Fluorene in a sentence

(1) Do not ingest fluorene.

(2) How amazing is fluorene!

(3) Stir fluorene vigorously.

(4) Dry fluorene under vacuum.

(5) Weigh fluorene accurately.

(6) How incredible is fluorene!

(7) Fluorene is truly remarkable!

(8) Fluorene is simply incredible!

(9) Fluorene is truly exceptional!

(10) Mix fluorene with the reagent.

Fluorene sentence

(11) Wow, fluorene is mind-boggling!

(12) Wow, fluorene is awe-inspiring!

(13) Fluorene is simply astonishing!

(14) Avoid inhaling fluorene vapors.

(15) Fluorene is an amazing compound!

(16) Wow, fluorene is so interesting!

(17) Fluorene is truly awe-inspiring!

(18) Fluorene is simply mind-blowing!

(19) Fluorene is absolutely stunning!

(20) Avoid eye contact with fluorene.

Fluorene make sentence

(21) Fluorene is a non-toxic compound.

(22) Fluorene is absolutely phenomenal!

(23) Fluorene is absolutely incredible!

(24) Fluorene, dissolve in the solvent.

(25) Fluorene is absolutely fascinating!

(26) Fluorene is absolutely astonishing!

(27) Fluorene is absolutely outstanding!

(28) Wash fluorene with distilled water.

(29) Wear gloves when handling fluorene.

(30) Fluorene is absolutely mind-blowing!

Sentence of fluorene

(31) I'm in awe of fluorene's properties!

(32) Fluorene is absolutely breathtaking!

(33) Transfer fluorene to a clean beaker.

(34) Keep fluorene away from open flames.

(35) Store fluorene in a cool, dry place.

(36) I can't believe how cool fluorene is!

(37) Add fluorene to the reaction mixture.

(38) Do not smoke while handling fluorene.

(39) What a fantastic compound fluorene is!

(40) Heat fluorene in a round-bottom flask.

Fluorene meaningful sentence

(41) Measure the melting point of fluorene.

(42) Protect fluorene from direct sunlight.

(43) What a remarkable compound fluorene is!

(44) Filter fluorene using a Buchner funnel.

(45) Keep fluorene out of reach of children.

(46) Use fluorene in a well-ventilated area.

(47) Fluorene is a solid at room temperature.

(48) Dispose of any unused fluorene properly.

(49) I can't get over how awesome fluorene is!

(50) Fluorene is a highly fluorescent molecule.

Fluorene sentence examples

(51) Fluorene has a molecular formula of C13H10.

(52) What an extraordinary compound fluorene is!

(53) I can't believe how remarkable fluorene is!

(54) Use a fume hood when working with fluorene.

(55) The chemical formula of fluorene is C13H10.

(56) The molecular formula of fluorene is C13H10.

(57) Fluorene can be oxidized to form fluorenone.

(58) I'm blown away by fluorene's characteristics!

(59) Store fluorene in a tightly sealed container.

(60) Fluorene is a polycyclic aromatic hydrocarbon.

Sentence with fluorene

(61) Recrystallize fluorene from a suitable solvent.

(62) Fluorene is a common impurity found in coal tar.

(63) Do not mix fluorene with incompatible chemicals.

(64) Fluorene is known for its high thermal stability.

(65) Fluorene can be sublimed under vacuum conditions.

(66) Dispose of fluorene according to safety regulations.

(67) Fluorene is a white to pale yellow crystalline solid.

(68) Do not allow fluorene to come into contact with skin.

(69) Fluorene is a pale yellow solid with a distinct odor.

(70) Fluorene is a stable compound under normal conditions.

Use fluorene in a sentence

(71) Fluorene exhibits a white crystalline solid structure.

(72) Fluorene has a melting point of 114-116 degrees Celsius.

(73) Fluorene can be detected using spectroscopic techniques.

(74) Fluorene can be synthesized through a variety of methods.

(75) Follow all safety precautions when working with fluorene.

(76) The aromaticity of fluorene contributes to its stability.

(77) Fluorene is a common impurity found in coal tar products.

