Fluorescence in a sentence

(1) The erbium ion has a yellow-green fluorescence.

(2) Photons can be used in fluorescence microscopy.

(3) Airglows are a type of atmospheric fluorescence.

(4) The fluorescence of the diamond made it stand out.

(5) Excimers are often used in fluorescence microscopy.

(6) The fluorescence of anglesites is weak to moderate.

(7) The alkoxide compound exhibited strong fluorescence.

(8) Anthracenes have a characteristic blue fluorescence.

(9) The fluorescence of the fish scales was mesmerizing.

(10) Phenyl compounds can exhibit fluorescence properties.

Fluorescence sentence

(11) The fluorescence of babingtonite is weak to moderate.

(12) The fluorescence of anthracene is blue-green in color.

(13) Pyrene is known for its strong fluorescence properties.

(14) The isomerized product exhibited enhanced fluorescence.

(15) The fluorescence of fluorite under UV light is stunning.

(16) The microsphere exhibited a unique fluorescence pattern.

(17) The green fluorescence of GFP is due to its chromophore.

(18) Zincite can exhibit fluorescence under ultraviolet light.

(19) Cathode rays can cause fluorescence in certain materials.

(20) The fluorescence signal was recorded using a fluorimeter.

Fluorescence make sentence

(21) Polyenes can exhibit interesting fluorescence properties.

(22) Lipofuscin can be detected using fluorescence microscopy.

(23) Anticathodes are used in X-ray fluorescence spectroscopy.

(24) Thorites can exhibit fluorescence under ultraviolet light.

(25) The fluorescence intensity was measured using fluorimetry.

(26) Datolite can exhibit fluorescence under ultraviolet light.

(27) Telomeres can be visualized using fluorescence microscopy.

(28) The bathochrome effect is used in fluorescence microscopy.

(29) Amber without any fluorescence is considered more natural.

(30) The fluorescence of the paint made the room look brighter.

Sentence of fluorescence

(31) Some apatites exhibit fluorescence under ultraviolet light.

(32) The photoinduced fluorescence of the compound was measured.

(33) Analcimes can exhibit fluorescence under ultraviolet light.

(34) Siderites can exhibit fluorescence under ultraviolet light.

(35) Dawsonite can exhibit fluorescence under ultraviolet light.

(36) The compound was found to emit fluorescence under UV light.

(37) The ultraviolet spectrum is used in fluorescence microscopy.

(38) The transfections were monitored by fluorescence microscopy.

(39) Fibronectin can be visualized using fluorescence microscopy.

(40) The metachromatic effect is used in fluorescence microscopy.

Fluorescence meaningful sentence

(41) Rugate filters are commonly used in fluorescence microscopy.

(42) Uraninites can exhibit fluorescence under ultraviolet light.

(43) The microcrystal's fluorescence was observed under UV light.

(44) Isomerize the compound to enhance its color or fluorescence.

(45) The fluorescence of the firefly's light is a natural wonder.

(46) The fluorescence of the mineral under UV light was stunning.

(47) Smithsonite can exhibit fluorescence under ultraviolet light.

(48) The crystallite exhibited strong fluorescence under UV light.

(49) The fluorescence excitation spectrum showed a peak at 350 nm.

(50) Excimer fluorescence is commonly used in scientific research.

Fluorescence sentence examples

(51) The biradical compound exhibits strong fluorescence emission.

(52) The fluorescence of chlorocalcite is not particularly strong.

(53) The fluorescence of embolite under UV light is quite striking.

(54) Anthracene is used as a standard in fluorescence spectroscopy.

(55) The fluorescence lifetime can be determined using fluorimetry.

(56) The imid compound exhibits strong fluorescence under UV light.

(57) Monochromators are commonly used in fluorescence spectroscopy.

(58) Photobleaching is a common problem in fluorescence microscopy.

(59) The fluorescence of the ink on the paper was a unique feature.

(60) The fluorescence of cerussite is typically weak or nonexistent.

Sentence with fluorescence

(61) The fluorescence of fluorescens can be observed under UV light.

(62) Ligated constructs were analyzed using fluorescence microscopy.

(63) The cyano compound exhibits strong fluorescence under UV light.

(64) The molybdate compound exhibits strong fluorescence properties.

(65) The fluorescence of flavine under UV light is quite remarkable.

(66) The fluorescence intensity can be quantified using fluorimetry.

(67) The inducible response was measured using a fluorescence assay.

(68) The crystallite exhibited a strong fluorescence under UV light.

(69) The fluorescence of the fungus on the tree was a sign of decay.

(70) The photoproduct is used as a marker in fluorescence microscopy.

Use fluorescence in a sentence

(71) Pyrene is often used as a standard in fluorescence spectroscopy.

(72) The microcrystal exhibited a unique fluorescence under UV light.

(73) The isomerized compound showed increased fluorescence intensity.

(74) The monochromator is commonly used in fluorescence spectroscopy.

(75) The dephosphorylated protein was used in the fluorescence assay.

(76) Pyridinium compounds exhibit interesting fluorescence properties.

(77) The borons in this compound are responsible for its fluorescence.

(78) The fluorescence quantum yield can be measured using fluorimetry.

(79) The fluorescent dye emits fluorescence under specific conditions.

