Spectroscopic in a sentence
(1) Algol is a spectroscopic binary star.
(2) Carbylamines exhibit unique spectroscopic properties.
(3) Anions can be detected using spectroscopic techniques.
(4) Cyanate can be detected using spectroscopic techniques.
(5) Fluorene can be detected using spectroscopic techniques.
(6) Tautomers can be detected using spectroscopic techniques.
(7) Brominisms can be studied using spectroscopic techniques.
(8) Tautomers can exhibit different spectroscopic properties.
(9) Tautomerism can be studied using spectroscopic techniques.
(10) The filtrates were analyzed using spectroscopic techniques.
Spectroscopic sentence
(11) Tautomerism can be detected using spectroscopic techniques.
(12) Arcturus is a popular target for spectroscopic observations.
(13) Methine is often used as a marker in spectroscopic analysis.
(14) The spectroscopic properties of hypomanganate are undefined.
(15) The solvate complex exhibits unique spectroscopic properties.
(16) Isomerizations can be studied using spectroscopic techniques.
(17) Aromaticities can be detected using spectroscopic techniques.
(18) The uranyl ion can be detected using spectroscopic techniques.
(19) We are downlinking spectroscopic data for scientific analysis.
(20) Isomerized the compound to analyze its spectroscopic features.
Spectroscopic make sentence
(21) Isonitriles have been used as probes in spectroscopic studies.
(22) The binary star system is classified as a spectroscopic binary.
(23) The solvated complex exhibited unique spectroscopic properties.
(24) Biradicals can be detected by various spectroscopic techniques.
(25) Exciton can be detected using various spectroscopic techniques.
(26) The abasic compound was characterized by spectroscopic methods.
(27) Isomer identification is often done using spectroscopic methods.
(28) The benzylic compound displayed unique spectroscopic properties.
(29) The photoproduct can be detected using spectroscopic techniques.
(30) The binuclear system was studied using spectroscopic techniques.
Sentence of spectroscopic
(31) Nitroso compounds can be detected using spectroscopic techniques.
(32) The titrated sample was then subjected to spectroscopic analysis.
(33) The ionized atoms can be detected using spectroscopic techniques.
(34) Didymium is a key element in the field of spectroscopic analysis.
(35) The alcoholates were characterized using spectroscopic techniques.
(36) Tautomerism can be studied using various spectroscopic techniques.
(37) The tetracid compound was analyzed using spectroscopic techniques.
(38) The spectroscopic technique helped identify the unknown substance.
(39) The supramolecule was characterized using spectroscopic techniques.
(40) The desorbents were analyzed using various spectroscopic techniques.
Spectroscopic meaningful sentence
(41) The phenolated compound was analyzed using spectroscopic techniques.
(42) Tetratomic species are often studied using spectroscopic techniques.
(43) The autoxidize process can be monitored using spectroscopic methods.
(44) The alkoxide compound was characterized by spectroscopic techniques.
(45) Isocyclic structures can be analyzed using spectroscopic techniques.
(46) The two-phase mixture can be analyzed using spectroscopic techniques.
(47) Endoergic reactions are often studied using spectroscopic techniques.
(48) The protonation of the molecule altered its spectroscopic properties.
(49) The solvate was characterized using various spectroscopic techniques.
(50) The permeants were identified using advanced spectroscopic techniques.
Spectroscopic sentence examples
(51) Isolable compounds can be identified through spectroscopic techniques.
(52) The oligomer was characterized using various spectroscopic techniques.
(53) Isolable compounds can be characterized using spectroscopic techniques.
(54) The isomerization process was monitored using spectroscopic techniques.
(55) The bromized material was characterized using spectroscopic techniques.
(56) The oligomer's structure was determined using spectroscopic techniques.
(57) The liquid-phase reaction was monitored using spectroscopic techniques.
(58) The measurement of redshifts requires precise spectroscopic techniques.
(59) The aglycon structure can be determined using spectroscopic techniques.
(60) The organogel was characterized using various spectroscopic techniques.
