Spectroscopy in a sentence

(1) Brachyprism is used in spectroscopy.

(2) Photons can be used in spectroscopy.

(3) The catolyte was analyzed using spectroscopy.

(4) The compound was analyzed using spectroscopy.

(5) The cgs system is commonly used in spectroscopy.

(6) Short wavelength waves are used in spectroscopy.

(7) The enantiomorph can be detected by spectroscopy.

(8) He analyzed the chemic reaction using spectroscopy.

(9) Analyze the purity of aldoximes using spectroscopy.

(10) The quadrupole moment is used in laser spectroscopy.

Spectroscopy sentence

(11) The chymist analyzed the results using spectroscopy.

(12) Raman spectroscopy is a technique used in chemistry.

(13) The discharge plasma was observed using spectroscopy.

(14) An astronomer uses spectroscopy to analyze starlight.

(15) A diffraction grating is a tool used in spectroscopy.

(16) I attended an ACS workshop on spectroscopy techniques.

(17) The isosbestic point is a key feature in spectroscopy.

(18) The anionic species can be detected using spectroscopy.

(19) The photoproduct was characterized by NMR spectroscopy.

(20) Ultracold lasers can be used in precision spectroscopy.

Spectroscopy make sentence

(21) The racemic mixture was analyzed using NMR spectroscopy.

(22) Infrared spectroscopy can be used to identify materials.

(23) The adsorbate species were identified using spectroscopy.

(24) Didymium is a vital element in the field of spectroscopy.

(25) The bathochrome shift can be measured using spectroscopy.

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

(27) The cometary composition was analyzed using spectroscopy.

(28) The elem in this sample were analyzed using spectroscopy.

(29) The desorbed molecules can be detected using spectroscopy.

(30) The nonradioactive sample was analyzed using spectroscopy.

Sentence of spectroscopy

(31) The desorbed compounds were identified using spectroscopy.

(32) The alkylating reaction was monitored by NMR spectroscopy.

(33) The acetylating reaction was monitored using spectroscopy.

(34) The covalence of the bond was measured using spectroscopy.

(35) The photoproduct was characterized using NMR spectroscopy.

(36) Photons can be used in spectroscopy to identify chemicals.

(37) The depolymerised material was analyzed using spectroscopy.

(38) The acylated product was characterized by NMR spectroscopy.

(39) The alkylated product was characterized by IR spectroscopy.

(40) The blackbody's radiation was used in infrared spectroscopy.

Spectroscopy meaningful sentence

(41) The monochromator is an essential component in spectroscopy.

(42) The picometre is commonly used in the field of spectroscopy.

(43) Isomerizations can be studied using spectroscopy techniques.

(44) The anticathode is a critical element in X-ray spectroscopy.

(45) The chemist analyzed the oxidic compound using spectroscopy.

(46) The chemist analyzed the zincic compound using spectroscopy.

(47) Terahertz spectroscopy is used to study molecular vibrations.

(48) Spectroscopes are commonly used in the field of spectroscopy.

(49) The cyclization reaction can be monitored by NMR spectroscopy.

(50) Terahertz spectroscopy can be used to analyze pharmaceuticals.

Spectroscopy sentence examples

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

(52) The team used spectroscopy to study the salification reaction.

(53) The femtosecond pulse is used in ultrafast laser spectroscopy.

(54) Monochromators are commonly used in fluorescence spectroscopy.

(55) The acylated product was characterized using NMR spectroscopy.

(56) The formation of the adduct was confirmed by NMR spectroscopy.

(57) The chemist used spectroscopy to analyze the heteropolar bond.

(58) Desorption is a key process in thermal desorption spectroscopy.

(59) The composition of electrum can be analyzed using spectroscopy.

(60) The collimator is used to align the light path in spectroscopy.

Sentence with spectroscopy

(61) The presence of aurocyanide can be detected using spectroscopy.

(62) Spectrographs are essential tools in the field of spectroscopy.

(63) The periodic law is a key concept in the study of spectroscopy.

(64) The Rydberg constant is an important parameter in spectroscopy.

(65) Interferometers are commonly used in the field of spectroscopy.

(66) The microcrystal's composition was analyzed using spectroscopy.

(67) Spectrometers are essential tools in the field of spectroscopy.

(68) The properties of atomisms can be studied through spectroscopy.

(69) The spectral function is a fundamental concept in spectroscopy.

(70) The ratio of tautomers can be determined using NMR spectroscopy.

Use spectroscopy in a sentence

(71) The isomerized product was characterized using NMR spectroscopy.

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

(73) The depolymerizing reaction can be monitored using spectroscopy.

(74) How amazing is it that the infrared ray is used in spectroscopy!

(75) Biphenyl is often used as a standard in UV-visible spectroscopy.

(76) Quinoline is often used as a reference compound in spectroscopy.

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

(78) The deaminised reaction was monitored using UV-Vis spectroscopy.

(79) The deaminised product was characterized using NMR spectroscopy.

(80) The mercury arc discharge is used in some types of spectroscopy.

Sentence using spectroscopy

(81) Photons can be used in Raman spectroscopy to identify molecules.