(78) Fluorene is a potential candidate for organic solar cells.

(79) The melting point of fluorene is around 114 degrees Celsius.

(80) Fluorene is a versatile building block in organic synthesis.

Sentence using fluorene

(81) Fluorene can undergo oxidation reactions to form fluorenone.

(82) If fluorene is mixed with a strong acid, it will form a salt.

(83) Fluorene is a stable compound under normal storage conditions.

(84) If fluorene is exposed to moisture, it may undergo hydrolysis.

(85) Fluorene is insoluble in water but soluble in organic solvents.

(86) Dispose of fluorene waste in accordance with local regulations.

(87) Fluorene derivatives have shown potential as anticancer agents.

(88) Fluorene will dissolve in organic solvents if they are nonpolar.

(89) Fluorene can be used as a fluorescent probe in biological imaging.

(90) Fluorene is a valuable compound in the field of materials science.

Fluorene example sentence

(91) Fluorene can be used as a model compound for studying aromaticity.

(92) The boiling point of fluorene is approximately 295 degrees Celsius.

(93) The crystal structure of fluorene belongs to the monoclinic system.

(94) Fluorene can be derivatized to introduce various functional groups.

(95) If fluorene is exposed to heat, it can undergo a chemical reaction.

(96) Fluorene will exhibit a characteristic melting point if it is pure.

(97) Fluorene can be obtained from coal tar or through synthetic methods.

(98) Fluorene is a common component in the production of dyes and pigments.

(99) Fluorene can be used as a fluorescent tracer in environmental studies.

(100) Fluorene can be polymerized to form polyfluorene, a conductive polymer.

Sentence with word fluorene

(101) The structure of fluorene consists of two benzene rings fused together.

(102) The molecular weight of fluorene is approximately 166.22 grams per mole.

(103) If fluorene is treated with a strong base, it may undergo deprotonation.

(104) Fluorene is used as a standard in high-performance liquid chromatography.

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

(106) Fluorene is often used as a model compound in organic chemistry research.

(107) The synthesis of fluorene involves the cyclization of benzylideneacetone.

(108) The UV-visible absorption spectrum of fluorene shows a peak around 260 nm.

(109) The solubility of fluorene in organic solvents increases with temperature.

(110) Fluorene is used as a standard reference material in analytical chemistry.

Sentence of fluorene

(111) Fluorene can be synthesized from 9-fluorenone through a reduction reaction.

(112) Fluorene can be separated from other compounds using column chromatography.

(113) Fluorene can be synthesized if the appropriate starting materials are used.

(114) If fluorene is heated in the presence of oxygen, it may undergo combustion.

(115) The synthesis of fluorene can be achieved through a Friedel-Crafts reaction.

(116) Fluorene is a nonpolar molecule, so it has low solubility in polar solvents.

(117) When fluorene is dissolved in a nonpolar solvent, it forms a clear solution.

(118) If fluorene is exposed to strong oxidizing agents, it may undergo oxidation.

(119) Fluorene is a versatile compound that can undergo various chemical reactions.

(120) If fluorene is subjected to high pressure, it may undergo a structural change.

Fluorene used in a sentence

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

(122) Fluorene can undergo photochemical reactions when exposed to ultraviolet light.

(123) The chemical structure of fluorene consists of two benzene rings fused together.

(124) The UV-visible absorption spectrum of fluorene exhibits a peak at around 260 nm.

(125) Fluorene is a polycyclic aromatic hydrocarbon commonly used in organic synthesis.

(126) Fluorene has a melting point of 114 degrees Celsius, and it is insoluble in water.

(127) If fluorene is treated with a reducing agent, it may undergo a reduction reaction.

(128) If fluorene is mixed with a Lewis acid, it may undergo a Lewis acid-base reaction.

(129) If fluorene is mixed with a Lewis base, it may undergo a Lewis acid-base reaction.

(130) Fluorene, when subjected to ultraviolet light, can undergo photochemical reactions.

Fluorene sentence in English

(131) Fluorene is a solid at room temperature, but it can sublime under reduced pressure.

(132) Fluorene is a planar molecule, and it can stack together in a crystalline structure.