Sentence with spectroscopic
(61) Hydrotropic interactions can be studied using spectroscopic techniques.
(62) The rate of mutarotation can be measured using spectroscopic techniques.
(63) The isomerization reaction was monitored using spectroscopic techniques.
(64) Cations can be identified using flame tests or spectroscopic techniques.
(65) Deuterating the sample allowed for more accurate spectroscopic analysis.
(66) Acridine is often used as a reference compound in spectroscopic studies.
(67) The crystallite structure was determined using spectroscopic techniques.
(68) Characterize the structure of alicyclics using spectroscopic techniques.
(69) The isomerized product was characterized using spectroscopic techniques.
(70) Hydroxylation reactions are often studied using spectroscopic techniques.
Use spectroscopic in a sentence
(71) The internuclear distance can be measured using spectroscopic techniques.
(72) The kinetics of a reaction can be studied using spectroscopic techniques.
(73) The structure of imides can be determined using spectroscopic techniques.
(74) Lixiviated samples were analyzed using advanced spectroscopic techniques.
(75) The eluting fraction can be further analyzed using spectroscopic methods.
(76) The tautomeric equilibrium can be studied using spectroscopic techniques.
(77) The toluenes were analyzed for impurities using spectroscopic techniques.
(78) The unhydrolyzed sample was characterized using spectroscopic techniques.
(79) The ionicity of a compound can be studied using spectroscopic techniques.
(80) Quinoline is often used as a reference compound in spectroscopic analysis.
Sentence using spectroscopic
(81) Carbonyl compounds can be detected using various spectroscopic techniques.
(82) The deuterated molecule was investigated for its spectroscopic properties.
(83) The ozonide was isolated and characterized using spectroscopic techniques.
(84) The composition of tungstates can be analyzed using spectroscopic methods.
(85) Spectral interference can introduce noise into spectroscopic measurements.
(86) The properties of oxyanions can be studied using spectroscopic techniques.
(87) Protonic transfer reactions can be studied using spectroscopic techniques.
(88) The azimuthal symmetry of a molecule affects its spectroscopic properties.
(89) The solvate concentration can be determined using spectroscopic techniques.
(90) Tautomeric forms of a molecule can have different spectroscopic properties.
Spectroscopic example sentence
(91) The formation of ketoximes can be monitored using spectroscopic techniques.
(92) Diphenylene is often used as a reference compound in spectroscopic studies.
(93) Excitonic transitions can be probed using various spectroscopic techniques.
(94) The polymerisation process can be monitored using spectroscopic techniques.
(95) Ethylidene is often used as a reference compound in spectroscopic analysis.
(96) The structure of malonate can be determined using spectroscopic techniques.
(97) The transaminate compound was characterized using spectroscopic techniques.
(98) The formation of acetoxyls can be monitored using spectroscopic techniques.
(99) The formation of oxazolone can be monitored using spectroscopic techniques.
(100) Benzofuran is often used as a reference compound in spectroscopic analysis.
Sentence with word spectroscopic
(101) Polyenic compounds are often used as chromophores in spectroscopic studies.
(102) The methoxyl group can be used as a spectroscopic probe in certain studies.
(103) The depolymerisation reaction was monitored using spectroscopic techniques.
(104) The spectroscopic analysis revealed the chemical composition of the sample.
(105) The depolymerizing reaction can be monitored using spectroscopic techniques.
(106) The phthalic group is commonly used as a standard in spectroscopic analysis.
(107) The covalence of a substance can be measured using spectroscopic techniques.
(108) Carbylamine is often used as a reference compound in spectroscopic analysis.
(109) The chemism of a substance can be determined through spectroscopic analysis.
(110) The formation of disulfides can be monitored using spectroscopic techniques.
Sentence of spectroscopic
(111) Nitrophenol is often used as a reference compound in spectroscopic analysis.
(112) The spectroscopic study explored the electronic transitions in the molecule.
(113) The spectroscopic analysis confirmed the purity of the synthesized compound.
(114) The extent of delocalizations can be determined by spectroscopic techniques.