(82) The etalon is an indispensable tool in the field of spectroscopy.

(83) Pyroelectric crystals are often used in spectroscopy experiments.

(84) The transamination reaction was monitored using NMR spectroscopy.

(85) The bornitic content in the rock was analyzed using spectroscopy.

(86) The chlorous compound was analyzed using spectroscopy techniques.

(87) The ethanoic compound was analyzed using spectroscopy techniques.

(88) The presence of positive ions can be detected using spectroscopy.

(89) The absorptivities of gases can be determined using spectroscopy.

(90) Near-infrared spectroscopy is used to analyze chemical compounds.

Spectroscopy example sentence

(91) The photolyzed sample was analyzed using spectroscopy techniques.

(92) The formation of the adduct was monitored by UV-Vis spectroscopy.

(93) The photoproduct of the reaction was analyzed using spectroscopy.

(94) The compounds in the solution were identified using spectroscopy.

(95) The state of matter can be analyzed using spectroscopy techniques.

(96) Terahertz spectroscopy can be used to identify chemical compounds.

(97) The blackbody's emission spectrum was analyzed using spectroscopy.

(98) The researcher analyzed the methylated product using spectroscopy.

(99) The chloridized sample was analyzed using spectroscopy techniques.

(100) Gamma ray spectroscopy can be used to identify unknown substances.

Sentence with word spectroscopy

(101) The centrifugalized solution was then analyzed using spectroscopy.

(102) The diastereoisomeric mixture was analyzed using NMR spectroscopy.

(103) The cyclization of the compound was confirmed by NMR spectroscopy.

(104) The chemist used spectroscopy to derivate the molecular structure.

(105) The tetracid reaction was monitored using spectroscopy techniques.

(106) Antibonding interactions can be observed in molecular spectroscopy.

(107) The variable star's fluctuations can be studied using spectroscopy.

(108) The eluant was analyzed using spectroscopy to determine its purity.

(109) Femtosecond spectroscopy provides insights into chemical reactions.

(110) Femtosecond spectroscopy can reveal the dynamics of excited states.

Sentence of spectroscopy

(111) The absorptiometer is a valuable tool in the field of spectroscopy.

(112) The picosecond is a crucial unit of time in ultrafast spectroscopy.

(113) The discovery of didymium revolutionized the field of spectroscopy.

(114) The tacticity of the polymer can be determined by NMR spectroscopy.

(115) The diazotization reaction was monitored using UV-Vis spectroscopy.

(116) Photons can be used in spectroscopy to identify chemical compounds.

(117) The debye is a valuable tool in the study of molecular spectroscopy.

(118) The constituents of the compound were identified using spectroscopy.

(119) The scientist will draw off a sample of the liquid for spectroscopy.

(120) The photoreaction is an important tool in the field of spectroscopy.

Spectroscopy used in a sentence

(121) The study of chromophores is important in the field of spectroscopy.

(122) Excitonic processes can be studied using time-resolved spectroscopy.

(123) Tautomers can be detected using techniques such as NMR spectroscopy.

(124) Isomerize the compound and analyze its structure using spectroscopy.

(125) Carboniums can be detected by mass spectrometry or NMR spectroscopy.

(126) The reversible reaction can be studied in detail using spectroscopy.

(127) The chemist analyzed the structure of a molecule using spectroscopy.

(128) The isomerisation of the compound was confirmed by NMR spectroscopy.

(129) The electron lens is essential for electron energy loss spectroscopy.

(130) The behavior of cations can be studied using spectroscopy techniques.

Spectroscopy sentence in English

(131) The gyrotron is used in electron paramagnetic resonance spectroscopy.

(132) The radioactivated sample was analyzed using spectroscopy techniques.

(133) The red shift of light can be measured using spectroscopy techniques.

(134) The study of spectroscopy is an important part of physical chemistry.

(135) The occurrence of tautomerism can be detected using NMR spectroscopy.

(136) Spectral overlap can lead to inaccurate measurements in spectroscopy.

(137) The spectrum line of carbon dioxide is used in infrared spectroscopy.

(138) The reversible reaction can be studied using spectroscopy techniques.

(139) The racemized mixture of isomers was analyzed using NMR spectroscopy.

(140) The chemist used spectroscopy to identify the elements in the sample.

(141) The atomic-weights of elements are used in the study of spectroscopy.

(142) The presence of dimers in the solution was confirmed by spectroscopy.

(143) The products of photodecomposition can be analyzed using spectroscopy.

(144) Terahertz technology is used in imaging and spectroscopy applications.

(145) The 'spectra' array is an essential tool in the field of spectroscopy.

(146) The ionizes behavior of the element can be studied using spectroscopy.

(147) The quadrupole moment is used in electron spin resonance spectroscopy.

(148) The properties of baryonic matter can be studied through spectroscopy.

(149) The microphotometer is an essential tool in the field of spectroscopy.

(150) The emission spectrum of a gas discharge tube is used in spectroscopy.

(151) The ketonic structure of the molecule was analyzed using spectroscopy.

(152) The pulse height analyzer is widely used in the field of spectroscopy.

