Search results for "Electron ionization"

showing 10 items of 82 documents

Low energy electrons and ultra-soft X-rays irradiation of plasmid DNA. Technical innovations

2016

Abstract In this paper we present in a first part the latest results of our group which are in relation with the study of DNA damages inflicted by low energy electrons (0-20 eV) in ultra-high vacuum as well as in air under atmospheric conditions. A short description of the drop-casting technique we developed to produce thin and nanometre-scaled DNA layers onto graphite sheets is given. We provide the absolute cross-section for loss of supercoiled topology of plasmid DNA complexed with 1,3-diaminopropane (Dap) in the vacuum under 10 eV electron impact and suggest a specific pathway for the dissociation of the transient negative ion formed by resonant capture of such a low energy electron (LE…

RadiationAttenuation lengthAnalytical chemistry02 engineering and technologyElectron010402 general chemistry021001 nanoscience & nanotechnology01 natural sciencesDissociation (chemistry)0104 chemical sciencesIonchemistry.chemical_compoundCrystallographychemistryHydroxyl radicalGraphiteIrradiation0210 nano-technologyElectron ionizationRadiation Physics and Chemistry
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Principle and analytical applications of resonance lonization mass spectrometry

1989

Resonance ionization mass spectrometry (RIMS) is a very sensitive analytical technique for the detection of trace elements. This method is based on the excitation and ionization of atoms with resonant laser light followed by mass analysis. It allows element and, in some cases, isotope selective ionization and is applicable to most of the elements of the periodic table. A high selectivity can be achieved by applying three step photoionization of the elements under investigation and an additional mass separation for an unambiguous isotope assignment. An effective facility for resonance ionization mass spectrometry consists of three dye lasers which are pumped by two copper vapor lasers and of…

Static secondary-ion mass spectrometryChemistryAnalytical chemistryPhotoionizationThermal ionization mass spectrometryMass spectrometryAnalytical ChemistryIonizationPhysics::Atomic and Molecular ClustersPhysics::Atomic PhysicsTime-of-flight mass spectrometryDirect electron ionization liquid chromatography–mass spectrometry interfaceAtomic physicsInductively coupled plasma mass spectrometryMikrochimica Acta
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Mass spectra of methoxychlorobenzenes (chloroanisoles)

1988

Electron impact mass of all 19 ring-substituted chloroanisoles have been investigated. The fragmentation pathways were elucidated with the aid of the 1st field-free region metastable ions. The greatest disparity between the spectra of the positional isomers is shown with the [M−CH 3 ] + and [M−CH 2 O] +• ions, i.e., the ortho and para isomers preferentially lose • CH 3 , whereas the meta isomers generally show both loss of • CH 3 and elimination of formaldehyde, the latter process being more dominant with the meta-monochloro and di- and trichloro isomers having two meta-chlorine atoms. Characteristic for all isomers is also the abundant M +• and [M−CH 3 −CO] + ions, the other fragmentation …

StereochemistryFormaldehydeBiochemistryMedicinal chemistrySpectral lineIonchemistry.chemical_compoundchemistryFragmentation (mass spectrometry)MetastabilityMass spectrumStructural isomerMolecular MedicineSpectroscopyElectron ionizationBiological Mass Spectrometry
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Mass spectra of halogenated esters. Part IX—methyl esters of 2-butenoic acids containing chlorine and/or bromine atom(s)

1990

The electron impact mass spectra of methyl esters of chloro-, bromo-, dichloro-, bromochloro- and dibromo-2-butenoic acids (13 esters at all) have been investigated. Generally, the peaks due to the following fragments are abundant: M+·, [M OCH3]+, [M CH3OH]+·, [M X]+, [M OCH3 CO]+ or [M COOCH3]+, [M X CH3OH]+ or [M OCH3 HX]+, [M OCH3 CO HX]+, [M OCH3 X X]+ and [M OCH3 CO X X]+. Characteristic for the 2- and 4-halo isomers are the primary losses of a methyl radical and methanol, and for the 3-halo isomers the loss of X· from M+·. Disparities between the spectra of the E and Z isomers are shown, the effect of position of halogen substitution being much more pronounced, as reported previously …

Stereochemistrychemistry.chemical_elementMethyl radicalMass spectrometryBiochemistryMedicinal chemistryE-Z notationchemistry.chemical_compoundchemistryHalogenMass spectrumChlorineMolecular MedicineMethanolSpectroscopyElectron ionizationBiological Mass Spectrometry
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Benzyl ions from 1,1-(2,2′-dimethoxyphenyl)-substituted 2-methylpropanes under electron ionization

2006

The electron ionization (EI)-induced fragmentations of a series of 1,1-(2,2'-dimethoxyphenyl)-substituted 2-methylpropanes (1-20) in both 70 eV and mass-analyzed ion kinetic energy (MIKE) spectra have been investigated. The EI-MS spectra of these compounds are characterized by the presence of abundant benzyl ions. These ions result from competitive hydrogen migration from the 2- and 2'-methoxy groups on the carbenium center of the diphenylmethyl cations formed by benzylic cleavage of the molecular ions. The relative abundances of the benzyl ions arising from such competitive processes are discussed and rationalized. The steric effect of the 3- or 3'-substituents is the main discriminating f…

Steric effectsSpectrometry Mass Electrospray IonizationHydrogenStereochemistrychemistry.chemical_elementKinetic energyMedicinal chemistrySpectral lineAnalytical ChemistryIonPropaneBenzyl CompoundsSpectroscopyElectron ionizationCARBON DOUBLE REARRANGEMENTMASS-SPECTRAHydrocarbons HalogenatedOrganic ChemistryCleavage (crystal)HYDROGEN-CARBONDIMETHOXY AROMATIC-COMPOUNDSSPECTROMETRYchemistryALKYLBENZENESSUBSTITUTED DIPHENYLMETHYL CATIONSHydrogenRapid Communications in Mass Spectrometry
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Photodimers of cinnamic acid and related compounds. A stereochemical study by electron-impact and field desorption mass spectrometry