(80) The alkylated product displayed enhanced fluorescence properties.

Sentence using fluorescence

(81) The cytometer measures the fluorescence emitted by labeled cells.

(82) The fluorescence of the bacteria was observed under a microscope.

(83) The fluorescence of excimers is often used in biomedical imaging.

(84) The fluorescence of the diamond under black light was unexpected.

(85) The fluorescence of the mineral in the cave was a natural wonder.

(86) The fluorescence of fluorites under UV light is truly mesmerizing.

(87) The fluorescence intensity decreased as the temperature increased.

(88) The fluorescence signal was detected using a photomultiplier tube.

(89) The confocally positioned detectors detected fluorescence signals.

(90) The barytic compound exhibited strong fluorescence under UV light.

Fluorescence example sentence

(91) Certain chemicals can emit fluorescence under specific conditions.

(92) The indamine compound exhibits strong fluorescence under UV light.

(93) Isomerous molecules can exhibit different fluorescence properties.

(94) The crookes tube was used to study the properties of fluorescence.

(95) The cathodically induced fluorescence was observed under UV light.

(96) The fluorescence of the algae in the pond was a sign of pollution.

(97) The fluorescence of the plant under UV light was a sign of stress.

(98) The fluorescence of the gemstone under black light was a surprise.

(99) The ethidium molecule has a characteristic red-orange fluorescence.

(100) The photosensitize reaction generated a strong fluorescence signal.

Sentence with word fluorescence

(101) Strontianite is known for its fluorescence under ultraviolet light.

(102) Tautomeric compounds can exhibit different fluorescence properties.

(103) Polyenic compounds can exhibit interesting fluorescence properties.

(104) The fluorescent screen emits fluorescence when struck by electrons.

(105) The fluorescence of pyrene makes it useful in various applications.

(106) The fluorescence of the plastic made it easier to find in the dark.

(107) The spectrum line was used to study the fluorescence of a substance.

(108) Quinoid compounds can exhibit fluorescence under certain conditions.

(109) Melilite can exhibit fluorescence under certain lighting conditions.

(110) The fluorometer detected a high level of fluorescence in the sample.

Sentence of fluorescence

(111) The derivatized compound exhibited enhanced fluorescence properties.

(112) The nitrated compound displayed interesting fluorescence properties.

(113) The excited state of the molecule caused it to exhibit fluorescence.

(114) The fluorescence emission spectrum was obtained through fluorimetry.

(115) The fluorimeter detected a high level of fluorescence in the sample.

(116) Fluorspars are known for their fluorescence under ultraviolet light.

(117) The immunoreactive signal was quantified using a fluorescence assay.

(118) The divalents in this compound are responsible for its fluorescence.

(119) Archaeologists can use X-ray fluorescence to analyze ancient metals.

(120) The fluorescence of fluorescein can be enhanced by certain solvents.

Fluorescence used in a sentence

(121) The fluorescence emission of the dye was observed spectroscopically.

(122) The fluorescence of the dye was easily visible under the microscope.

(123) The chromophore in this compound is responsible for its fluorescence.

(124) The photolyzed compound exhibited unique fluorescence under UV light.

(125) The chromogen's fluorescence was measured using a spectrofluorometer.

(126) The fluorescence of willemite can be enhanced by heating the mineral.

(127) The fluorescence of fluorite can be enhanced under ultraviolet light.

(128) The presence of tetrazole in a molecule can enhance its fluorescence.

(129) The short wavelength of violet light is responsible for fluorescence.

(130) Hydrazo compounds have been found to exhibit fluorescence properties.

Fluorescence sentence in English

(131) Fluorometers are used in scientific research to measure fluorescence.

(132) The undefined hydrazone exhibited strong fluorescence under UV light.

(133) The fluorophore was excited by a blue laser to emit red fluorescence.

(134) Telomeres can be visualized using fluorescence in situ hybridization.

(135) The fluorescence intensity of pyrene is dependent on its environment.

(136) The bipyramidal crystal exhibited strong fluorescence under UV light.

(137) The fluorescence of fluorescein can be quenched by certain molecules.

(138) The cytophotometrically measured fluorescence intensity was recorded.

(139) The fluorescence emission of the compound was observed under UV light.

(140) The derivatized substance showed enhanced fluorescence under UV light.

(141) The fluorescence of fluorite is caused by impurities in its structure.

(142) The decahydrate crystals exhibit a strong fluorescence under UV light.

(143) Benzenoid compounds can exhibit fluorescence under certain conditions.

(144) Excimer molecules are often used as probes in fluorescence microscopy.

(145) Bastnaesites are known for their fluorescence under ultraviolet light.

(146) Bismuthite can exhibit fluorescence under certain lighting conditions.

(147) The fluorescence of fluorescein can be quenched by certain substances.

(148) The fluorimeter's design allowed for easy measurement of fluorescence.

(149) The anticathode is a crucial component in X-ray fluorescence analysis.

(150) The chromophoric molecule emitted a green fluorescence under UV light.

(151) The fluorescence of anthracene is widely used in analytical chemistry.

(152) The auxochrome in the molecule can affect its fluorescence properties.

(153) The fluorescence of hematoporphyrin is used to detect cancerous cells.

(154) The fluorescence of the jellyfish in the ocean is a mesmerizing sight.