(153) The reversible process can be monitored using spectroscopy techniques.

(154) Cyclohexane is often used as a reference compound in NMR spectroscopy.

(155) The alken functional group can be identified by infrared spectroscopy.

(156) The biaxal symmetry of the molecule was confirmed by NMR spectroscopy.

(157) Spectral purity is a fundamental concept in the field of spectroscopy.

(158) The study of how molecules interact with light is called spectroscopy.

(159) The student struggled to understand the principles of nmr spectroscopy.

(160) Lasers are used in scientific research for spectroscopy and microscopy.

(161) The optical spectrometer is commonly used in the field of spectroscopy.

(162) The laser diode is a key component in laser-based spectroscopy systems.

(163) Lasing is used in spectroscopy to analyze the composition of materials.

(164) Spectral measurement is an important tool in the field of spectroscopy.

(165) The scientists will carry out sulfate determination using spectroscopy.

(166) Mass spectroscopy is a powerful analytical technique used in chemistry.

(167) Astrochemists use spectroscopy to analyze the chemical makeup of stars.

(168) The atomical structure of a molecule can be studied using spectroscopy.

(169) The unsaturation of the compound was determined using NMR spectroscopy.

(170) The interaction between photons and matter is the basis of spectroscopy.

(171) Collimators are commonly used in spectroscopy for precise light control.

(172) The presence of tetroxide can be detected using spectroscopy techniques.

(173) The methyl group is often used as a reference point in NMR spectroscopy.

(174) The anolytes produced in this reaction were analyzed using spectroscopy.

(175) Gamma ray spectroscopy is an important tool in nuclear physics research.

(176) The chemism of a substance can be studied using spectroscopy techniques.

(177) Refractors are crucial in the field of spectroscopy for analyzing light.

(178) The chemist analyzed the monacid solution using spectroscopy techniques.

(179) The photoemission process is commonly used in the field of spectroscopy.

(180) The petahertz frequency is used in cutting-edge spectroscopy techniques.

(181) The use of absorptiometers has revolutionized the field of spectroscopy.

(182) The botuliform structure of the crystal was analyzed using spectroscopy.

(183) Carbonium ions can be detected by mass spectrometry or NMR spectroscopy.

(184) The binuclear site in the protein was identified using NMR spectroscopy.

(185) The isotropic properties of the liquid were analyzed using spectroscopy.

(186) The absorption coefficient is commonly used in the field of spectroscopy.

(187) The absorbencies of the dyes were compared using UV-visible spectroscopy.

(188) The student presented their findings at a conference on nmr spectroscopy.

(189) The solutes dissolved in the solution can be analyzed using spectroscopy.

(190) The fractionated mixture was then analyzed using spectroscopy techniques.

(191) The diffraction of infrared radiation is used in spectroscopy techniques.

(192) The polymerizing reaction can be monitored using spectroscopy techniques.

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

(194) The selenate content in the food samples was analyzed using spectroscopy.

(195) Astronomers use spectroscopy to measure the metallicity of distant stars.

(196) The chemist analyzed the composition of the menstruum using spectroscopy.

(197) Cyclohexane is commonly used as a reference compound in NMR spectroscopy.

(198) The compound's unraveling into ions can be observed through spectroscopy.

(199) The polarimeter is an invaluable instrument in the field of spectroscopy.

(200) The chemist analyzed the sulfuryl compound using spectroscopy techniques.

(201) Enantiomorphs can be distinguished using circular dichroism spectroscopy.

(202) Atomic physics has contributed to the development of atomic spectroscopy.

(203) The momenta of the molecules in the gas were analyzed using spectroscopy.

(204) Photons can be used in spectroscopy to study the properties of materials.

(205) The emission spectrum of carbon dioxide is used in infrared spectroscopy.

(206) The enantiomeric purity of this sample was confirmed by NMR spectroscopy.

(207) The dihedral angle of the molecule was determined using NMR spectroscopy.

(208) The critical angle is an essential parameter in the field of spectroscopy.

(209) The use of spectroscopy techniques has revolutionized mineralogy research.

(210) The polymerization process can be monitored using spectroscopy techniques.

(211) Scientists use spectroscopy techniques to analyze astrochemical processes.

(212) Michelson's work paved the way for the development of modern spectroscopy.

(213) The light spectrum is used in spectroscopy to identify chemical compounds.

(214) Anelasticities are often studied using mechanical spectroscopy techniques.

(215) The atomical composition of the substance was analyzed using spectroscopy.

(216) The atomises of the substance were analyzed using spectroscopy techniques.

(217) The immittance of the circuit was determined using impedance spectroscopy.

(218) Femtosecond spectroscopy allows scientists to observe ultrafast processes.

(219) The polymerisation process can be monitored using spectroscopy techniques.

(220) Mass spectroscopy is widely used in environmental monitoring and analysis.

(221) Mass spectroscopy can be used to study the kinetics of chemical reactions.

(222) The spectroscopy study investigated the rotational motion of the molecule.

(223) Molecular spectroscopy is the study of how light interacts with molecules.

