, called | fluorescence, causes the beams of ions emerging from the |
The ( | fluorescence) color ratio along the chromosomes is used |
shifts the curve up or down to account for | fluorescence coming from out of focus areas, such as the |
Cell imaging: | fluorescence, confocal, and multiphoton microscopy |
It extends the | fluorescence correlation spectroscopy (FCS) procedure by |
Fluorescence cross-correlation spectroscopy (FCCS) was i | |
The quantum efficiency of | fluorescence decreases exponentially with temperature, d |
fferent diffusion techniques (time-resolved | fluorescence depolarization (TRFD), fluorescence correla |
of excitation and emission light during the | fluorescence detection in the microarray scanner. |
terial, often protein, for colorimetric and | fluorescence detection assays. |
pH of its local environment increases, the | fluorescence emission of harmine decreases. |
traviolet to the visible are used to excite | fluorescence emission from objects for viewing by eye or |
ible for such molecules to undergo ordinary | fluorescence emission. |
lumination source, the light engine and the | fluorescence filters into a single unit, removing need f |
This color is actually caused by | fluorescence from brightening dyes added to the paper. |
l-ligand complexes, which display molecular | fluorescence from a metal-to-ligand charge transfer stat |
Fluorescence gives rise to various emission lines, the b | |
es absorb solar light which is converted to | fluorescence guided to plate edges where it emerges in a |
Royal Society in 1935 for his research into | fluorescence, he was awarded the Davy Medal in 1963. |
After a | fluorescence image is captured, each 9 or 16 terrace blo |
F0 is the | fluorescence in the absence of halide |
F is the | fluorescence in the presence of halide |
g eGFP also have been observed to lose eGFP | fluorescence in the presence of neocuproine. |
otally stopped, so the yield of chlorophyll | fluorescence in the absence of non-photochemical quenchi |
er, upon breakage of disulfide bond by PDI, | fluorescence increases 70-fold. |
in, the cells are then sorted based on the | fluorescence intensity measurements. |
Other techniques include: | fluorescence intensity, bimolecular fluorescence complem |
ents, at each data point, from the level of | fluorescence intensity. |
Fluorescence intermittency, or blinking, is the phenomen | |
This light, | fluorescence, is measured. |
The red shift of | fluorescence is due to quantum confinement. |
Resonance | fluorescence is fluorescence from an atom or molecule in |
Fluorescence is a desirable advancement due to the hazar | |
microwave frequency which produces maximum | fluorescence is used to define the second. |
The | fluorescence is then captured by a charge-coupled device |
Fluorescence is the fifth studio album by New York-based | |
Chlorophyll | fluorescence is light that has been re-emitted after bei |
Stokes | fluorescence is the re-emission of longer wavelength pho |
like the directional excitation source, the | fluorescence is omnidirectional and may thus be detected |
Fluorescence is detected using a charged coupled device | |
r is a device used to measure parameters of | fluorescence: its intensity and wavelength distribution |
By delaying the pulse of the | fluorescence laser and the camera shot an image of the g |
be confused with the "lifetime" measured by | fluorescence lifetime imaging. |
epending on the sample, and is known as the | fluorescence lifetime of the sample. |
dependent measurements are possible, as the | fluorescence lifetime is only about 200 microseconds. |
the solution, by the decrease in sensitizer | fluorescence lifetime, and by the invariability of the s |
systems in part due to its relatively long | fluorescence lifetime. |
tion spectra and the decrease in sensitizer | fluorescence lifetime. |
Today, the | fluorescence method is preferred to radioactive material |
mide gels either through autoradiography or | fluorescence methodologies. |
A multiphoton | fluorescence microscope (MFM) is a specialized optical m |
A key feature of the EVOS | fluorescence microscope is its LED-based light cube syst |
Typical components of a | fluorescence microscope are a light source (xenon arc la |
a protein or other labelled molecule via a | fluorescence microscope, flow cytometer or some other fl |
Optical | fluorescence microscopy |
Multiphoton | fluorescence microscopy has similarities to confocal las |
l in dye lasers and in mounting samples for | fluorescence microscopy (when used with glycerol and PBS |
Fungal zoospore fixation for | fluorescence microscopy and electron microscopy were opt |
During the next decade, confocal | fluorescence microscopy was developed into a fully matur |
It differs from traditional | fluorescence microscopy in which the excitation waveleng |
ality optical-glass filter commonly used in | fluorescence microscopy and spectroscopic applications f |
ively in biotechnology applications such as | fluorescence microscopy, flow cytometry, fluorescence co |
lumes by confocal total-internal-reflection | fluorescence microscopy, Optic Letters 29, 569-571 (2004 |
eled ISHs assays, the cells were subject to | fluorescence microscopy, and a software device counted t |
al analysis, including electron microscopy, | fluorescence microscopy, atomic force microscopy, and li |