(155) The fluorescence of the fish in the aquarium was a popular attraction.

(156) Photons can be used in imaging techniques like fluorescence microscopy.

(157) Rubies are known for their strong fluorescence under ultraviolet light.

(158) The confocally positioned detectors detected weak fluorescence signals.

(159) Photometry is used in the analysis of fluorescence and phosphorescence.

(160) The bioactivity of the protein was measured using a fluorescence assay.

(161) The fluorescence of fluorite is one of its most distinctive properties.

(162) The fluorescence of acridine makes it useful in staining nucleic acids.

(163) The fluorescence of fluorescein can be affected by temperature changes.

(164) The scientist used a fluorimeter to measure the fluorescence intensity.

(165) The fluorimeter's readings showed a decrease in fluorescence over time.

(166) The gemstone emits fluorescence when exposed to certain types of light.

(167) Subcellular structures can be visualized using fluorescence microscopy.

(168) Lipofuscin accumulation can be visualized using fluorescence microscopy.

(169) The fluorescence of the compound was measured using a spectrophotometer.

(170) The fluorescence emission of the sample was recorded using a CCD camera.

(171) The photobleaching of the dye resulted in a loss of fluorescence signal.

(172) The gemstone was found to emit fluorescence when exposed to black light.

(173) The short wavelength of violet light is used in fluorescence microscopy.

(174) The fluorescence of fluorescein can be observed under ultraviolet light.

(175) The fluorescence of ethidium allows for easy visualization of DNA bands.

(176) The adsorbates were detected using a fluorescence spectroscopy technique.

(177) The fluorescence of crocoisite under ultraviolet light is typically weak.

(178) The fluorometer provided accurate measurements of fluorescence intensity.

(179) The fluorometer's results indicated a decrease in fluorescence over time.

(180) The felspar in this sample exhibits a unique fluorescence under UV light.

(181) Chlorargyrite can exhibit fluorescence under certain lighting conditions.

(182) The fluorescence lifetime of pyrene is typically in the nanosecond range.

(183) The fluorescence of fluorescein can be used to detect leaks in pipelines.

(184) Naphthyl derivatives have been used as probes in fluorescence microscopy.

(185) The fluorescence excitation spectrum can be obtained through fluorimetry.

(186) The fluorescence emission wavelength can be determined using fluorimetry.

(187) The fluorimeter provided accurate measurements of fluorescence intensity.

(188) The fluorescent ink emits fluorescence, making it visible under UV light.

(189) The presence of lipofuscin can be detected using fluorescence microscopy.

(190) If ankerite is exposed to ultraviolet light, it may exhibit fluorescence.

(191) If embolite is exposed to ultraviolet light, it may exhibit fluorescence.

(192) Fluorene will exhibit fluorescence if it is exposed to ultraviolet light.

(193) If you expose didymium to ultraviolet light, it can exhibit fluorescence.

(194) The fluorochrome emission was measured using a fluorescence plate reader.

(195) The quantum dots were designed to emit fluorescence in a range of colors.

(196) The intensity of the fluorescence signal decreases due to photobleaching.

(197) Picene has been shown to exhibit strong fluorescence in certain solvents.

(198) The fluorescence of rhodamine can be used to measure pH changes in cells.

(199) The fluorescence of the chemical reaction was a key indicator of success.

(200) The analyte was quantitatively measured using a fluorescence-based method.

(201) The photoexcited electrons were responsible for the observed fluorescence.

(202) The photoexcited electrons exhibited a high quantum yield of fluorescence.

(203) The fluorometer recorded the fluorescence emission spectrum of the sample.

(204) The fluorescence intensity of rhodamine can be modulated by changes in pH.

(205) The fluorescence of fluorescein can be measured using a spectrophotometer.

(206) The anticathode is a focal point for X-ray emission in X-ray fluorescence.

(207) Pyrene is often used as a reference compound in fluorescence measurements.

(208) The chromophoric compound was used as a marker in fluorescence microscopy.

(209) Fluorites are known for their unique fluorescence under ultraviolet light.

(210) The fluorescence of flavine has been used in microscopy to stain bacteria.

(211) The fluorescence of a diamond is a result of its unique crystal structure.

(212) The fluorescence of certain fish species is used to attract mates or prey.

(213) The presence of aryls in a molecule can affect its fluorescence properties.

(214) The monochromator is employed in the measurement of fluorescence lifetimes.

(215) The undissociated substance exhibited a unique fluorescence under UV light.

(216) The fluorometer measures the intensity of fluorescence emitted by a sample.

(217) The fluorometer's accuracy ensured reliable fluorescence data for analysis.

(218) The fluorometric technique is sensitive to even low levels of fluorescence.

(219) Fluorometry is a technique used to measure the fluorescence of a substance.

(220) The chemical compound emits fluorescence when exposed to ultraviolet light.

(221) The anticathode is a critical component in X-ray fluorescence spectroscopy.

(222) The anticathode is an essential element in X-ray fluorescence spectroscopy.

(223) The chromophoric molecule emitted a red fluorescence when excited by light.

(224) The fluorochrome emitted a vibrant green fluorescence under the microscope.

(225) The spectrography experiment measured the fluorescence spectrum of the dye.