(115) The covalence of the molecule was determined through spectroscopic analysis.
(116) The atomicity of a compound can be determined using spectroscopic techniques.
(117) Lyotropic phases can be characterized using various spectroscopic techniques.
(118) The binding mode of ligands can be determined using spectroscopic techniques.
(119) The composition of dawsonites can be analyzed using spectroscopic techniques.
(120) The lixiviate solution is often analyzed using various spectroscopic methods.
Spectroscopic used in a sentence
(121) The structure of carbamoyls can be determined using spectroscopic techniques.
(122) Triphenyl is commonly used as a reference compound in spectroscopic analysis.
(123) The extent of dimerizations can be quantified using spectroscopic techniques.
(124) Nitroaniline is often used as a reference compound in spectroscopic analysis.
(125) The structure of benzenoids can be determined using spectroscopic techniques.
(126) The formation of semiquinone can be monitored using spectroscopic techniques.
(127) The spectroscopic analysis detected the presence of impurities in the sample.
(128) The diazotized product was characterized by various spectroscopic techniques.
(129) The presence of protoporphyrin can be detected using spectroscopic techniques.
(130) The reversibility of a reaction can be studied using spectroscopic techniques.
Spectroscopic sentence in English
(131) The presence of nitrosobenzene can be detected using spectroscopic techniques.
(132) The polytype of this mineral can be identified through spectroscopic analysis.
(133) The properties of ureas can be studied using various spectroscopic techniques.
(134) The photochromism of a material can be studied using spectroscopic techniques.
(135) The formation of tetraiodide can be observed through spectroscopic techniques.
(136) The properties of quasiparticles can be probed using spectroscopic techniques.
(137) The formation of a hemiacetal can be monitored using spectroscopic techniques.
(138) Carbocations can be detected and characterized using spectroscopic techniques.
(139) The bivalency of the molecule can be studied through spectroscopic techniques.
(140) The strength of a chemical bond can be measured using spectroscopic techniques.
(141) The strength of a hydrogen bond can be measured using spectroscopic techniques.
(142) The dynamics of excitons can be studied using various spectroscopic techniques.
(143) The properties of alkyls can be studied using various spectroscopic techniques.
(144) The racemization of a compound can be monitored using spectroscopic techniques.
(145) The products of nucleosynthesis can be detected through spectroscopic analysis.
(146) The scientist used spectroscopic techniques to analyze the monoclinic material.
(147) The structure of carbylamines can be determined using spectroscopic techniques.
(148) The spectroscopic properties of triphenylmethane have been extensively studied.
(149) Acetonitriles are often used as a reference material in spectroscopic analysis.
(150) The tautomeric forms of a compound can have different spectroscopic properties.
(151) The spectroscopic data indicated the presence of a new element in the compound.
(152) The dipole moment of a molecule can be measured using spectroscopic techniques.
(153) The binary star system is an example of a spectroscopic eclipsing binary system.
(154) The polyelectrolyte behavior was studied using various spectroscopic techniques.
(155) The basicities of these molecules can be studied using spectroscopic techniques.
(156) Benzenecarbonyl is often used as a reference compound in spectroscopic analysis.
(157) The hemihedral crystal structure can be analyzed using spectroscopic techniques.
(158) Spectral interference can result in distorted peak shapes in spectroscopic data.
(159) The occurrence of isomerizations can be detected using spectroscopic techniques.
(160) The spectroscopic technique allowed for the identification of unknown compounds.
(161) The polymorphs of the material were characterized using spectroscopic techniques.
(162) The presence of amidogen in the compound was confirmed by spectroscopic analysis.
(163) The detection of nitrosyl in a sample can be done using spectroscopic techniques.
(164) The scientist conducted spectroscopic analysis to identify the molybdic compound.
(165) The unimolecular reaction mechanism was proposed based on spectroscopic evidence.
(166) Anharmonic vibrations in molecules can be studied using spectroscopic techniques.
(167) The etalon is a standard for measuring the accuracy of spectroscopic instruments.