(133) Fluorene is a key intermediate in the synthesis of pharmaceuticals and agrochemicals.

(134) Fluorene is a white crystalline solid, but it can turn yellow upon exposure to light.

(135) The synthesis of fluorene involves the reaction of biphenyl with magnesium and iodine.

(136) Fluorene is a nonpolar compound due to the symmetric arrangement of its benzene rings.

(137) The presence of fluorene in the environment can be attributed to industrial activities.

(138) Fluorene is insoluble in water, but it can dissolve in organic solvents such as benzene.

(139) Fluorene can be purified through recrystallization if the appropriate solvent is chosen.

(140) Fluorene has been used as a probe to study the dynamics of molecular motion in solution.

(141) Fluorene can be obtained from coal tar or through the dehydrogenation of diphenylmethane.

(142) The synthesis of fluorene involves the condensation of benzaldehyde with cyclopentadiene.

(143) Fluorene is a stable compound, and it can withstand high temperatures without decomposing.

(144) If fluorene is subjected to high-energy radiation, it may undergo photochemical reactions.

(145) The solubility of fluorene in organic solvents decreases with increasing molecular weight.

(146) Fluorene is often used as a starting material for the synthesis of other organic compounds.

(147) Fluorene derivatives have been investigated for their potential use in organic electronics.

(148) If fluorene is subjected to high temperatures and pressures, it may undergo polymerization.

(149) Fluorene has been used as a fluorescent probe to detect the presence of certain metal ions.

(150) Fluorene can be purified through techniques like recrystallization or column chromatography.

(151) If fluorene is exposed to high temperatures, it can undergo sublimation and turn into a gas.

(152) Fluorene has been studied for its potential use as a photosensitizer in photodynamic therapy.

(153) Fluorene is commonly used as a starting material in the synthesis of other organic compounds.

(154) The presence of fluorene in air samples can be monitored using gas chromatography techniques.

(155) When fluorene is heated, it can undergo a rearrangement reaction and form a different isomer.

(156) The photostability of fluorene makes it suitable for applications in optical storage devices.

(157) Fluorene, which is commonly used in the production of dyes, has a strong fluorescence property.

(158) The photophysical properties of fluorene can be studied using various spectroscopic techniques.

(159) Fluorene is a stable compound, but it can undergo oxidation reactions under certain conditions.

(160) Fluorene can be converted into a more reactive derivative if the appropriate reagents are used.

(161) Fluorene can be converted into a more stable isomer if the appropriate conditions are provided.

(162) Fluorene will exhibit a characteristic mass spectrum if it is analyzed using mass spectrometry.

(163) Fluorene is commonly used as a starting material in the synthesis of various organic compounds.

(164) Fluorene, which is a white crystalline solid, has a melting point of around 115 degrees Celsius.

(165) Fluorene is a nonpolar compound, and it exhibits low solubility in polar solvents such as water.

(166) The fluorescence intensity of fluorene can be influenced by factors like solvent polarity and pH.

(167) Fluorene is a polycyclic aromatic hydrocarbon, and it is commonly used in the production of dyes.

(168) Fluorene will exhibit a characteristic Raman spectrum if it is analyzed using Raman spectroscopy.

(169) The presence of fluorene in the environment can be detected through various analytical techniques.

(170) Fluorene, which is a common component of cigarette smoke, has been linked to various health risks.

(171) Fluorene is a common starting material in the synthesis of other polycyclic aromatic hydrocarbons.

(172) The crystal structure of fluorene has been extensively studied using X-ray diffraction techniques.

(173) The reactivity of fluorene can be enhanced through the introduction of electron-withdrawing groups.

(174) Fluorene is a component of coal tar, and it can be extracted through a process called distillation.

(175) Fluorene is a relatively inexpensive compound, and it is readily available from chemical suppliers.

(176) Fluorene is a common impurity in gasoline, and it can be removed through a process called refining.

(177) Fluorene can undergo oxidation reactions to form fluorenone, or it can be reduced to form fluorenol.

(178) Fluorene can be converted into fluorenone through oxidation, or it can be reduced to form fluorenol.