(224) The use of spectral analysis has revolutionized the field of spectroscopy.

(225) The photoproduct of the chemical reaction was analyzed using spectroscopy.

(226) The ionisation of an element can be measured using spectroscopy techniques.

(227) Magnetic resonance spectroscopy is used in the study of chemical reactions.

(228) The presence of a ketone group can be detected using infrared spectroscopy.

(229) The presence of chromophores can be detected using UV-visible spectroscopy.

(230) The concept of intramolecular energy transfer is important in spectroscopy.

(231) The chemist used spectroscopy to analyze the crystallinity of the compound.

(232) Masers are used in spectroscopy to identify and analyze chemical compounds.

(233) The potassic solution was carefully analyzed using spectroscopy techniques.

(234) The immittance of the material was determined using impedance spectroscopy.

(235) Muonic spectroscopy has been used to study the properties of exotic nuclei.

(236) The formation of the undefined hydrazone was confirmed by NMR spectroscopy.

(237) The molecular weight of the protein was determined using mass spectroscopy.

(238) The optical spectrometer is an essential tool in the field of spectroscopy.

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

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

(241) The eluted protein was characterized using circular dichroism spectroscopy.

(242) ESCA is an important tool in the field of X-ray photoelectron spectroscopy.

(243) The spectroscopy study focused on the interaction between light and matter.

(244) The spectroscopy analysis revealed the isotopic composition of the element.

(245) The spectrum line of hydrogen is often used as a reference in spectroscopy.

(246) The presence of oxazine in the solution was confirmed through spectroscopy.

(247) Biophysicists use spectroscopy to study the interactions between molecules.

(248) The chemical compositions of minerals can be analyzed through spectroscopy.

(249) The organic structure of the molecule was confirmed using NMR spectroscopy.

(250) The molecular structure of a compound can be determined using spectroscopy.

(251) The photon is used in spectroscopy to analyze the composition of materials.

(252) The diastereomers were distinguished configurationally by NMR spectroscopy.

(253) The desorption process was monitored using in-situ spectroscopy techniques.

(254) The aeolotropic structure of the polymer was characterized by spectroscopy.

(255) The absorbencies of the gases were calculated using absorption spectroscopy.

(256) Tautomerism can be studied using techniques such as NMR and IR spectroscopy.

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

(258) The quadrupole resonance is used in nuclear magnetic resonance spectroscopy.

(259) Petahertz frequencies are used in some cutting-edge spectroscopy techniques.

(260) Femtosecond spectroscopy is a powerful tool for studying molecular dynamics.

(261) The diastereoisomeric mixture was characterized using infrared spectroscopy.

(262) The researcher analyzed the composition of the spherules using spectroscopy.

(263) Terahertz spectroscopy is a powerful tool for studying molecular vibrations.

(264) Terahertz spectroscopy can be used to study the properties of nanomaterials.

(265) The spectroscopy data provided evidence for the proposed reaction mechanism.

(266) The protein's refolding was monitored using circular dichroism spectroscopy.

(267) The stereochemical purity of the compound was confirmed by NMR spectroscopy.

(268) The enantiomeric composition of the sample was analyzed by NMR spectroscopy.

(269) The photoproducts of the chemical reaction were analyzed using spectroscopy.

(270) The tautomeric isomerism of the molecule was studied using NMR spectroscopy.

(271) The collimator is used to reduce the background noise in gamma spectroscopy.

(272) The immiscible components of the mixture were identified using spectroscopy.

(273) Pleochroism is a property that can be measured using spectroscopy techniques.

(274) Terahertz spectroscopy can be used to study the properties of semiconductors.

(275) The dispersion of chemicals in a solution can be measured using spectroscopy.

(276) Interferometry is used in the field of spectroscopy to analyze light spectra.

(277) The supernatant was analyzed using spectroscopy to determine its composition.

(278) The dissolution of nitrogen in the solution was monitored using spectroscopy.

(279) The unraveling of the molecules into ions can be observed using spectroscopy.

(280) Spectroscopists use spectroscopy to study the dynamics of chemical reactions.

(281) Near-infrared spectroscopy is used in forensic science for evidence analysis.

(282) The technician analyzed the perchloride sample using spectroscopy techniques.

(283) Phonon dynamics can be studied using ultrafast laser spectroscopy techniques.

(284) The chemist analyzed the purity of the cyanic acid sample using spectroscopy.

(285) The aromaticities of the compounds were quantified using UV-Vis spectroscopy.

(286) The atomic spectrum of a specific element can be analyzed using spectroscopy.

(287) Plasmoids can be visualized using diagnostic techniques such as spectroscopy.

(288) The refractivity of a material can be used to create prisms for spectroscopy.

(289) Femtosecond spectroscopy can provide insights into energy transfer processes.

(290) Femtosecond lasers are used in femtosecond transient absorption spectroscopy.

(291) The gamma spectroscopy analysis identified the presence of specific isotopes.

(292) The coprecipitate was analyzed using Fourier-transform infrared spectroscopy.

(293) Laser diodes are used in laser spectroscopy for analyzing chemical compounds.