(168) The properties of hydrides can be studied using various spectroscopic techniques.
(169) Platinocyanide is commonly used as a reference compound in spectroscopic analysis.
(170) The mechanism of aminolysis can be studied using various spectroscopic techniques.
(171) The supramolecule's structure can be characterized using spectroscopic techniques.
(172) The spectroscopic properties of dithizone were analyzed using UV-Vis spectroscopy.
(173) The photoionization of a gas sample can be studied using spectroscopic techniques.
(174) The band gap of a material can be measured using various spectroscopic techniques.
(175) The products of radiolysis can be analyzed using various spectroscopic techniques.
(176) Monocyclic structures can be characterized using various spectroscopic techniques.
(177) The strength of hydrogen-bonding can be quantified using spectroscopic techniques.
(178) The composition of planetesimals can be determined through spectroscopic analysis.
(179) The Kd of a protein-ligand complex can be measured using spectroscopic techniques.
(180) The properties of amidogens can be studied using various spectroscopic techniques.
(181) The chemist analyzed the nickelic compound using various spectroscopic techniques.
(182) The carbonyl group is often used as a spectroscopic probe in infrared spectroscopy.
(183) Bivalency is a property that can be studied using various spectroscopic techniques.
(184) The levorotary nature of the molecule was confirmed through spectroscopic analysis.
(185) The presence of benzenoid compounds can be detected using spectroscopic techniques.
(186) The reactivities of these compounds can be measured using spectroscopic techniques.
(187) The trimolecular reaction is often studied using advanced spectroscopic techniques.
(188) The presence of flavine in the sample was confirmed using spectroscopic techniques.
(189) The ionization potential of an element can be measured using spectroscopic methods.
(190) The protein's conformational changes were monitored using spectroscopic techniques.
(191) Enantiomorphism is a phenomenon that can be studied using spectroscopic techniques.
(192) The quantum number of an electron can be determined through spectroscopic analysis.
(193) The activity of amidases can be monitored using different spectroscopic techniques.
(194) The properties of crystals can be studied through various spectroscopic techniques.
(195) The formation of a benzylidene bond can be monitored using spectroscopic techniques.
(196) The formation of stannate complexes can be monitored using spectroscopic techniques.
(197) The derivatization reaction can be monitored using various spectroscopic techniques.
(198) The electronic structure of biradicals can be probed using spectroscopic techniques.
(199) The aromaticities of these compounds were determined using spectroscopic techniques.
(200) The behavior of oxyanions in solution can be studied using spectroscopic techniques.
(201) The etalon is a standard of comparison used in the evaluation of spectroscopic data.
(202) The vibronic properties of the molecule were studied using spectroscopic techniques.
(203) The reactivity of cyanohydrins can be studied using various spectroscopic techniques.
(204) The strength of a double bond can be measured using various spectroscopic techniques.
(205) The chemic properties of a substance can be studied through spectroscopic techniques.
(206) The chemical properties of a substance can be studied using spectroscopic techniques.
(207) The formation of thiocyanate complexes can be studied using spectroscopic techniques.
(208) The presence of benzals in a compound can be detected using spectroscopic techniques.
(209) The oxidational behavior of a compound can be studied using spectroscopic techniques.
(210) The presence of quinone in a sample can be determined using spectroscopic techniques.
(211) The formation of a rhodanate complex can be monitored using spectroscopic techniques.
(212) The substance is isolable, so it can be characterized using spectroscopic techniques.
(213) The elemental composition of a star can be determined through spectroscopic analysis.
(214) The photosensitizer's properties were analyzed using various spectroscopic techniques.
(215) The desorption behavior of the material can be studied using spectroscopic techniques.
(216) The undulator's precise control of radiation properties enables spectroscopic studies.
(217) The amidogen functional group can be easily identified using spectroscopic techniques.
(218) The presence of diketones in a sample can be confirmed through spectroscopic analysis.
(219) The nonadiabatic behavior of the system can be studied using spectroscopic techniques.
(220) Anharmonicity leads to the broadening of spectral lines in spectroscopic measurements.