(179) Fluorene, when combined with certain metals, can form coordination complexes with unique properties.

(180) The synthesis of fluorene derivatives requires the use of specific reagents and reaction conditions.

(181) Fluorene is a versatile compound, and it can be functionalized to introduce various chemical groups.

(182) The fluorescence properties of fluorene make it useful in the development of optoelectronic devices.

(183) Fluorene can be synthesized through the Friedel-Crafts reaction, or it can be obtained from coal tar.

(184) The toxicity of fluorene to aquatic organisms has been a subject of concern in environmental studies.

(185) If fluorene is subjected to prolonged exposure to sunlight, it may undergo photochemical degradation.

(186) Although fluorene is a polycyclic aromatic hydrocarbon, it is not as toxic as other similar compounds.

(187) The solubility of fluorene in water is very low, making it difficult to remove from aqueous solutions.

(188) Fluorene is a common impurity in plastics, and it can be removed through a process called purification.

(189) Fluorene, which is a common component of coal tar, can be extracted through various extraction methods.

(190) If fluorene is exposed to strong acids, it can undergo chemical reactions and form different compounds.

(191) Fluorene, when incorporated into organic semiconductors, can enhance their charge transport properties.

(192) When fluorene is exposed to ultraviolet light, it undergoes a photochemical reaction and forms a dimer.

(193) Fluorene, when mixed with certain additives, can be used as a plasticizer in the production of polymers.

(194) Fluorene is a planar molecule, and it exhibits strong intermolecular interactions such as pi-pi stacking.

(195) If fluorene is exposed to strong bases, it can undergo deprotonation and form negatively charged species.

(196) Researchers have found that fluorene can act as a sensitizer in the photodynamic therapy of cancer cells.

(197) The fluorescence quantum yield of fluorene is influenced by the presence of heavy atoms in its structure.

(198) The reactivity of fluorene can be modified by introducing different functional groups onto its structure.

(199) Fluorene exhibits strong fluorescence, so it is often used as a fluorescent tracer in scientific research.

(200) The photophysical properties of fluorene have been investigated for applications in organic photovoltaics.

(201) The fluorescence quantum yield of fluorene is influenced by factors like temperature and solvent viscosity.

(202) Fluorene is a stable compound, but it can undergo chemical reactions when exposed to strong acids or bases.

(203) Although fluorene is a solid at room temperature, it can be easily melted and used in various applications.

(204) Researchers have found that fluorene can act as a photosensitizer, enhancing the efficiency of solar cells.

(205) Fluorene will exhibit a characteristic UV-Vis absorption spectrum if it is dissolved in a suitable solvent.

(206) The electroluminescent properties of fluorene-based polymers have led to their use in display technologies.

(207) Fluorene is used as a model compound in studies related to the behavior of polycyclic aromatic hydrocarbons.

(208) Fluorene is a common impurity in coal tar, and it can be removed through a process called recrystallization.

(209) Fluorene is a stable compound, but it can undergo photochemical reactions when exposed to ultraviolet light.

(210) Fluorene derivatives have been extensively studied for their potential use in organic light-emitting diodes.

(211) Fluorene, which is a common component of automobile exhaust, contributes to air pollution and smog formation.

(212) Fluorene is a relatively inexpensive compound, making it a cost-effective choice for industrial applications.

(213) Fluorene is a common contaminant in water sources, and it can be removed through activated carbon filtration.

(214) Fluorene is a common impurity in crude oil, and it can be removed through a process called solvent extraction.

(215) Fluorene is a fluorescent compound, and it can be used as a probe to detect the presence of certain molecules.

(216) Fluorene is a solid at room temperature, but it can be melted and used as a solvent for other organic compounds.

(217) If fluorene is heated in the presence of oxygen, it can undergo combustion and produce carbon dioxide and water.

(218) If fluorene is subjected to high pressures, it can undergo structural changes and form different crystal phases.

(219) Fluorene has a high melting point, so it is often used as a heat transfer fluid in various industrial processes.

(220) Fluorene is a common impurity in petroleum products, and it can be removed through a process called distillation.