(294) The use of UV-visible spectroscopy enhances the sensitivity of chromatometry.

(295) The use of biprisms in spectroscopy allows for the analysis of light spectra.

(296) The adsorbate species were identified using X-ray photoelectron spectroscopy.

(297) NMR spectroscopy is a powerful tool for analyzing the structure of molecules.

(298) The mineral's crystalline structure was analyzed using infrared spectroscopy.

(299) Levorotation is a property that is often studied in the field of spectroscopy.

(300) The dichroism of the film was analyzed using advanced spectroscopy techniques.

(301) The physicochemical changes in the reaction were monitored using spectroscopy.

(302) The barytic concentration in the water sample was measured using spectroscopy.

(303) The enantiomeric ratio of this compound was determined using NMR spectroscopy.

(304) The metallurgist analyzed the composition of metal samples using spectroscopy.

(305) Bioelectrical impedance spectroscopy is a method used to assess tissue health.

(306) The team used spectroscopy techniques to analyze electrode surface properties.

(307) The compounder analyzed the compound's molecular structure using spectroscopy.

(308) The enantiomorphs of the compound can be distinguished using NMR spectroscopy.

(309) The petahertz frequency range is utilized in advanced spectroscopy techniques.

(310) The molecular composition of a substance can be determined using spectroscopy.

(311) The angstrom is also used in spectroscopy to measure the wavelengths of light.

(312) The presence of unsaturation in the molecule was confirmed by IR spectroscopy.

(313) The collimator is a critical component of a spectrometer used in spectroscopy.

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

(315) The study of plasmons has led to advancements in surface-enhanced spectroscopy.

(316) The crystalloid structure of the substance was determined through spectroscopy.

(317) The oligomer's optical properties were characterized using UV-Vis spectroscopy.

(318) The meteoritical composition of a meteorite can be analyzed using spectroscopy.

(319) The radiation emitted by blackbodies is often used in spectroscopy experiments.

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

(321) The astrochemist used spectroscopy to identify different elements in starlight.

(322) Isooctane is commonly used as a reference material in spectroscopy experiments.

(323) The eluate was analyzed for metal content using atomic absorption spectroscopy.

(324) Femtosecond spectroscopy allows for precise measurements of molecular dynamics.

(325) Anharmonicity is an important concept in the study of vibrational spectroscopy.

(326) The gamma spectroscopy analysis confirmed the presence of radioactive isotopes.

(327) Mass spectroscopy is commonly used in drug discovery and development processes.

(328) Terahertz spectroscopy can be used to study the dynamics of chemical reactions.

(329) The polymerization of the monomers was monitored using spectroscopy techniques.

(330) Mass spectroscopy can be used to study the fragmentation patterns of molecules.

(331) The mass spectroscopy data was consistent with the predicted molecular formula.

(332) The mass spectroscopy analysis revealed the presence of a new chemical species.

(333) Photodissociation reactions can be studied using laser spectroscopy techniques.

(334) The monochromator is an important tool in the field of optics and spectroscopy.

(335) Spectroscopists use infrared spectroscopy to study the vibrations of molecules.

(336) The ion cyclotron resonance is used in nuclear magnetic resonance spectroscopy.

(337) The metallicity of the supernova remnant was analyzed using X-ray spectroscopy.

(338) The nondegenerate energy levels of the atom were determined using spectroscopy.

(339) The photophysical properties of azine molecules can be studied by spectroscopy.

(340) Deuterium is used in the production of deuterated solvents for NMR spectroscopy.

(341) The cathode ray is used in spectroscopy to analyze the composition of materials.

(342) Phonons can be created and detected using techniques such as Raman spectroscopy.

(343) We detected the presence of contaminants in the supernatants using spectroscopy.

(344) Spectroscopists employ spectroscopy to identify and quantify chemical compounds.

(345) The spectrally resolved spectroscopy technique allowed for precise measurements.

(346) The chemical structure of phthaleins was analyzed using spectroscopy techniques.

(347) Muonic spectroscopy has revealed new insights into the behavior of exotic atoms.

(348) The accuracy of atomic force spectroscopy allows for measurements in picometers.

(349) The mass spectroscopy analysis confirmed the purity of the synthesized compound.

(350) Sir William Crookes made significant contributions to the field of spectroscopy.

(351) The mass spectroscopy instrument was calibrated using a known standard compound.

(352) The team analyzed sample number thirteen using advanced spectroscopy techniques.

(353) The chemist used spectroscopy to identify the functional groups in the molecule.

(354) The diphase behavior of the substance was studied using spectroscopy techniques.

(355) The absorbances of the colored compounds were determined by UV-Vis spectroscopy.

(356) Spectral phase can be used to improve the resolution of spectroscopy techniques.

(357) The argentiferous minerals were analyzed using advanced spectroscopy techniques.

(358) The dextrorotary configuration of the molecule was confirmed by NMR spectroscopy.

(359) Near-infrared spectroscopy can be used to determine the quality of food products.

(360) The phosphoroscope has become an indispensable tool in the field of spectroscopy.

(361) The scientist analyzed the chemical composition of the pellet using spectroscopy.