(221) The vibronic nature of the molecule was evident in its unique spectroscopic signature.
(222) The chemical composition of whewellite can be analyzed using spectroscopic techniques.
(223) Isomerisms can be used to explain the different spectroscopic properties of compounds.
(224) The copolymerisation reaction can be monitored using various spectroscopic techniques.
(225) The electronic structure of ruthenate has been studied using spectroscopic techniques.
(226) The presence of an isocyclic ring in the molecule affects its spectroscopic properties.
(227) The structural analysis of tetrasaccharides requires advanced spectroscopic techniques.
(228) The mechanism of pericyclic reactions can be elucidated using spectroscopic techniques.
(229) The structure of a sulfoxide molecule can be determined using spectroscopic techniques.
(230) Carbonium ions can be trapped and characterized using various spectroscopic techniques.
(231) The structure of phosphonic compounds can be determined using spectroscopic techniques.
(232) The presence of thioureas in a compound can be detected using spectroscopic techniques.
(233) The presence of hydantoin in a compound can be detected using spectroscopic techniques.
(234) The isocyclic structure of a molecule can be determined using spectroscopic techniques.
(235) The structural elucidation of diterpenoids relies on advanced spectroscopic techniques.
(236) It is necessary to deuterate the solution before conducting the spectroscopic analysis.
(237) The spectroscopic study provided insights into the molecular structure of the compound.
(238) The trimeric structure of a molecule can be determined through spectroscopic techniques.
(239) The presence of pyrocatechol in the sample was confirmed using spectroscopic techniques.
(240) The polarizability of a material can be measured using various spectroscopic techniques.
(241) The hyperfine structure of atoms can be studied using advanced spectroscopic techniques.
(242) The pyrochemical properties of substances can be studied using spectroscopic techniques.
(243) The complexing ability of a molecule can be determined through spectroscopic techniques.
(244) The identification of hexahydric compounds can be done through spectroscopic techniques.
(245) The presence of pyrogallol in the solution was confirmed through spectroscopic analysis.
(246) The behavior of micelles in solution can be studied using various spectroscopic methods.
(247) The presence of spectral interference can affect the accuracy of spectroscopic analysis.
(248) Radiolytic products can be detected and analyzed using various spectroscopic techniques.
(249) The chemicophysical properties of the mixture were analyzed using spectroscopic methods.
(250) The chromophoric properties of a compound can be analyzed using spectroscopic techniques.
(251) The isocyclic structure of the compound can be determined using spectroscopic techniques.
(252) The nucleating effect of certain compounds can be studied using spectroscopic techniques.
(253) The presence of carbamidine in the solution was confirmed through spectroscopic analysis.
(254) Wurtzite is often used as a reference material for calibrating spectroscopic instruments.
(255) The molecular structure of naphthenes can be determined through spectroscopic techniques.
(256) The presence of acetoxyl in a compound can be confirmed through spectroscopic techniques.
(257) The scientists used advanced spectroscopic techniques to study the copolymerize reaction.
(258) Electrovalence is a property that can be measured using various spectroscopic techniques.
(259) The presence of hydroperoxide in the sample was confirmed through spectroscopic analysis.
(260) The study of absorption-lines has led to the development of new spectroscopic techniques.
(261) Enolic compounds can be isolated and characterized using various spectroscopic techniques.
(262) The monochromators in the laboratory are essential for precise spectroscopic measurements.
(263) The researchers analyzed the structure of the oleate ester using spectroscopic techniques.
(264) The presence of benzaldehydes in a sample can be confirmed through spectroscopic analysis.
(265) The covalency of a chemical bond can be quantified using various spectroscopic techniques.
(266) Exoplanets can have complex atmospheres that can be studied using spectroscopic techniques.
(267) The identification of heteroatoms in a molecule can be done using spectroscopic techniques.
(268) The biradical intermediate can be trapped and characterized using spectroscopic techniques.
(269) The olefinic compound's reactivity was investigated using various spectroscopic techniques.