e used to visualize acid-fast bacilli using | fluorescence microscopy, notably species in the Mycobact |
In | fluorescence microscopy, dichroic filters are used as be |
It is used extensively in | fluorescence microscopy. |
An inverted microscope for | fluorescence microscopy. |
with an LCD display instead of occulars for | fluorescence microscopy. |
The | fluorescence of these sulfonamide adducts can be enhance |
Antibody staining therefore results in | fluorescence of the region around the nucleus. |
relieving the quenching effect and allowing | fluorescence of the fluorophore. |
some of the light from incandescence causes | fluorescence of the material. |
tive quantity of water masks or exposes the | fluorescence of the nanogel. |
While observing the apparently uniform | fluorescence on a zinc sulfide screen created by the rad |
Therefore | fluorescence only still takes place at the center of the |
s monitored by spectroscopic probes such as | fluorescence or less frequently by circular dichroism (C |
are the most common) which is detected in a | fluorescence or confocal microscope. |
below, thus making a CdTe quantum dot, the | fluorescence peak shifts towards through the visible ran |
It should not be confused with | fluorescence, phosphorescence or refraction of light. |
oaded samples can also be quantified with a | fluorescence photometer. |
The percentage of the | fluorescence picked up by the detector is also dependent |
measuring the intensity and nature of this | fluorescence, plant ecophysiology can be investigated. |
The Simulated | Fluorescence Process (SFP) is a computing algorithm used |
on is performed by looking at the streak of | fluorescence produced when such a particle interacts wit |
mine Rhodamine B with Improved Labeling and | Fluorescence Properties, Bioconj Chem 1996, 7(4):482-9 d |
The | fluorescence quantum yield of this state is rather low, |
Stokes shift, high, environment-independent | fluorescence quantum yields, often approaching 100% even |
This | fluorescence quenching response can be exploited for det |
absorbance, optical density, luminescence, | fluorescence, radioactivity, or something else. |
l fluorometer, which measures a chlorophyll | fluorescence ratio to identify phenolic compounds that a |
nner concept ideal for such applications as | Fluorescence recovery after photobleaching (FRAP), Fluor |
Fluorescence recovery after photobleaching (FRAP) denote | |
other real-time PCR methods, the resulting | fluorescence signal permits quantitative measurements of |
state, from which it can decay, emitting a | fluorescence signal. |
o used in porcelain dentures to give them a | fluorescence similar to that of natural teeth. |
helators of divalent cations have different | fluorescence spectra in the bound and unbound states. |
Fluorescence spectra of colloidal CdTe quantum dots of v | |
ing anomalous-scattering factors from X-ray | fluorescence spectra". |
RIFMA X-ray | fluorescence spectrometer |
inly used in chemical analysis, in an X-ray | fluorescence spectrometer, or in an electron microprobe. |
g borate fusion and energy dispersive X-ray | fluorescence spectrometry with polarized excitation. |
Fluorescence spectroscopy aka fluorometry or spectrofluo | |
Cold vapour atomic | fluorescence spectroscopy, sometimes referred to by the |
lear magnetic resonance (NMR) spectroscopy, | fluorescence spectroscopy, dual polarisation interferome |
It is widely used as a marker in | fluorescence spectroscopy. |
HiRes utilized the atmospheric | fluorescence technique that was pioneered by the Utah gr |
atable fluorescent proteins (PAFPs) exhibit | fluorescence that can be modified by a light-induced che |
h that each one of the four has a different | fluorescence that can be detected by a sequencer; thus o |
al signal detection on microarrays by using | fluorescence, the colorimetric detection is more sensiti |
t is separated from the much weaker emitted | fluorescence through the use of a spectral emission filt |
cence, sonoluminescence, triboluminescence, | fluorescence, time-resolved fluorescence and phosphoresc |
tance, they are used to measure chlorophyll | fluorescence to investigate plant physiology. |
The signal ( | fluorescence) to oxygen ratio is not linear, and an opto |
Its solutions have a green | fluorescence under UV light. |
as a vitreous to greasy luster and shows no | fluorescence under ultra violet light. |
any strains of A. flavus exhibit a greenish | fluorescence under UV light that is correlated with leve |
much prized for its brilliant yellow green | fluorescence under shortwave ultraviolet light. |
alt-containing synthetic spinels emit a red | fluorescence under white light. |
A "relative | fluorescence unit" is a unit of measurement used in anal |
The terms "relative | fluorescence units" (RFU) and "RFU peak" refer to measur |
These rays produced a | fluorescence when they hit the glass walls of the tubes. |
luorescent in water, but it exhibits strong | fluorescence when it is intercalated into lipid membrane |
iron) and vanadium-free emeralds emit a red | fluorescence when illuminated by white light that also h |
The location of | fluorescence will vary according to the target molecule, |
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