It is well known that the superconducting transition temperature (T(c)) of cuprate superconductors can be enhanced by varying certain structural and electronic parameters, such as the flatness of the CuO? planes or their doping level. We determine the uniaxial and hydrostatic pressure derivatives of T(c) in the structurally simple tetragonal compound HgBa?CuO(4+δ) near optimal doping. Our results provide experimental evidence for two further methods to enhance T(c): (i) reducing the area of the CuO? planes, and (ii) increasing the separation of the CuO? planar groups. T(c) is found to couple much more strongly to the ratio c/a of the lattice constants than to the unit cell volume. A comparison with prior results for structurally more complicated cuprates reveals a general trend of uniaxial pressure derivatives with T(c). 相似文献
The mechanism of the previously published technique of dielectric barrier electrospray ionization (DB-ESI) was investigated
in more detail. Two independent current signals occurring during the DB-ESI could be explained and allocated to sub-processes.
The modulated shape of the HV signal, the applied frequency as well as the inner diameter of the emitter capillary have a
big impact on the spray. Furthermore, there exists a cut-off frequency which depends on the electronic properties of the DB-ESI
interface. Comparable mass spectra for lysine employing both conventional ESI and DB-ESI show a good analytical potential
of the new technique. 相似文献
The study of specifically 13C-labelled precursors sheds further light on the gas-phase chemistry of allyl and 2-propenyl cations. It is demonstrated that both species are formed from allyl and 2-propenyl bromide upon 70 eV electron impact ionization without skeletal reorganization. Gas-phase derivatization of the [C3 H5]+ ions with benzene facilitates, as suggested and observed earlier, the distinction of the two isomers using collision-induced dissociation of the Wheland complexes (or isomers thereof). The 13C labelling data clearly demonstrate that 64% of allyl cations survive the derivatization while 36% isomerize to 2-phenylpropyl cations; the latter are also formed via the reaction of 2-propenyl cation with benzene, protonation of α-methylstyrene and water loss from protonated 2-phenyl-2-propanol, respectively. Unimolecular loss of C2H4 from protonated allylbenzene proceeds via two competing reaction channels: one involves heterolysis of 1-phenylpropyl cations (~30%); the major pathway (~70%), however, involves decomposition via propylene benzenium ions. 相似文献
The thermal LiHal elimination of - and functional compounds provides a simple synthetic route to four-membered SiC and SiN rings. In attempts to inhibit dimerisation sterically, bulky silylmethyl and silylamino substituents were introduced (I–III). (Me3Si)3CSiF2R reacts with LiNHR′, 1,3- migration of a silyl group from carbon to the nitrogen (I, R′= 2,4,6-Me3C6H2) taking place. Substitution occurs for R′ = SiMe2CMe2, (II, III) only.Dichloro-bis(trimethylsilyl)methane reacts with halogenosilanes and lithium in THF to give bis(trimethylsilyl)-halogenosilaethanes (Me3Si)2CHSi(Hal)RR′; R= Me, R′ = N(SiMe3)2, IV, Hal = F; V, Hal = Cl. However a reductive THF cleavage accompanied by a silyl group migration to the oxygen occurs and 1-halogenosilyl-1- trimethylsilyl-5-trimethylsiloxi-pent-1-ene,(Me3Si)(RR′SiHal)CCH(CH2)3OSiMe3, Are The main products (VII–X) of these reactions. Disubstitution occurs with F3Si-i-Pr (VI). (Me3Si)3CSiFNHSiMe2CMe3 (II) reacts with C4H9Li in a molar ratio to give an 1-aza-2,3-disilacyclobutane (XI), involving substitution, LiF elimination, and nucleophilic migration of a methanide ion of the unsaturated precusor.(Me3Si)2CHSiFMeN (2,4,6-Me3C6H2)SiMe3 cyclizes under comparable conditions in the reaction with MeLi via a methylene group of the mesityl group (XII). 相似文献
