In this work, we reported the large-scale and low cost synthesis of high purity Cr2 AlC powders with nanolaminated particles by pressureless sintering. The chemical reactions involved in synthesizing Cr2 AlC had been ...In this work, we reported the large-scale and low cost synthesis of high purity Cr2 AlC powders with nanolaminated particles by pressureless sintering. The chemical reactions involved in synthesizing Cr2 AlC had been studied and discussed. The results showed that the Al contents in the starting materials and sintering temperatures had significant effects on the synthesis and purity of Cr2 AlC. The obtained high purity Cr2 AlC powders were stable up to at least 1400 °C. The Cr2 AlC powders consisted of nanolaminated particles, the size of which was tunable by adjusting sintering time. The present synthesized nanolaminated Cr2 AlC powders would be an excellent reinforcement material for metal matrix composites.展开更多
To study the mechanism of Cu toxicity on wheat,the characteristics of Cu stress in pivotal growth periods of wheat were explored by field planting methods.The results showed that at the tillering stage,the concentrati...To study the mechanism of Cu toxicity on wheat,the characteristics of Cu stress in pivotal growth periods of wheat were explored by field planting methods.The results showed that at the tillering stage,the concentrations of Cu in the leaf cell fluid were significantly higher than those in the cell wall,and the Cu was primarily enriched in cell fluid.At the jointing and heading stages,the Cu concentration in the leaf cell wall was significantly higher than that in the cell fluid,and the main enrichment was transferred to the cell wall.During the above three growth stages,no Cu was discovered in leaf organelles.Further studies showed that the total soluble protein content in wheat leaves at the tillering and jointing stages showed a trend of first rising and then falling with increased Cu dosage.At the heading stage,under low and medium Cu stress,the total soluble protein content showed no remarkable change.Malondialdehyde(MDA)content at the tillering stage increased with the increase of Cu concentration in the soil,while MDA content did not change noticeably at the jointing and heading stages.At the tillering and heading stages,the low concentrations of Cu increased peroxidase(POD)activity.The POD activity decreased gradually with the increased Cu concentration.However,at the high concentrations of Cu,there was no significant difference in the activity of POD.At the jointing stage,the POD activity did not change significantly under the low Cu stress while it was evidently inhibited under high Cu stress.Based on the above studies,further analyses on the correlation between canopy spectral characteristics and the Cu accumulation at different growth stages of leaf cells were performed,and a new combined index SIPI/NDVI705 performed well in Cu content prediction.The results showed that at different growth stages,different sensitive spectral characteristic parameters should be used to predict the Cu content in leaf cells.展开更多
基金supported by the National Science Foundation for Distinguished Young Scientists of China (51225205)the National Natural Science Foundation of China (61274005)
文摘In this work, we reported the large-scale and low cost synthesis of high purity Cr2 AlC powders with nanolaminated particles by pressureless sintering. The chemical reactions involved in synthesizing Cr2 AlC had been studied and discussed. The results showed that the Al contents in the starting materials and sintering temperatures had significant effects on the synthesis and purity of Cr2 AlC. The obtained high purity Cr2 AlC powders were stable up to at least 1400 °C. The Cr2 AlC powders consisted of nanolaminated particles, the size of which was tunable by adjusting sintering time. The present synthesized nanolaminated Cr2 AlC powders would be an excellent reinforcement material for metal matrix composites.
基金This work was supported by the National Natural Science Fund of China(41471279)。
文摘To study the mechanism of Cu toxicity on wheat,the characteristics of Cu stress in pivotal growth periods of wheat were explored by field planting methods.The results showed that at the tillering stage,the concentrations of Cu in the leaf cell fluid were significantly higher than those in the cell wall,and the Cu was primarily enriched in cell fluid.At the jointing and heading stages,the Cu concentration in the leaf cell wall was significantly higher than that in the cell fluid,and the main enrichment was transferred to the cell wall.During the above three growth stages,no Cu was discovered in leaf organelles.Further studies showed that the total soluble protein content in wheat leaves at the tillering and jointing stages showed a trend of first rising and then falling with increased Cu dosage.At the heading stage,under low and medium Cu stress,the total soluble protein content showed no remarkable change.Malondialdehyde(MDA)content at the tillering stage increased with the increase of Cu concentration in the soil,while MDA content did not change noticeably at the jointing and heading stages.At the tillering and heading stages,the low concentrations of Cu increased peroxidase(POD)activity.The POD activity decreased gradually with the increased Cu concentration.However,at the high concentrations of Cu,there was no significant difference in the activity of POD.At the jointing stage,the POD activity did not change significantly under the low Cu stress while it was evidently inhibited under high Cu stress.Based on the above studies,further analyses on the correlation between canopy spectral characteristics and the Cu accumulation at different growth stages of leaf cells were performed,and a new combined index SIPI/NDVI705 performed well in Cu content prediction.The results showed that at different growth stages,different sensitive spectral characteristic parameters should be used to predict the Cu content in leaf cells.