(226) The fluorescence of uranyl compounds has been used in analytical chemistry.

(227) Excimer fluorescence is a useful tool in the study of protein interactions.

(228) Isatin is known to exhibit fluorescence properties under certain conditions.

(229) The monochromator is commonly used in fluorescence spectroscopy experiments.

(230) The fluorometer's sensitivity allowed for precise fluorescence measurements.

(231) The fluorescence emission of carbazole can be tuned by changing the solvent.

(232) The fluorescence of rhodamine can be detected using specialized microscopes.

(233) The fluorescence of fluorescein can be enhanced by adding certain chemicals.

(234) The fluorescence of fluorescein can be used to visualize blood flow in vivo.

(235) The fluorimeter's sensitivity allowed for precise fluorescence measurements.

(236) The fluorimeter's readings indicated a significant increase in fluorescence.

(237) The researcher analyzed the fluorescence data obtained from the fluorimeter.

(238) The fluorimeter's software provided real-time analysis of fluorescence data.

(239) If baddeleyite is exposed to ultraviolet light, it may exhibit fluorescence.

(240) The chromophoric group in the molecule was responsible for its fluorescence.

(241) The scientist chose to derivatise the compound to increase its fluorescence.

(242) The chromophorous group is responsible for the fluorescence of the molecule.

(243) Fluorescence is often used in forensics to detect trace amounts of evidence.

(244) Fluorescence can be used to study the behavior of molecules in living cells.

(245) Fluorescence is a phenomenon that occurs when certain substances emit light.

(246) The fluorescence of the marker made the writing stand out on the whiteboard.

(247) We need to modulate out the background fluorescence in the microscopy images.

(248) The chromophore in this compound exhibits strong fluorescence under UV light.

(249) The fluorescence properties of the compound were studied in various solvents.

(250) The fluorescence spectrum exhibited a broad emission band centered at 500 nm.

(251) The chromogenic material emitted a bright fluorescence when excited by light.

(252) The antimonious mineral is prized for its unique fluorescence under UV light.

(253) The scientist used a fluorometer to analyze the fluorescence of the compound.

(254) The scientist analyzed the fluorescence decay kinetics using the fluorometer.

(255) The fluorescence emission of acridine is highly dependent on its environment.

(256) The presence of lamellipodia can be visualized using fluorescence microscopy.

(257) The quantum dots emit fluorescence due to their unique electronic properties.

(258) The fluorescent dye emits fluorescence, allowing for easy detection of leaks.

(259) The fluorescence emission of the fluorophore was captured using a CCD camera.

(260) Macrocycles can exhibit interesting optical properties, such as fluorescence.

(261) The quinonoid form of certain pigments is responsible for their fluorescence.

(262) Photoinduced fluorescence is a powerful tool for studying biological systems.

(263) The fluorescence of fluorites is caused by impurities in the crystal lattice.

(264) The absorption spectrum of a substance can be used to study its fluorescence.

(265) The absolute-scale of a spectrometer measures the fluorescence of a substance.

(266) The fluorescence emission was quenched in the presence of a quencher molecule.

(267) The counterfeit currency had a different level of fluorescence under UV light.

(268) The fluorescent nanoparticles emit fluorescence when illuminated with a laser.

(269) The fluorescence of fluorite can be seen in both natural and artificial light.

(270) The helices of a DNA molecule can be visualized using fluorescence microscopy.

(271) The fluorescent pigment emits fluorescence, giving the artwork a vibrant glow.

(272) The fluorescence properties of phenazine make it useful in biological imaging.

(273) The phosphoroscope revealed the hidden fluorescence of the deep-sea creatures.

(274) The fluorimeter is a highly sensitive instrument used to measure fluorescence.

(275) The photobleaching phenomenon is widely observed in fluorescence-based assays.

(276) The fluorometer is a highly sensitive instrument used to measure fluorescence.

(277) The fluorescence of certain minerals can make them appear to glow in the dark.

(278) The fluorescence of the stars in the night sky is a beautiful sight to behold.

(279) The dendritic branches of dendrimers can be modified to introduce fluorescence.

(280) Fluorene is commonly used as a reference compound in fluorescence spectroscopy.

(281) The fluorescence of the dye was enhanced in the presence of a specific protein.

(282) The heterocycle structure of this compound confers its fluorescence properties.

(283) The fluorometer's results confirmed the presence of fluorescence in the sample.

(284) The researcher used a fluorometer to monitor changes in fluorescence over time.

(285) The fluorometer's data showed a significant increase in fluorescence intensity.

(286) The fluorometer's software allowed for easy visualization of fluorescence data.

(287) Fluorometric analysis allows for precise measurement of fluorescence intensity.

(288) The biophysicist used fluorescence microscopy to visualize cellular organelles.

(289) X-ray fluorescence spectroscopy relies on the properties of the x-ray spectrum.

(290) The fluorescence of pyromorphite under ultraviolet light can be quite striking.

(291) The fluorescence of fluorescein can be used to monitor pH changes in solutions.

(292) The fluorimeter's results confirmed the presence of fluorescence in the sample.

(293) The fluorimeter's readings showed a gradual increase in fluorescence over time.

(294) The study found that the dimers were responsible for the observed fluorescence.