1974

The low energy (13 eV) electron-impact and field desorption mass spectra of some photodimers of cinnamic acid and related compounds containing the cyclobutane ring are reported and the fragmentation patterns analysed in order to obtain stereochemical information on the substituent position on the cyclobutane ring. Both symmetrical and asymmetrical splittings of the cyclobutane ring were detected, allowing characterisation of the head-to-head and head-to-tail structures of the title compounds. A ring opening rearrangement of the McLafferty type was also found.

SubstituentField desorption mass spectrometryPhotochemistryBiochemistryCinnamic acidCyclobutanechemistry.chemical_compoundchemistryFragmentation (mass spectrometry)Field desorptionMass spectrumMolecular MedicineInstrumentationSpectroscopyElectron ionizationOrganic Mass Spectrometry
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Coordination Driven Capture of Nicotine Inside a Mesoporous MOF.

2017

Metal organic frameworks (MOFs) are a wide class of crystalline porous polymers studied in many fields, ranging from catalysis to gas storage. In the past few years, MOFs have been studied for the encapsulation of organic or organometallic molecules and for the development of potential drug carriers. Here, we report on the study of two structurally-related mesoporous Cu-MOFs, namely PCN-6 and PCN-6′ (PCN stands for Porous Coordination Network), for nicotine trapping. Nicotine is a well-known alkaloid liquid molecule at room temperature, whose crystalline structure is still unknown. In this work, the loading process was monitored by electron ionization mass spectrometry by using a direct ins…

Thermogravimetric analysiscrystalline sponge02 engineering and technologyCrystal structure010402 general chemistryPhotochemistryMass spectrometrylcsh:Technology01 natural sciencesArticlechemistry.chemical_compoundPyridineMoleculeOrganic chemistryGeneral Materials Sciencelcsh:MicroscopyElectron ionizationlcsh:QC120-168.85MOFhost-guestlcsh:QH201-278.5lcsh:TMOF; nicotine; crystalline sponge; inclusion; host-guest021001 nanoscience & nanotechnology0104 chemical sciencesinclusionchemistrylcsh:TA1-2040lcsh:Descriptive and experimental mechanicsMetal-organic frameworklcsh:Electrical engineering. Electronics. Nuclear engineeringlcsh:Engineering (General). Civil engineering (General)0210 nano-technologyMesoporous materiallcsh:TK1-9971nicotineMaterials (Basel, Switzerland)
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The Stockholm–Mainz ion trap project

1993

A new ion trap facility is described which is dedicated to studies of highly charged ions in a Penning trap. Such a trap will be connected to sources of highly charged ions, in particular the electron beam ion source CRYSIS, at the Manne Siegbahn Institute for Physics. The use of highly charged ions in a Penning trap increases the cyclotron frequency with a factor proportional to the charge which leads to a higher resolution. Also, the possibility to vary the charge state makes it possible to search for and identify different systematic effects. Thus, a substantial increase in accuracy can be expected. In addition, the combination of high charge state ions and a Penning trap allows new appl…

Trap (computing)PhysicsIon trapGeonium atomAtomic physicsCondensed Matter PhysicsIon gunPenning trapMathematical PhysicsAtomic and Molecular Physics and OpticsIon sourceElectron ionizationIonPhysica Scripta
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1978

The thermal degradation mechanism of three aromatic polymers containing double bridged phenylether units was investigated by direct pyrolysis in the ion source of a mass spectrometer. Thermal degradation reactions were followed directly by this method detecting the thermal and electron impact induced fragments. The results obtained have provided evidence that the double bridge between the aromatic rings is the preferred fragmentation site in these polymers. Furthermore in the double sulfur bridged polymer III, extrusion of S2 from the polymer backbone takes place above 400°C. The synthesis of polymers studied is reported in the text. Der Mechanismus des thermischen Abbaus von drei aromatisc…

chemistry.chemical_classificationFragmentation (mass spectrometry)ChemistryPolymer chemistryGeneral Materials ScienceExtrusionAromaticityPolymerMass spectrometryPyrolysisElectron ionizationAngewandte Makromolekulare Chemie
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Hydrogen-carbon, carbon-carbon double rearrangement induced by proximity effects. 1-formation of methoxybenzyl ions in the electron impact mass spect…

1991

The 75 eV electron impact mass spectra of 1,1-bis(dimethoxyphenyl)methanes bearing o-methoxy groups are dominated by intense peaks corresponding, at least formally, to benzyl ions [(CH3O)2C6H3CH2]+(b). They arise from ions [((CH3O)2C6H3)2CH]+(a), which are in turn formed from molecular ions by loss of an alkyl radical through benzylic cleavage. The analysis of compounds labelled with 2H or 13C at methoxy groups led to the determination of the mechanism. Hydrogen migration, as hydride, followed by electrophilic substitution by the methylene carbon of the phenyl methylene ether cation through a six-centred transition state is responsible for the formation of benzylic ions b.

chemistry.chemical_classificationHydrogenHydridechemistry.chemical_elementEtherPhotochemistryBiochemistryMedicinal chemistrychemistry.chemical_compoundElectrophilic substitutionchemistryMass spectrumMolecular MedicineMethyleneInstrumentationSpectroscopyElectron ionizationAlkylOrganic Mass Spectrometry
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