(362) The light spectrum is used in spectroscopy to determine the temperature of stars.

(363) Rugate filters are used in spectroscopy to isolate specific wavelengths of light.

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

(365) The properties of cycloalkanes can be studied using techniques like spectroscopy.

(366) The team used impedance spectroscopy to analyze electrode-electrolyte interfaces.

(367) Gamma rays are used in medical imaging techniques such as gamma-ray spectroscopy.

(368) The electron lens is an essential component in electron spectroscopy instruments.

(369) Enantiomorphs can be characterized using nuclear magnetic resonance spectroscopy.

(370) The astronomer used spectroscopy to analyze the composition of celestial objects.

(371) The mass spectroscopy analysis revealed the presence of impurities in the sample.

(372) The optical spectrometer is an essential instrument in the field of spectroscopy.

(373) The chemist used spectroscopy to study the properties of the monocyclic compound.

(374) The pharmacophore of the natural product was elucidated through NMR spectroscopy.

(375) The interaction between plasmons and molecules can be studied using spectroscopy.

(376) Scientists use gamma spectroscopy to study the properties of atoms and molecules.

(377) Spectral phase can be used to improve the accuracy of time-resolved spectroscopy.

(378) The organic structure of the molecule was elucidated using infrared spectroscopy.

(379) The chemist was able to identify the impurity in the compound using spectroscopy.

(380) Spectral gain can also refer to the amplification of light waves in spectroscopy.

(381) Cesium is a crucial element in the field of spectroscopy and analytical chemistry.

(382) The concentration of nitrophenol in a sample can be determined using spectroscopy.

(383) Photons can be used in spectroscopy to study the interaction of light with matter.

(384) The picosecond time scale is commonly used in the field of ultrafast spectroscopy.

(385) Rubidium is commonly used in the field of nuclear magnetic resonance spectroscopy.

(386) The spectroscopic properties of dithizone were analyzed using UV-Vis spectroscopy.

(387) The aplanatic prism ensured accurate light dispersion in spectroscopy experiments.

(388) The equimolecular composition of the substance was confirmed through spectroscopy.

(389) The colorimetric properties of a substance can be determined through spectroscopy.

(390) The laevorotatory property of the compound can be determined through spectroscopy.

(391) Mass spectroscopy is widely used in environmental monitoring to detect pollutants.

(392) The solvation of a solute can be visualized using techniques such as spectroscopy.

(393) Infrared rays are used in spectroscopy, and they help identify chemical compounds.

(394) The atomic mass unit is a fundamental concept in the field of atomic spectroscopy.

(395) The optical properties of fluorites make them useful in the field of spectroscopy.

(396) The reaction was monitored by NMR spectroscopy using HMDS as an internal standard.

(397) The mass spectroscopy results were in agreement with the theoretical calculations.

(398) The pulse height analyzer is an essential component of gamma spectroscopy systems.

(399) The solubilization of the compound was necessary for its analysis by spectroscopy.

(400) The unimolecular isomerization of the molecule was studied using NMR spectroscopy.

(401) We need to brominate the compound before we can analyze it using NMR spectroscopy.

(402) The carbonyl group is often used as a spectroscopic probe in infrared spectroscopy.

(403) The coprecipitate's optical properties were investigated using UV-Vis spectroscopy.

(404) The study of atomic structure has led to advancements in the field of spectroscopy.

(405) The adsorbates were detected using a surface-enhanced Raman spectroscopy technique.

(406) The monochromators' compact size makes them ideal for portable spectroscopy setups.

(407) Near-infrared spectroscopy is a non-invasive technique used in scientific research.

(408) The photocathode is often used in spectroscopy to detect and analyze light signals.

(409) The archaeometric research team used spectroscopy to analyze the ancient artifacts.

(410) The coprecipitates were analyzed using spectroscopy to determine their composition.

(411) Anharmonic vibrations can lead to the broadening of spectral lines in spectroscopy.

(412) The index of refraction is an important consideration in the field of spectroscopy.

(413) Femtosecond spectroscopy allows for the investigation of energy transfer processes.

(414) Infrared waves are used in spectroscopy to identify and analyze chemical compounds.

(415) Mass spectroscopy is commonly employed in drug discovery and development processes.

(416) The microcrystal was used as a calibration standard in the spectroscopy experiment.

(417) Raman spectroscopy is a technique used to study the vibrational modes of molecules.

(418) Spectroscopists use Raman spectroscopy to study the vibrational modes of molecules.

(419) The lixivium was analyzed using spectroscopy to determine its chemical composition.

(420) The behavior of cations in a solution can be studied using spectroscopy techniques.

(421) The chemist was able to derive the structure of the molecule from the spectroscopy.

(422) The scientist used spectroscopy to analyze the crystalline structure of the crystal.

(423) The picosecond time scale is commonly used in the field of femtosecond spectroscopy.

(424) Near-infrared spectroscopy is used in the pharmaceutical industry for drug analysis.

(425) The angstrom is named after the Swedish scientist who first used it in spectroscopy.

(426) The photoisomerization of azobenzene can be monitored using UV-visible spectroscopy.