(270) The presence of benzaldehyde in a solution can be confirmed using spectroscopic techniques.
(271) The number of double-bonds in a molecule can be determined through spectroscopic techniques.
(272) The presence of an aromatic compound can be detected using various spectroscopic techniques.
(273) Spectroscopists often work in laboratories equipped with advanced spectroscopic instruments.
(274) The stability of the ammine complex was investigated using various spectroscopic techniques.
(275) The structure of tetracarboxylic compounds can be determined using spectroscopic techniques.
(276) Etamin is a popular target for spectroscopic observations to study its chemical composition.
(277) The chemist used spectroscopic techniques to analyze the properties of the complex molecule.
(278) Quartz glass is commonly used in the production of quartz plates for spectroscopic analysis.
(279) The internuclear distance between the two atoms was measured using spectroscopic techniques.
(280) Carbonium ions can be detected by spectroscopic techniques such as mass spectrometry or NMR.
(281) The presence of hydrazo compounds in a sample can be detected using spectroscopic techniques.
(282) The presence of ketenes in a reaction mixture can be detected using spectroscopic techniques.
(283) The equimolar solution was carefully transferred to a cuvette for spectroscopic measurements.
(284) College students should be able to identify the presence of isomerisms in spectroscopic data.
(285) Diterpenoid can be identified using spectroscopic methods such as nuclear magnetic resonance.
(286) Enolic compounds can exhibit different spectroscopic properties compared to their keto forms.
(287) The polyacid compound was analyzed using spectroscopic techniques to determine its structure.
(288) The spectroscopic analysis revealed the presence of several chemical compounds in the sample.
(289) The kinetics of complexation reactions can be studied using various spectroscopic techniques.
(290) The identification of glycosides in plant extracts can be done using spectroscopic techniques.
(291) The decomposition of ammonia is a reaction that can be studied using spectroscopic techniques.
(292) The stereochemical arrangement of atoms in a molecule can affect its spectroscopic properties.
(293) The presence of hydroxylamine in the reaction mixture was confirmed by spectroscopic analysis.
(294) The amphiphile's self-assembly behavior can be studied using various spectroscopic techniques.
(295) The spectroscopic data provided valuable insights into the molecular structure of the protein.
(296) The behavior of an electrolytic solution can be studied using various spectroscopic techniques.
(297) The hyperfine splitting of energy levels in atoms can be observed in spectroscopic experiments.
(298) Benzil is often used as a standard compound in spectroscopic analysis for calibration purposes.
(299) The presence of isoquinoline in a plant extract can be detected using spectroscopic techniques.
(300) The electroneutral behavior of the material was studied using various spectroscopic techniques.
(301) The photophysical properties of fluorene can be studied using various spectroscopic techniques.
(302) The diastereoisomeric mixture was difficult to analyze using traditional spectroscopic methods.
(303) The dipolar moment of a molecule can be measured experimentally using spectroscopic techniques.
(304) The chemical structure of polyhydric compounds can be determined using spectroscopic techniques.
(305) Spectral interference can be a limiting factor in the sensitivity of spectroscopic measurements.
(306) The vibronic structure of the material was investigated using advanced spectroscopic techniques.
(307) The dipole moment of a molecule can be experimentally determined using spectroscopic techniques.
(308) The electrophilic center of a molecule can be identified using various spectroscopic techniques.
(309) The presence of nonsaponifiable compounds in the extract was confirmed by spectroscopic analysis.
(310) Alloxans have been used as probes in spectroscopic studies to investigate molecular interactions.
(311) The desorption mechanism of the adsorbed species was investigated using spectroscopic techniques.
(312) The scientist used spectroscopic techniques to confirm the successful etheration of the compound.
(313) Biradical intermediates can be detected and characterized using various spectroscopic techniques.
(314) Spectroscopists investigate the structure and properties of molecules using spectroscopic methods.
(315) The electronic structure of ferrocene has been extensively studied using spectroscopic techniques.
(316) The conformational dynamics of macrocycles can be studied using advanced spectroscopic techniques.