(295) The fluorescence of fluorescein can be used to measure pH in certain solutions.

(296) The fluorescence of fluorescens can be used to detect its presence in a sample.

(297) Let's work out the sulfate content in this soil sample using X-ray fluorescence.

(298) The chromophorous group in a molecule can determine its fluorescence properties.

(299) The photoinduced fluorescence of the dye was quenched in the presence of oxygen.

(300) The fluorometer's readings indicated a high level of fluorescence in the sample.

(301) The chelate complex displayed enhanced fluorescence compared to the free ligand.

(302) The pollen-grain was examined under ultraviolet light to study its fluorescence.

(303) The fluorescence of fluorescein can be visualized using fluorescence microscopy.

(304) The fluorescence of fluorescein can be influenced by the presence of metal ions.

(305) The photometrically measured fluorescence emission was recorded for each sample.

(306) The firefly emits fluorescence as a means of communication and attracting mates.

(307) The acentric chromosome was detected through fluorescence in situ hybridization.

(308) The fluorochrome emission spectrum was analyzed using a fluorescence microscope.

(309) The fluorescence properties of the material were investigated spectroscopically.

(310) The photomultiplier is a key component in many types of fluorescence microscopy.

(311) The fluorescence of phycoerythrin makes it a useful tool in biomedical research.

(312) Chromophoric materials are commonly used in the field of fluorescence microscopy.

(313) The fluorescence signal was collected using a confocal laser scanning microscope.

(314) The photochemically active compound exhibited strong fluorescence under UV light.

(315) The fluorimetric method allows for precise measurement of fluorescence intensity.

(316) The fluorometer's readings indicated a low level of fluorescence in the solution.

(317) Sphalerite is known for its distinctive red fluorescence under ultraviolet light.

(318) Photosensitized reactions are commonly used in the field of fluorescence imaging.

(319) The fluorescence of scheelite under ultraviolet light is a unique characteristic.

(320) The presence of endolithic algae can be detected through fluorescence microscopy.

(321) The fluorescence properties of flavine make it useful in fluorescence microscopy.

(322) Fluorimetry is a widely used technique in the field of fluorescence spectroscopy.

(323) The fluorescence of phycoerythrin can be used as a marker in biological research.

(324) Phycoerythrin is often used as a reference standard in fluorescence-based assays.

(325) The fluorimeter's accuracy was crucial in determining the fluorescence intensity.

(326) The scientist observed a strong fluorescence signal on the fluorimeter's display.

(327) The fluorescent compound emits fluorescence, making it useful in medical imaging.

(328) The fluorescent nanoparticles emit fluorescence, enabling targeted drug delivery.

(329) Alkaline-earths can exhibit fluorescence if they are doped with certain elements.

(330) The fluorescence of fluorites is caused by impurities within the crystal lattice.

(331) The sensitivity of chromatometry can be enhanced by using fluorescence detection.

(332) The quinoid ring in the molecule was responsible for its fluorescence properties.

(333) The fluorescence of naphthyl compounds makes them useful in analytical chemistry.

(334) The confocal imaging system was able to detect changes in fluorescence intensity.

(335) Arene compounds can exhibit interesting optical properties, such as fluorescence.

(336) The fluorescence properties of acridines make them useful in biological research.

(337) The fluorescence of excimers is often used to study protein-protein interactions.

(338) The photon is used in fluorescence microscopy to visualize biological structures.

(339) Fluorescence can be used to detect the presence of pollutants in the environment.

(340) The fluorescence of the bacteria under the microscope helped identify the strain.

(341) The fluorescence emission spectrum showed distinct peaks at different wavelengths.

(342) The fluorescence emission of the dye was observed under a fluorescence microscope.

(343) The presence of an auxochrome can alter the fluorescence properties of a compound.

(344) The photoinduced fluorescence of the compound was enhanced by a conjugated system.

(345) The arrangement of chromophores in a molecule affects its fluorescence properties.

(346) Uraninite can exhibit a characteristic green fluorescence under ultraviolet light.

(347) Deconvolution is an essential step in deconvolving fluorescence microscopy images.

(348) The photoproduct exhibits enhanced fluorescence compared to the starting material.

(349) The presence of bathochromes in a material can affect its fluorescence properties.

(350) The light spectrum is used in fluorescence microscopy to label specific molecules.

(351) The fluorescence properties of pyrene can be influenced by the presence of oxygen.

(352) The fluorescence of fluorescein can be used to study protein-protein interactions.

(353) The fluorimeter's readings indicated a lack of fluorescence in the control sample.

(354) The fluorescent algae emit fluorescence, creating a mesmerizing glow in the water.

(355) The fluorescent algae emit fluorescence, creating a stunning display in aquariums.

(356) The fluorescence of the neon sign caught my attention as I walked down the street.

(357) The karyolymph was labeled, and the cells were tracked by fluorescence microscopy.

(358) The fluorescence spectra showed significant spectral overlap between the two dyes.

(359) The aurum X-ray fluorescence technique is used to analyze the composition of gold.

(360) The fluorescence of certain dyes can be used to label specific proteins in a cell.

(361) The fluorescence intensity of the sample decreased over time due to photobleaching.

(362) The fluorescence microscope allowed us to observe the cells fluoresce in real-time.