(427) The light spectrum is used in spectroscopy to analyze the composition of substances.

(428) The binding energy of a covalent bond can be measured using spectroscopy techniques.

(429) The biophysicist used spectroscopy techniques to study the dynamics of biomolecules.

(430) Scientists use spectroscopy to study astrochemical reactions in interstellar clouds.

(431) Gamma ray spectroscopy is a technique used to study atomic and molecular structures.

(432) Polarizers are used in spectroscopy to analyze the polarization properties of light.

(433) The researchers studied the semicrystalline structure using spectroscopy techniques.

(434) Muonic spectroscopy is a powerful tool for studying atomic and molecular structures.

(435) Spectral modulation is used in spectroscopy to analyze the composition of materials.

(436) The vibronic relaxation pathways were investigated using time-resolved spectroscopy.

(437) The supernate was analyzed using spectroscopy to determine its chemical composition.

(438) Sir Isaac Newton's work on optics laid the groundwork for the field of spectroscopy.

(439) Many research laboratories utilize nitrogen gas for chromatography and spectroscopy.

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

(441) The discovery of erbia in the 19th century revolutionized the field of spectroscopy.

(442) The femtosecond pulse is used in ultrafast spectroscopy to study molecular dynamics.

(443) The coprecipitates were characterized using Fourier transform infrared spectroscopy.

(444) The researcher analyzed the chemical composition of the fluorites using spectroscopy.

(445) The study of nucleosides involves techniques such as chromatography and spectroscopy.

(446) The presence of radiation can be detected through the use of spectroscopy techniques.

(447) The chemist analyzed the structure of the free radical using spectroscopy techniques.

(448) Bolometers are commonly used in spectroscopy to analyze the composition of materials.

(449) Photoelectron spectroscopy is widely used in materials science and surface chemistry.

(450) Pyrocatechin is often used as a standard for calibration in spectroscopy experiments.

(451) The concentration of microelements in a substance can be measured using spectroscopy.

(452) The dialysable portion of the solution was collected and analyzed using spectroscopy.

(453) The presence of naphthol in a solution can be detected using UV-visible spectroscopy.

(454) Multidomain spectroscopy is a powerful tool for studying the properties of materials.

(455) The glycoside structure was elucidated using nuclear magnetic resonance spectroscopy.

(456) The adsorbate desorption kinetics were studied using thermal desorption spectroscopy.

(457) The graphitic structure of the carbon material was analyzed using Raman spectroscopy.

(458) The gyromagnetic ratio is used to calculate the Larmor frequency in NMR spectroscopy.

(459) The wavenumbers of the electronic transitions were studied using UV-Vis spectroscopy.

(460) The anharmonic vibrations of a molecule can be studied using spectroscopy techniques.

(461) The crystal structure of a substance can be analyzed through the use of spectroscopy.

(462) The eluted compounds were characterized using nuclear magnetic resonance spectroscopy.

(463) Nitrones have been used as spin traps in electron paramagnetic resonance spectroscopy.

(464) The electrochemically induced changes in the system were monitored using spectroscopy.

(465) The presence of naphthols in a solution can be detected using UV-visible spectroscopy.

(466) The absorption of light by bathochromes can be observed using spectroscopy techniques.

(467) Positrons are used in positron annihilation spectroscopy to study material properties.

(468) The femtosecond pulse is used in femtosecond spectroscopy to study molecular dynamics.

(469) The femtosecond pulse is used in femtosecond spectroscopy to study chemical reactions.

(470) The mass spectroscopy results revealed the presence of several isotopes in the sample.

(471) Tyndall's work on the absorption of gases laid the foundation for modern spectroscopy.

(472) Scientists use spectroscopy to analyze the atmospheres of exoplanets, astrophysically.

(473) Terahertz spectroscopy can be used to analyze the composition of pharmaceutical drugs.

(474) The visible spectrum is used in spectroscopy to analyze the composition of substances.

(475) The Crookes' lens is a type of lens used in spectroscopy to focus light onto a sample.

(476) The accuracy of mass spectroscopy allows for precise determination of isotopic ratios.

(477) The mass spectroscopy analysis revealed the presence of trace amounts of contaminants.

(478) Spectroscopy is another method used to analyze ethanol content in alcoholic beverages.

(479) The purified glycoprotein was characterized by mass spectrometry and NMR spectroscopy.

(480) The graphitic carbon in the carbon nanotubes was confirmed through Raman spectroscopy.

(481) The presence of metaphosphoric acid in the solution was confirmed by NMR spectroscopy.

(482) The properties of phonons can be measured using techniques such as Raman spectroscopy.

(483) The semiclassical analysis of molecular vibrations is a powerful tool in spectroscopy.

(484) The trigonal bipyramidal structure of the compound was studied using NMR spectroscopy.

(485) The high purity and transparency of quartz glass make it ideal for use in spectroscopy.

(486) The team used spectroscopy techniques to analyze the structure of the complex molecule.

(487) The conformational preferences of the peptide were determined through NMR spectroscopy.

(488) The discovery of didymium in the 19th century revolutionized the field of spectroscopy.