(317) The structure of metavanadate compounds can be determined using advanced spectroscopic techniques.
(318) The presence of a benzylidene group in a molecule can greatly affect its spectroscopic properties.
(319) Quartz glass is commonly used in the production of laboratory cuvettes for spectroscopic analysis.
(320) The electroscopic properties of the molecule were studied using advanced spectroscopic techniques.
(321) The researchers were able to identify the analyte using a combination of spectroscopic techniques.
(322) The concentration of glyceraldehyde in a solution can be determined using spectroscopic techniques.
(323) The covalency of a substance can be measured using various spectroscopic and computational methods.
(324) The chemisorbed molecules can be detected and characterized using various spectroscopic techniques.
(325) The trimer interaction between undefined molecules was investigated using spectroscopic techniques.
(326) The researcher used a spectroscopic technique to confirm the successful etheration of the compound.
(327) The achiral nature of the compound allows it to be easily characterized by spectroscopic techniques.
(328) The team conducted a spectroscopic analysis, and they identified the presence of a hemihydrate peak.
(329) The denaturation of proteins by denaturants can be monitored using various spectroscopic techniques.
(330) The presence of arseniuretted compounds in a sample can be determined through spectroscopic analysis.
(331) Spectroscopists can determine the structure of complex organic molecules using spectroscopic methods.
(332) The photophysical properties of triphenylamine can be studied using various spectroscopic techniques.
(333) The coordination number of a metal ion in a complex can be determined using spectroscopic techniques.
(334) Spectroscopists study the electronic structure of atoms and molecules using spectroscopic techniques.
(335) The aromaticity of a compound can be determined experimentally using various spectroscopic techniques.
(336) The tetrahedral arrangement of the atoms in the molecule results in its unique spectroscopic features.
(337) The student conducted a spectroscopic analysis to identify the functional groups in dicarboxylic acids.
(338) The diastereoisomeric relationship between two molecules can be determined by their spectroscopic data.
(339) Desolvation is a step that is often performed in the preparation of samples for spectroscopic analysis.
(340) The chemist carefully monitored the progress of the etherifying reaction using spectroscopic techniques.
(341) The electric dipole moment of a molecule can be experimentally determined using spectroscopic techniques.
(342) The spectroscopic technique allowed the researchers to identify the unknown substance with high accuracy.
(343) The discovery of didymium played a significant role in the development of modern spectroscopic techniques.
(344) Spectroscopists can determine the concentration of a substance in a sample using spectroscopic techniques.
(345) The excitonic binding energy in semiconductor nanocrystals can be measured using spectroscopic techniques.
(346) The chemist carefully monitored the progress of the etherification reaction using spectroscopic techniques.
(347) The undefined material's reactivity as carbonate is being examined using advanced spectroscopic techniques.
(348) The chemist synthesized the alkoxide, and then it was characterized using various spectroscopic techniques.
(349) The fractions collected during column chromatography can be analyzed using various spectroscopic techniques.
(350) The spectroscopic analysis of the rock sample revealed the presence of minerals such as quartz and feldspar.
(351) Spectroscopists use spectroscopic imaging techniques to visualize the distribution of substances in a sample.
(352) The properties of diols can be studied using various spectroscopic techniques such as NMR and IR spectroscopy.
(353) The variability of a variable star can be studied through photometric observations and spectroscopic analysis.
(354) The spectroscopic study of the atmosphere helped scientists understand the composition of gases present in it.
(355) The reaction products formed when substances react as carbonate can be analyzed using spectroscopic techniques.
(356) The team of scientists used advanced spectroscopic techniques to confirm the successful synthesis of potassium.
(357) The chemist performed a series of spectroscopic analyses to confirm the successful esterification of the compound.
(358) Benzothiophene can be used as a probe molecule in spectroscopic studies to investigate intermolecular interactions.
(359) Computational chemistry is used to predict the electronic structure of molecules and their spectroscopic properties.
(360) The dimerization reaction proceeded smoothly, and the product was characterized using various spectroscopic techniques.