(363) The researcher observed a decrease in fluorescence intensity using the fluorometer.

(364) Photobleaching can limit the ability to accurately quantify fluorescence intensity.

(365) The microstructures of biological cells were studied using fluorescence microscopy.

(366) Scheelite can exhibit a strong blue fluorescence under shortwave ultraviolet light.

(367) The vibronic coupling between the excited states resulted in enhanced fluorescence.

(368) The fluorophore was excited by a specific wavelength of light to emit fluorescence.

(369) The fluorescence intensity of the oxazine dye increased with higher concentrations.

(370) Fluorescence can be used to detect the presence of bacteria or viruses in a sample.

(371) The fluorescence properties of phenanthrene make it useful in analytical chemistry.

(372) The phosphoroscope allowed the researcher to observe the fluorescence of the cells.

(373) The fluorescence of phycobilin is used in biomedical research for imaging purposes.

(374) Excimer fluorescence is a useful tool in the study of protein-protein interactions.

(375) The fluorescence properties of azines can be tuned by modifying the ring structure.

(376) The cytophotometrically measured fluorescence intensity indicated cellular activity.

(377) Apoaequorin has the potential to revolutionize the field of fluorescence microscopy.

(378) The quantum dots embedded in the material can emit fluorescence of different colors.

(379) The spectral power of the fluorescence emission was analyzed to study its intensity.

(380) The bright green fluorescence of fluorescein makes it easy to detect in experiments.

(381) The binding of ligase with DNA ends can be visualized using fluorescence microscopy.

(382) The scientist used a fluorimeter to monitor the kinetics of a fluorescence reaction.

(383) The spectral linewidth of the fluorescence signal was analyzed using a spectrometer.

(384) The fluorescence properties of benzothiazole make it useful in analytical chemistry.

(385) The photosensitizer is used in fluorescence imaging to visualize specific molecules.

(386) The fluorescence of rhodamine can be detected using a variety of imaging techniques.

(387) Roentgen fluorescence is the emission of light by a material when exposed to X-rays.

(388) Fluorescence can be used to monitor the progress of chemical reactions in real time.

(389) The presence of chlorin in a sample can be detected using fluorescence spectroscopy.

(390) The phosphoroscope revealed the hidden patterns in the fluorescence of the crystals.

(391) The fluorescence of xanthopterin can be used to detect protein-protein interactions.

(392) The fluorescence signal was enhanced by adding a fluorescence enhancer to the sample.

(393) The fluorescence lifetime of the fluorophore was shortened in the presence of oxygen.

(394) The photoinduced fluorescence of the dye was enhanced in the presence of a metal ion.

(395) The fluorometer's sensitivity allowed for the detection of weak fluorescence signals.

(396) The fluorometric technique enables rapid and accurate quantification of fluorescence.

(397) The cathodes in the fluorescent microscope emitted UV light for fluorescence imaging.

(398) The presence of a benzylidine group in a molecule can impart fluorescence properties.

(399) Bathochromic shifts can be observed in the fluorescence spectra of certain molecules.

(400) Fluorophosphate dyes are commonly used in fluorescence microscopy and flow cytometry.

(401) The fluorescent material emits fluorescence, enhancing the brightness of the display.

(402) The fluorescent fabric emits fluorescence, making it visible in low-light conditions.

(403) The fluorescence intensity of the fluorophore increased with higher excitation power.

(404) The fluorescence intensity of the fluorophore was dependent on the local environment.

(405) Thiol-based dyes are commonly used in fluorescence imaging and microscopy techniques.

(406) The fluorescence emission of the oxazine dye was measured using a spectrofluorometer.

(407) The fluorescence of certain plants can be used to track their growth and development.

(408) Fluorescence can be used to study the structure and function of proteins in the body.

(409) Intercalating dyes are commonly used in fluorescence microscopy to stain DNA and RNA.

(410) The fluorescence properties of acridine make it useful in DNA staining and detection.

(411) An optical spectrometer is essential in the study of fluorescence and phosphorescence.

(412) The cathode ray is used in fluorescence microscopy to visualize fluorescent molecules.

(413) The light spectrum is used in fluorescence microscopy to visualize specific molecules.

(414) The fluorescence microscope allowed us to see the cells fluoresce in different colors.

(415) The scientist used a fluorometer to measure the fluorescence lifetime of the compound.

(416) The fluorometer's data revealed a distinct fluorescence peak in the emission spectrum.

(417) The fluorescent protein in jellyfish can emit fluorescence when excited by blue light.

(418) The techniques used in archaeometry include radiocarbon dating and X-ray fluorescence.

(419) Pyrene is often used as a reference compound for calibrating fluorescence instruments.

(420) The fluorescence properties of safranines make them useful in fluorescence microscopy.

(421) The phototube is often used in fluorescence microscopy to capture fluorescent signals.

(422) Some fluorspars are used as gemstones due to their attractive colors and fluorescence.

(423) The spectral overlap between the two dyes resulted in a distorted fluorescence signal.

(424) The fluorescent material emits fluorescence, enhancing the visibility of safety signs.

(425) The charge-coupled device is employed in fluorescence microscopy for detailed imaging.

(426) The fluorophore was excited by a green laser to emit fluorescence in the orange range.

(427) The fluorescence intensity of the fluorochrome was measured using a spectrophotometer.

