Enhanced performance of ultra-thin Cu(In,Ga)Se2 solar cells deposited at low process temperature

To investigate the process temperature on the growth of ultra-thin (≤500 nm) Cu(In,Ga)Se2 (CIGSe) absorbers and the corresponding performance of solar cells, the process temperature was set to 610 °C and 440 °C, respectively. It was found that the low process temperature (440 °C) could reduce the inter- diffusion of Ga–In and thus result in a higher back [Ga]/([Ga]+[In]) ([Ga]/[III]) grading than at the temperature of 610 °C. The higher back [Ga]/[III] grading at 440 °C was evidenced to both electrically and optically contribute to the efficiency enhancement of the solar cells in contrast to the lower back [Ga]/[III] grading at 610 °C. It was also implied that the high back [Ga]/[III] grading was beneficial to the collection of carriers generated from the back-reflected light

Qualidade de maçãs 'Royal Gala' submetidas ao dano mecânico por impacto e aplicação de 1-Metilciclopropeno em dois sistemas comerciais de armazenamento.

O objetivo deste trabalho foi avaliar os efeitos do dano mecânico por impacto e da aplicação de 1-metilciclopropeno (1-MCP) sobre a qualidade de maçãs ?Royal Gala? mantidas em armazenamento refrigerado (AR) e em atmosfera controlada (AC). Os tratamentos avaliados foram dano mecânico (sem e com dano por impacto) combinado com a aplicação de 1-MCP (0 e 625 nL L-1). Os frutos foram armazenados durante quatro meses em armazenamento refrigerado (AR; 0 ºC ± 1 ºC e 92 ± 2 % de UR) (experimento 1) e durante oito meses em atmosfera controlada (AC; 1,2 kPa de O2 + 2,0 kPa de CO2; 0 ºC ± 0,1 ºC e 96 ± 2 % de UR) (experimento 2). Em AR, os frutos tratados com 1-MCP apresentaram maior firmeza de polpa, além de maior área escurecida no local danificado, na saída da câmara. Nesta condição de armazenamento, após sete dias em condição ambiente, os frutos tratados com 1-MCP apresentaram acidez titulável mais elevada, maior escurecimento da epiderme e menor profundidade de escurecimento da polpa no local danificado. Em AC, a aplicação do 1-MCP proporcionou, após a saída da câmara, frutos com menor teor de sólidos solúveis e maior escurecimento da epiderme no local danificado, sendo que, após sete dias em condição ambiente, os frutos apresentaram maior profundidade de escurecimento do tecido da polpa no local danificado. O dano por impacto ocasionou escurecimento da polpa de maçãs ?Royal Gala?. O 1-MCP não inibiu os efeitos do dano, mas preservou a qualidade dos frutos, especialmente em AR

Influence of Chlorinating Agents on the Formation of Stable Biomarkers in Hair for the Retrospective Verification of Exposure

Chlorine, as a dual-use chemical, is an essential industrial chemical which has been used as a chemical weapon in the past due to its toxicity and availability. The retrospective verification of chlorine intoxication is often especially challenging, and unambiguous markers are still missing. In this study, the effects of different chlorinating and oxidizing agents on human hair were investigated. Samples were exposed to a variety of chlorinating chemicals for a short time and then completely hydrolyzed by a HBr solution to break down their keratin proteins into individual amino acids. After derivatization and targeted liquid chromatography-mass spectrometry analysis, 3-chlorotyrosine and 3,5-dichlorotyrosine were unambiguously identified from human hair exposed to chlorine, hypochlorite, and sulfuryl chloride. Our results show long-term stability of these markers in the biological matrix, as the chlorotyrosines can still be found 10 months post-exposure at the same levels. Finally, an untargeted analysis was able to discriminate between some of the different intoxicants

Exact results for hydrogen recombination on dust grain surfaces

The recombination of hydrogen in the interstellar medium, taking place on surfaces of microscopic dust grains, is an essential process in the evolution of chemical complexity in interstellar clouds. The H_2 formation process has been studied theoretically, and in recent years also by laboratory experiments. The experimental results were analyzed using a rate equation model. The parameters of the surface, that are relevant to H_2 formation, were obtained and used in order to calculate the recombination rate under interstellar conditions. However, it turned out that due to the microscopic size of the dust grains and the low density of H atoms, the rate equations may not always apply. A master equation approach that provides a good description of the H_2 formation process was proposed. It takes into account both the discrete nature of the H atoms and the fluctuations in the number of atoms on a grain. In this paper we present a comprehensive analysis of the H_2 formation process, under steady state conditions, using an exact solution of the master equation. This solution provides an exact result for the hydrogen recombination rate and its dependence on the flux, the surface temperature and the grain size. The results are compared with those obtained from the rate equations. The relevant length scales in the problem are identified and the parameter space is divided into two domains. One domain, characterized by first order kinetics, exhibits high efficiency of H_2 formation. In the other domain, characterized by second order kinetics, the efficiency of H_2 formation is low. In each of these domains we identify the range of parameters in which, the rate equations do not account correctly for the recombination rate. and the master equation is needed.Comment: 23 pages + 8 figure

Glow discharge optical emission spectrometry for quantitative depth profiling of CIGS thin films

Determining elemental distributions dependent on the thickness of a sample is of utmost importance for process optimization in different fields e.g. from quality control in the steel industry to controlling doping profiles in semiconductor labs. Glow discharge optical emission spectrometry GD OES is a widely used tool for fast measurements of depth profiles. In order to be able to draw profound conclusions from GD OES profiles, one has to optimize the measurement conditions for the given application as well as to ensure the suitability of the used emission lines. Furthermore a quantification algorithm has to be implemented to convert the measured properties intensity of the emission lines versus sputtering time to more useful parameters, e.g. the molar fractions versus sample depth depth profiles . In this contribution a typical optimization procedure of the sputtering parameters is adapted to the case of polycrystalline Cu In,Ga S,Se 2 thin films, which are used as absorber layers in solar cell devices, for the first time. All emission lines used are shown to be suitable for the quantification of the depth profiles and a quantification routine based on the assumption of constant emission yield is used. The accuracy of this quantification method is demonstrated on the basis of several examples. The bandgap energy profile of the compound semiconductor, as determined by the elemental distributions, is compared to optical measurements. The depth profiles of Na the main dopant in these compounds are correlated with measurements of the open circuit voltage of the corresponding devices, and the quantification of the sample depth is validated by comparison with profilometry and X ray fluorescence measurement

Mecanismos bioquímico-moleculares da perda de suculência Em pêssegos e melões.

A perda de suculência em pêssegos, também denominada de lanosidade, é uma das alterações mais significativas durante o armazenamento refrigerado dessa fruta. Acredita-se que a causa esse distúrbio esteja relacionada com o desequilíbrio da atividade de enzimas pologalacturonases (PG) e pectil metil esterases (PME)