Semi-empirical Density Estimations for Binary,Ternary and Multicomponent Alkali Nitrate–Nitrite Molten Salt Mixtures

For sensible thermal energy storage in Concentrating Solar Power (CSP) plants, a molten salt mixture of 60 wt% sodium nitrate (NaNO₃) and 40 wt% potassium nitrate (KNO₃), known as Solar Salt, is commonly utilized. The paper presents semi-empirical estimation results of the density of Solar Salt and alternative molten salt mixtures with low melting temperatures in a range from 70 °C to 140 °C. These mixtures are Hitec, HitecXL, LiNO₃–KNO₃–NaNO₃ and a multicomponent mixture. The paper shows that density values of mixtures can be closely predicted from single salt densities. The paper examines different estimation rules for mixtures. The quasilinear volumetric additivity rule (QVAR) is known for ternary reciprocal systems. For the first time, the presented work extends the QVAR to multicomponent mixtures. Temperature-dependent densities of selected salt mixtures of the system Ca,Li,K,Na//NO₂,NO₃ were estimated. Estimations are motivated by a fast and reliable method compared to time-consuming and error-prone measurements of several mixtures.     

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Suppression of boron penetration through thin gate oxides by nitrogen implantation into the gate electrode of PMOS devices

PMOS devices with different amounts of nitrogen implanted into the gate electrode before doping with BF₂ implantation and implant anneal were manufactured. The thicknesses of the gate oxides grown in dry oxygen by RTP were 4.1 down to 2.8 nm. The implant anneal was also performed by RTP. The influence of the nitrogen on the penetration of boron ions through the ultra-thin gate oxides into the channel region was investigated by electrical and SIMS measurements. Boron was effectively prevented from diffusion by high nitrogen concentrations at the polysilicon/gate oxide interface without degrading the reliability. In return, increased sheet resistivities and gate depletion have to be taken into account by high nitrogen concentrations within the polysilicon gate electrode.     

Polarographische Untersuchungen an 1,3-Thiazinthionen

Polarographic Investigations of 1,3-Thiazinthiones 1,3-Thiazine-6-thiones are stepwise reduced in aprotic media to the corresponding radical anions and dianions. In the case of the 2,4-diphenyl derivative ( 1a ) the radical anion is stable in dimethylformamide, whereas the dianion reacts further to yield the bithiazinylidene ( 4 ) among other products. The effect of substituents on the reduction potentials is discussed.     

New Aspects in Ferroelectric Energy Sources for Impact Fuzes

In order to find materials with increased specific electrical energy, especially for impact fuzes, the irreversible conversion of mechanical to electrical energy in ferroelectric ceramics of the Pb(Zr₁-_xTi_x) O₃ type with a considerable proportion of zirconium is studied. The depolarization of the ceramics is measured for shock compressions between 0 and 30 kbar. The maximum electrical energy, obtained at about 18 kbar, is of the order of 1.8 J/cm³ with Pb(Zr_0.965Ti_0.035)0³ + 1% Nb₂O₅ and of the order of 0.8 J/cm³ with a Pb(Zr_0.54Ti_0.46)0³ + 1% Nb₂0₅. As an example for application, the initiation of a 3.5 ω bridge wire PETN detonator is described.