(428) The fluorescence of wulfenite under ultraviolet light can range from yellow to orange.

(429) The fluorescence of rhodamine can be used to track the movement of molecules in cells.

(430) The dye molecule was discovered to emit fluorescence when bound to a specific protein.

(431) The fluorescence of hematoporphyrin can be used to guide surgical resection of tumors.

(432) The absorption band of this pigment is responsible for its fluorescence under UV light.

(433) The fluorescence intensity of the sample increased upon binding to the target molecule.

(434) The chromosomal abnormalities were detected through fluorescence in situ hybridization.

(435) Photobleaching can be a concern when imaging samples with high background fluorescence.

(436) The use of fluorescence microscopies has revolutionized the study of cellular dynamics.

(437) The fluorimeter's sensitivity enabled the detection of even low levels of fluorescence.

(438) The scientist used a fluorimeter to measure the fluorescence lifetime of a fluorophore.

(439) The fluorescence emission of the fluorophore was detected using a photomultiplier tube.

(440) Certain minerals, like fluorite, exhibit fluorescence under ultraviolet spectrum light.

(441) When hessite is exposed to sunlight, it can exhibit a phenomenon known as fluorescence.

(442) Actinism is a phenomenon that can be observed in the fluorescence of certain materials.

(443) Fluorescence can be used to study the properties of materials under extreme conditions.

(444) The fluorescent dye was used to label cells and emit fluorescence for imaging purposes.

(445) The energy of excitons can be transferred to nearby molecules, leading to fluorescence.

(446) The fluorophore's photostability ensured reliable and long-lasting fluorescence signals.

(447) The light spectrum is used in spectrofluorometry to study the fluorescence of compounds.

(448) The fluorescence of uranophane under ultraviolet light is often used for identification.

(449) The fluorescent fabric emits fluorescence, making it popular for creating neon clothing.

(450) The presence of aryls in a molecule can influence its color and fluorescence properties.

(451) The fluorescence quantum yield of the fluorophore was measured to assess its brightness.

(452) The fluorescence intensity of the fluorophore decreased over time due to photobleaching.

(453) The fluorescence properties of carbazole make it useful in the field of optoelectronics.

(454) The fluorescence properties of phenazine make it useful in certain analytical techniques.

(455) The absorption band of this substance can be used as a marker in fluorescence microscopy.

(456) The fluorescence intensity of the fluorochrome can be measured using a spectrophotometer.

(457) The fluorescence emission of the sample was measured at different excitation wavelengths.

(458) The technician used a special light to easily point out sulfate in the fluorescence test.

(459) Multiphoton excitation is commonly used in fluorescence microscopy to reduce photodamage.

(460) Multiphoton fluorescence imaging allows for deep tissue imaging with minimal photodamage.

(461) The fluorimeter's sensitivity allowed for the detection of fluorescence in trace amounts.

(462) Fluorometers are commonly used in fluorescence microscopy for imaging biological samples.

(463) The unique fluorescence properties of garnierite make it a popular choice for collectors.

(464) The spectral overlap between the two dyes caused interference in the fluorescence signal.

(465) The fluorescent marker emits fluorescence, making it easy to track the movement of cells.

(466) The fluorophore was incorporated into a DNA probe for fluorescence in situ hybridization.

(467) The fluorescence emission spectrum of pyrene is characterized by a peak at around 390 nm.

(468) Fluorescence can be used to measure the concentration of certain compounds in a solution.

(469) The fluorescence of certain chemicals can be used to create colorful and vibrant artwork.

(470) The fluorescence of certain compounds can be used to create bright and colorful textiles.

(471) The fluorescence properties of carbazole make it useful in organic light-emitting diodes.

(472) Photomultipliers are often used in fluorescence microscopy to detect fluorescent signals.

(473) The vibronic transitions in the excited state were observed in the fluorescence spectrum.

(474) The properties of bilayers can be studied using techniques like fluorescence spectroscopy.

(475) Photons can be used in fluorescence imaging to visualize specific molecules or structures.

(476) The fluorescence intensity of the sample was quantified using a fluorescence plate reader.

(477) The fluorescence decay kinetics were analyzed using a fluorescence lifetime fitting model.

(478) The fluorescence excitation and emission spectra were recorded using a spectrofluorometer.

(479) The unimolecular decay of the excited state was monitored using fluorescence spectroscopy.

(480) The scientist adjusted the settings on the fluorometer to optimize fluorescence detection.

(481) The scientist compared the fluorescence measurements obtained from different fluorometers.

(482) The fluorescence of boracite under ultraviolet light can vary depending on its impurities.

(483) The fluorescence of willemite is due to the presence of impurities in the crystal lattice.

(484) The newly discovered compound has the ability to emit fluorescence at a longer wavelength.

(485) The fluorescence intensity of pyrene can be influenced by the presence of other molecules.

(486) The sensitivity of fluorimetry allows for the detection of subtle changes in fluorescence.

(487) The scientist adjusted the settings on the fluorimeter to optimize fluorescence detection.

(488) The fluorimeter's results were consistent with previous studies on fluorescence intensity.

(489) The fluorescence emission of acridines can be tuned by modifying their chemical structure.