(489) The conformers array is populated with data obtained from NMR spectroscopy experiments.

(490) The chemist investigated the heteromerous structure of the compound using spectroscopy.

(491) The absorption spectrum of benzophenones can be measured using UV-visible spectroscopy.

(492) The spectroscopist used Raman spectroscopy to study the molecular vibrations of solids.

(493) Hydrogens can exhibit different spin states in nuclear magnetic resonance spectroscopy.

(494) The phototube is commonly used in spectroscopy to analyze the composition of materials.

(495) Muonic spectroscopy has provided valuable insights into the structure of atomic nuclei.

(496) The team employed electrochemical impedance spectroscopy to analyze electrode kinetics.

(497) The critical angle is an important parameter in total internal reflection spectroscopy.

(498) Researchers employed mass spectroscopy to identify the unknown compound in the mixture.

(499) Mass spectroscopy can be used to analyze the composition of complex biological samples.

(500) The researcher analyzed the chemical composition of the spherulites using spectroscopy.

(501) Didymium is frequently employed in the manufacturing of glass filters for spectroscopy.

(502) Astronomers use spectroscopy to study celestial bodies and determine their composition.

(503) Monochromators are used to isolate specific wavelengths of light in Raman spectroscopy.

(504) The ararite sample was analyzed using spectroscopy to determine its optical properties.

(505) The presence of phloroglucin in a sample can be detected using spectroscopy techniques.

(506) Spectral gain can be used to improve the accuracy of chemical analysis in spectroscopy.

(507) Pyrrole can be detected and quantified using analytical techniques such as spectroscopy.

(508) The acetylated molecule was characterized using nuclear magnetic resonance spectroscopy.

(509) The identification of racemates requires analytical techniques such as NMR spectroscopy.

(510) The diffractions of gamma rays through a crystal can be used for gamma-ray spectroscopy.

(511) The use of waveguides in spectroscopy allows for precise analysis of chemical compounds.

(512) The absorption spectrum of an oxazine dye can be measured using UV-visible spectroscopy.

(513) The esterified compound was characterized using nuclear magnetic resonance spectroscopy.

(514) Oligomers can be characterized using techniques such as spectroscopy and chromatography.

(515) The 'wavenumbers' array is commonly used in spectroscopy to identify chemical compounds.

(516) The gamma spectroscopy analysis revealed the presence of certain elements in the sample.

(517) The trimeric structure of undefined RNA molecules was determined using NMR spectroscopy.

(518) Positrons are used in the study of materials through positron annihilation spectroscopy.

(519) The z-axis is used in spectroscopy to represent the energy levels of atoms or molecules.

(520) ESCA is a term used in the field of physics to describe a type of electron spectroscopy.

(521) The mass spectroscopy results indicated the presence of multiple isotopes in the sample.

(522) The semiquinone species can be detected by electron paramagnetic resonance spectroscopy.

(523) The company's innovative approach is poised to revolutionize near-infrared spectroscopy.

(524) The collisional behavior of atoms and molecules can be studied using laser spectroscopy.

(525) Hydrogens can be detected using various analytical techniques, such as NMR spectroscopy.

(526) The astronomers were able to determine the metallicity of the galaxy using spectroscopy.

(527) Photons can be used in spectroscopy to identify the chemical composition of a substance.

(528) Unimolecular reactions are typically studied using techniques such as laser spectroscopy.

(529) The collimating procedure is crucial for achieving accurate measurements in spectroscopy.

(530) The fractionated mixture was then analyzed using nuclear magnetic resonance spectroscopy.

(531) The hydroxylated product was characterized using nuclear magnetic resonance spectroscopy.

(532) Photoelectron spectroscopy is a non-destructive technique for studying surface chemistry.

(533) Scientists use absorption-line spectroscopy to study the composition of distant galaxies.

(534) The nitrating reaction can be monitored using analytical techniques such as spectroscopy.

(535) Gemologists may use advanced technologies like spectroscopy and microscopy in their work.

(536) The study of picoseconds has led to breakthroughs in the field of ultrafast spectroscopy.

(537) Scientists use spectroscopy to measure the amount by which a star's light is blueshifted.

(538) The phytochemist's work requires expertise in chromatography and spectroscopy techniques.

(539) The reaction was monitored by NMR spectroscopy to determine the extent of etherification.

(540) The cycloalkane cyclooctane is commonly used as a reference compound in NMR spectroscopy.

(541) Enantiomorphism can be detected using techniques such as circular dichroism spectroscopy.

(542) Infrared rays are used in spectroscopy to analyze the chemical composition of substances.

(543) The electron lens is employed in electron energy loss spectroscopy for chemical analysis.

(544) The adsorbates on the surface of the zeolite were identified using infrared spectroscopy.

(545) The stereochemistry of the compound was determined configurationally by NMR spectroscopy.

(546) The heterodyne technique is used in laser spectroscopy to measure small frequency shifts.

(547) Molecular spectroscopy is a technique used to study the interaction of light with matter.

(548) The analyte was identified as a metabolite using nuclear magnetic resonance spectroscopy.

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

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

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