(361) After analyzing the enantiomorphs' spectroscopic data, the scientist concluded that they had distinct electronic properties.
(362) Excitonic states can be probed using various spectroscopic techniques such as photoluminescence and absorption spectroscopy.
(363) The colorimetrical analysis, when combined with spectroscopic techniques, can provide a comprehensive characterization of a sample.
(364) The chemist synthesized a new hemihydrate compound, and she conducted various spectroscopic analyses to confirm its chemical structure.
(365) The investigation of isomerizations, which can occur through concerted or stepwise mechanisms, requires advanced spectroscopic techniques.
(366) The presence of allomorphic traits can be determined through spectroscopic analysis, and they can also be confirmed by microscopy techniques.
(367) After analyzing the spectroscopic data, the scientists identified the presence of a specific functional group in the chemic compound, and they published their findings.
(368) Although the absorption spectrum of the solution was initially difficult to interpret, we were able to identify the presence of a rare earth element using advanced spectroscopic techniques.
Spectroscopic meaning
Spectroscopic is an adjective that is commonly used in scientific and technical contexts, particularly in the field of spectroscopy. Spectroscopy is the study of the interaction between matter and electromagnetic radiation, and spectroscopic techniques are employed to analyze and interpret this interaction. In this article, we will explore various tips on how to effectively use the word "spectroscopic" in sentences.
1. Definition and Context: Before using the word "spectroscopic" in a sentence, it is essential to understand its meaning and the context in which it is typically used. Spectroscopic refers to anything related to or involving spectroscopy. It describes the techniques, instruments, or phenomena associated with the study of the interaction between matter and electromagnetic radiation.
2. Correct Usage: When using the word "spectroscopic," it is crucial to ensure that it is used correctly in the sentence. For example: - "The scientist used spectroscopic analysis to identify the chemical composition of the unknown substance." - "Spectroscopic measurements revealed the presence of specific molecular vibrations in the sample."
3. Be Specific: To enhance the clarity and precision of your sentence, it is advisable to provide specific details when using the word "spectroscopic." This can include mentioning the type of spectroscopic technique or instrument used, the specific wavelength range, or the purpose of the analysis. For instance: - "The team employed Raman spectroscopic techniques to investigate the structural changes in the polymer." - "The UV-Vis spectroscopic analysis indicated the presence of a characteristic absorption peak at 450 nm."
4. Use in Scientific Writing: "Spectroscopic" is commonly used in scientific writing, particularly in research papers and articles. When using this word in such contexts, it is important to maintain a formal tone and adhere to the conventions of scientific writing. Ensure that the sentence is clear, concise, and accurately conveys the intended meaning. For example: - "The spectroscopic data obtained from the experiment provided valuable insights into the electronic properties of the material."
5. Familiarize Yourself with Related Terms: To use the word "spectroscopic" effectively, it is beneficial to familiarize yourself with related terms and concepts in the field of spectroscopy. This will enable you to use the word in a more nuanced and accurate manner. Some related terms include absorption spectra, emission spectra, infrared spectroscopy, nuclear magnetic resonance spectroscopy, and mass spectrometry.
6. Connect with Other Scientific Vocabulary: To enhance the coherence and fluency of your writing, try to connect the word "spectroscopic" with other scientific vocabulary. This can be achieved by using appropriate linking words or phrases. For example: - "The spectroscopic analysis, coupled with computational simulations, allowed for a comprehensive understanding of the molecular structure."
7. Practice and Review: To improve your usage of the word "spectroscopic," it is essential to practice incorporating it into sentences regularly. Additionally, reviewing scientific literature or articles related to spectroscopy will help you gain a better understanding of how the word is used in context.
In conclusion, the word "spectroscopic" is a valuable term in scientific and technical writing, particularly in the field of spectroscopy. By following these tips, you can effectively incorporate this word into your sentences, ensuring clarity, accuracy, and precision in your communication.
The word usage examples above have been gathered from various sources to reflect current and historical usage of the word Spectroscopic. They do not represent the opinions of TranslateEN.com.