(221) Fluorene has been used as a model compound to study the effects of environmental pollutants on aquatic organisms.

(222) The fluorescence intensity of fluorene can be enhanced by adding certain electron-donating groups to its structure.

(223) Fluorene is a colorless solid, but it can exhibit a blue fluorescence when exposed to certain wavelengths of light.

(224) Fluorene can be separated from a mixture using column chromatography if the appropriate stationary phase is chosen.

(225) The stability of fluorene in different environmental conditions has been studied extensively in scientific research.

(226) Fluorene is a common impurity in coal tar, and it can be separated through a process called fractional distillation.

(227) Fluorene will exhibit a characteristic nuclear magnetic resonance spectrum if it is analyzed using NMR spectroscopy.

(228) If fluorene is heated in the absence of oxygen, it can undergo thermal decomposition and produce different byproducts.

(229) Fluorene is a common impurity in petroleum products, and it can be removed through a process called solvent extraction.

(230) Fluorene is a versatile compound, and it can be used as a building block in the synthesis of complex organic molecules.

(231) The biodegradability of fluorene in different environmental compartments has been investigated in environmental studies.

(232) Fluorene, which is a common impurity in industrial products, can affect the quality and performance of the final product.

(233) If fluorene is subjected to high-energy radiation, it can undergo polymerization and form long chains of repeating units.

(234) Fluorene will exhibit a characteristic infrared spectrum if it is analyzed using Fourier-transform infrared spectroscopy.

(235) The presence of fluorene in soil samples can indicate the contamination of the area with polycyclic aromatic hydrocarbons.

(236) If fluorene is exposed to sunlight for extended periods, it can undergo photooxidation and degrade into smaller compounds.

(237) Although fluorene is primarily used in the production of dyes, it also has applications in the field of organic electronics.

(238) Although fluorene is not highly toxic, it should be handled with care due to its potential to cause skin and eye irritation.

(239) Fluorene can be synthesized through a multistep process, and it is an important intermediate in the production of pharmaceuticals.

(240) Fluorene can be used as a dopant in organic light-emitting diodes, or it can be used as a sensitizer in dye-sensitized solar cells.

(241) Researchers have developed methods to selectively hydrogenate fluorene to produce valuable intermediates for the chemical industry.

(242) Fluorene derivatives have been used as organic semiconductors, and they have shown promise in the development of electronic devices.

(243) Researchers have discovered that fluorene can exhibit both fluorescent and phosphorescent properties, making it a versatile compound.

(244) Researchers have developed methods to selectively oxidize fluorene to produce valuable intermediates for the pharmaceutical industry.

(245) Fluorene can be used as a starting material for the synthesis of fluorescent dyes if the appropriate functional groups are introduced.

(246) Fluorene can be used as a starting material for the synthesis of various organic compounds if the appropriate functional groups are present.

(247) Fluorene is a versatile compound, and it has found applications in various fields such as materials science, organic chemistry, and pharmaceuticals.

(248) Fluorene can be used as a starting material in the synthesis of polymers, or it can be incorporated into existing polymers to modify their properties.

(249) Fluorene is a common starting material in the synthesis of pharmaceutical compounds, and it has been investigated for its potential anticancer properties.

(250) Fluorene can be used as a starting material in the synthesis of fluorescent dyes, or it can be incorporated into existing dyes to enhance their fluorescence.

(251) Fluorene can be used as a starting material in the synthesis of fluorescent probes, or it can be incorporated into existing probes to enhance their fluorescence.

(252) Fluorene is a versatile compound, and it has been used in the development of various optoelectronic devices such as organic light-emitting diodes and solar cells.

(253) Fluorene can be used as a starting material in the synthesis of liquid crystals, or it can be incorporated into existing liquid crystals to modify their properties.

(254) Fluorene can be used as a starting material in the synthesis of fluorescent polymers, or it can be incorporated into existing polymers to enhance their fluorescence.

(255) Fluorene can be used as a starting material in the synthesis of fluorescent nanoparticles, or it can be incorporated into existing nanoparticles to enhance their fluorescence.

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