以H2和CH4的混合气体为气源,用微波等离子体辅助化学气相沉积法(MPECVD)在1 cm×1 cm S i(100)基体上沉积了金刚石薄膜。研究了不同的甲烷浓度对金刚石薄膜(100)织构生长趋势的影响。分别采用扫描电子显微镜(SEM),Ram an光谱对金刚石膜的表面形貌、质量进行了分析。结果表明,当基体温度为750℃,气压为4.8×103Pa,甲烷浓度为1.4%时,薄膜表面为(100)织构。 相似文献
Water resources liability (WRL) is the responsibility and obligation assumed and repaid after human activities cause excessive consumption and damage to water resources. It is the creditor's right and debt relationship between the economy and natural environment based on water resources. With the intensification of water competition and the deterioration of water ecology, it is urgent to accurately calculate the real occupation of water resources by national and regional economic activities. From the perspective of sustainable utilization of water resources, this study constructs an accounting model of WRL and water resources liability intensity (WLI), analyzes the spatial and temporal characteristics of WLI, and discusses the driving factors of WLI. The results reveal that the total amount of WRL in China experienced a decreasing trend from 2012 to 2019. The increase in available water resources and the decrease in total water demand are the direct reasons for the decrease in WRL. China's average WLI experienced a downward trend, indicating a significant improvement in water use efficiency. The WLI was higher in the western region and lower in the eastern region. In terms of regional differences, the overall spatial differences of WLI were in the process of continuous adjustment. The analysis of the driving factors of WLI reveals that the urbanization rate and the degree of economic openness had a significant driving effect on reducing WLI. The WLI in China presented an inverted N-shaped Kuznets curve, and most of the regions were between the first and second inflection points.