【摘 要】
:
NH4ZnPO4 powders were synthesized using a simple precipitation method at room temperature. The effects of polyvinyl pyrrolidone (PVP), polyvinyl alcohol (PVA), glucose, and hexadecyltrimethylammonium bromide (CTAB) solutions on the morphology and structur
【机 构】
:
School of Physics,Institute of Science,Suranaree University of Technology,Nakhon Ratchasima 30000,Th
论文部分内容阅读
NH4ZnPO4 powders were synthesized using a simple precipitation method at room temperature. The effects of polyvinyl pyrrolidone (PVP), polyvinyl alcohol (PVA), glucose, and hexadecyltrimethylammonium bromide (CTAB) solutions on the morphology and structure of the prepared samples were investigated. The phase composition and morphology of the prepared samples were characterized using X-ray diffraction and scanning electron microscopy, respectively. Depending on the polymer sources, the hexagonal structure prepared using non-surfactant of water completely changed to monoclinic structure when CTAB was added. X-ray absorption near-edge structure (XANES) and X-ray photoelectron spectroscopy (XPS) were performed to study the local structure and surface electronic structure of the prepared samples, confirming that the oxidation states of P and Zn ions are 5+ and 2+, respectively. On the basis of the results of inductively coupled plasma atomic emission spectroscopy (ICP-OES), the NH4ZnPO4 powders can be classified as a slow-release fertilizer where less than 15% of the ions were released in 24 h. A simple precipitation method using water, PVP, PVA, sucrose, and CTAB as a template can be used to syn-thesize NH4ZnPO4 powders. In addition, this method may be extended for the preparation of other oxide materials.
其他文献
Mo薄膜是CIGS薄膜太阳电池背电极的首选材料,对薄膜与基底间的结合力提出很大要求.为提高Mo薄膜与基底结合力,借助L9(33)正交表研究基底温度、溅射气压和溅射功率3种影响因素对Mo薄膜结合力的影响,针对每种因素各选取3个水平值.采用压入法衡量薄膜与基底的结合力,结合力的评价指标为压入引起的裂纹的面积,利用改进版龟裂评级法得出裂纹面积.通过极差分析得到基底温度、溅射气压、溅射功率所对应的R值分别为6.51、18.29、5.96;最优水平组合为A1 B2 C3,此时裂纹面积最小,为2.41μm2.结果表明
为减少包装材料对生态环境的污染,指出了绿色环保包装材料对于生态环境保护的重要作用,分析了绿色环保包装材料的发展现状、类型及应用,包括纸质包装材料、可降解包装材料、天然生物包装材料、可食用性包装材料等,以降低商品成本,保护生态环境,为包装产业发展提供参考.
为保证地震发生时列车在轨运行的安全性,基于ABAQUS软件和FORTRAN语言,建立高速铁路无砟轨道-路基-地基三维数值分析模型,分析地震-列车移动荷载作用下的弹性均质路基的动力响应规律.地震波Imperial Valley从模型底部双向输入,列车移动荷载的施加通过编制FORTRAN子程序实现.在不考虑轨道不平顺及轮轨关系的情况下,对地震发生时路基在不同列车时速下的动位移、加速度、频谱进行数值计算,结果表明:在地震荷载和移动荷载共同作用下,路基竖向正位移受地震荷载的作用比较显著,而其加速度和频谱受移动荷载
为促进绿色矿山发展,分析了煤炭资源开发对生态环境的影响:破坏土地资源完整性,导致生态环境恶化,破坏矿区地下水资源,造成供水紧张,排放大量废气,危害矿区周边环境.提出实现生态环境保护的主要途径:加强煤炭资源的前期勘探,采用先进的煤矿开采技术,注重从污染源头抓防控,采用先进的选煤工艺,科学治理煤矿废料,以“零排放”为建设目标,充分应用填充开采技术,加强矿区生态环境建设.通过有效的措施,实现有序开采,协调处理好矿山开采与环境保护的关系,实现绿色矿山的现代化、科学化发展.
An ammonia-based system was used to selectively leach cobalt (Co) from an African high-silicon low-grade Co ore, and the other elemental impurities were inhibited from leaching in this process. This process was simple and environmentally friendly. The res
An excellent organolead halide perovskite film is important for the good performance of perovskite solar cells (PSCs). However, defects in perovskite crystals can affect the photovoltaic properties and stability of solar cells. To solve this problem, this
Diamond/metal composites are widely used in aerospace and electronic packaging fields due to their outstanding high thermal con-ductivity and low expansion. However, the difference in chemical properties leads to interface incompatibility between diamond
The application of an external field is a promising method to control the microstructure of materials, leading to their improved per-formance. In the present paper, the strengthening and toughening behavior of some typical high-performance structural mate
The ordinary cemented tailings backfill (CTB) is a cement-based composite prepared from tailings, cementitious materials, and wa-ter. In this study, a series of laboratory tests, including uniaxial compression, digital image correlation measurement, and s
Cement hydration is the underlying mechanism for the strength development in cement-based materials. The structural and electron-ic properties of calcium silicates should be elucidated to reveal their difference in hydration reactivity. Here, we comprehen