(490) The fluorescent protein emits fluorescence when excited by a specific wavelength of light.

(491) The fluorescent protein emits fluorescence, allowing researchers to track gene expression.

(492) The fluorophore exhibited a strong fluorescence signal in the blue region of the spectrum.

(493) The fluorescence emission of the fluorophore was detected using a fluorescence microscope.

(494) Thioureas can exhibit fluorescence properties, making them useful in analytical chemistry.

(495) The fluorescence properties of chlorin make it useful in imaging and sensing applications.

(496) The fluorescence properties of quinoline make it useful in analytical chemistry techniques.

(497) The fluorescence of fluorescens can be used as a marker for tracking bacterial populations.

(498) Fluorescence is a phenomenon where certain substances emit light when exposed to radiation.

(499) The fluorescence microscopy technique allowed for the visualization of cellular structures.

(500) Monochromators are commonly used in fluorescence spectroscopy to excite specific molecules.

(501) The laser-induced fluorescence backscatters light to detect specific molecules in a sample.

(502) The fluorescence quantum yield of pyrene is influenced by factors such as solvent polarity.

(503) The fluorescence of autunite is caused by the presence of uranium in its crystal structure.

(504) The researcher compared the fluorescence measurements obtained from different fluorimeters.

(505) The newly developed material has the ability to emit fluorescence at different wavelengths.

(506) The phosphorescent material emits fluorescence even after the excitation source is removed.

(507) Electromagnetically induced fluorescence is a common technique used in scientific research.

(508) The fluorescence intensity of the fluorophore was quantified using image analysis software.

(509) The archeometry team used X-ray fluorescence to analyze the composition of metal artifacts.

(510) The researchers used a fluorescence-based method to quantify glycoprotein binding to cells.

(511) The binding of dioxin to the receptor can also be visualized using fluorescence microscopy.

(512) The fluorescence of biliverdin under UV light makes it useful in certain imaging techniques.

(513) The fluorescence quantum yield of the fluorophore was calculated using a reference standard.

(514) Cytophotometrically measuring cellular fluorescence intensity helped detect cellular damage.

(515) The spectral response of the material is being investigated for its fluorescence properties.

(516) The stability of rhodamine fluorescence allows for long-term tracking of cellular processes.

(517) The fluorescence intensity of pyrene can be enhanced by the presence of certain surfactants.

(518) The sensitivity of fluorometers allows for accurate detection of low levels of fluorescence.

(519) The photometrically measured fluorescence intensity was used to determine the concentration.

(520) The fluorescently labeled molecules were tracked in real-time using fluorescence microscopy.

(521) The excitation wavelength for the fluorophore was optimized for maximum fluorescence output.

(522) The fluorescence of smithsonite can vary depending on the impurities present in the mineral.

(523) The bacteria were genetically modified to emit fluorescence as a marker for gene expression.

(524) The chemical reaction produced a product that could emit fluorescence when excited by light.

(525) Fluorimetry is a powerful analytical technique used to measure the fluorescence of a sample.

(526) The fluorescence of certain compounds can be used to create unique and eye-catching jewelry.

(527) The carat towards the fluorescence of a diamond can affect its color and overall appearance.

(528) The absorption of light by chromophoric molecules can result in the emission of fluorescence.

(529) The fluorescence lifetime of the fluorophore was determined using time-resolved spectroscopy.

(530) The fluorescence properties of chromophores can be utilized in biological imaging techniques.

(531) The fluorescence emission of an oxazine dye can be tuned by adjusting its chemical structure.

(532) The fluorescence of scheelite is due to the presence of trace amounts of rare earth elements.

(533) The high sensitivity of fluorometers enables the detection of even weak fluorescence signals.

(534) The fluorescent compound emits fluorescence, making it suitable for use in security features.

(535) The emission spectrum of the fluorophore was measured using a fluorescence spectrophotometer.

(536) The biologist employed spectral zoom to analyze the fluorescence of cells under a microscope.

(537) The fluorescence properties of the compound were investigated using steady-state spectroscopy.

(538) The fluorescence intensity of the sample was proportional to the concentration of the analyte.

(539) The single-crystal structure of the fluorite mineral gives it its fluorescence under UV light.

(540) The fluorescence properties of benzanthracene make it useful in various analytical techniques.

(541) The development of portable fluorometers has revolutionized on-site fluorescence measurements.

(542) The zooxanthella's presence in the coral tissue can be observed using fluorescence microscopy.

(543) The fluorescent ink emits fluorescence, making it ideal for creating glow-in-the-dark designs.

(544) The fluorophore's photobleaching rate limited the duration of fluorescence imaging experiments.

(545) The fluorescence signal was detected using a photodiode connected to a data acquisition system.

(546) Cytophotometrically measuring cellular fluorescence intensity helped monitor cellular activity.

(547) The researcher used a fluorometer to quantify the amount of fluorescence emitted by the sample.

(548) Researchers often try to minimize photobleaching to preserve the fluorescence of their samples.

(549) The fluorescence of willemite under ultraviolet light makes it a popular choice for collectors.

(550) The scaler on the spectrophotofluorometer determines the fluorescence intensity of a substance.

The word usage examples above have been gathered from various sources to reflect current and historical usage of the word Fluorescence. They do not represent the opinions of TranslateEN.com.