废水生物脱氮工艺中N2O排放数学模型研究进展

N_2O是一种重要的温室气体,而污水生物脱氮处理过程是N_2O的潜在产生源之一。随着污水处理量和处理程度的不断提高,N_2O的排放量也将不断增大。建立N_2O排放数学模型对污水生物脱氮系统中N_2O生成机制的深入研究和污水处理行业N_2O削减工艺技术的开发具有重大的理论及实践意义。本文归纳了生物脱氮工艺的原理,系统阐述了生物脱氮工艺中N_2O的生成机理和排放数学模型的类型、建立方法及应用情况。在此基础上,对生物脱氮工艺中N_2O排放数学模型的研究现状和研究方向进行了总结和展望,以期为N_2O排放数学模型的完善、N_2O排放量的削减、污水生物脱氮工艺的优化及污水处理行业的可持续发展提供理论基础和科学依据。     

SiO2表面双酚A中空分子印迹纳米球的制备及识别性能

A novel and effective approach was developed to synthesize monodisperse hollow molecularly imprinted polymers (MHMIPs) with unfunctionalized SiO₂ spheres in a mixture of toluene and CH₃CN.The factors that affected the synthesis of MHMIPs were systematically investigated.It was determined that a suitable ratio of toluene to CH₃CN and the use of a functional monomer that can generate double H-bonding interactions were the critical factors to obtain MHMIPs with high uniformity and monodispersion.The obtained MHMIPs exhibited a fast adsorption rate and high adsorption capacity (270 μmol/g) for bisphenol A.As the shell thickness increased from 90 nm to 130 nm,the binding capacity of the imprinted shells decreased gradually.The relative selectivity coefficients of MHMIPs for tetra-bromobisphenol A (TBBPA),phenol and p-tert-butylphenol (PTBP) were calculated as 1.53,1.83 and 1.90,respectively.These findings indicate that MHMIPs have good adsorption performances and suggest applications in the selective removal or sensitive analysis of bisphenol A.     

铁电薄膜性能测量实验

利用铁电性能综合测试系统测量了SrBi2Ta2O9薄膜的铁电性能,分析了电压变化对于电滞回线的影响,同时对疲劳行为进行了研究。     

微波法制备石墨烯及石墨烯基材料的研究进展

石墨烯(Gr)由于其独特的单原子层二维结构及优异的性能,在材料、电子、化学、能源、生物医药等众多领域具有广阔的应用前景,引起了众多学者的研究兴趣。如何高产量获得高质量的Gr对其未来的开发和应用至关重要。微波法是制备Gr的重要方法之一,具有绿色、高效、简便快捷等特点。本文综述了近几年微波法制备Gr、掺杂Gr和Gr基纳米复合材料的研究进展以及后者在锂离子电池负极材料方面的应用,并对其发展方向进行了展望。     

金团簇的荧光性质及其生物应用

金纳米团簇作为一类新型纳米材料具有独特的光学特性。当金纳米团簇颗粒的尺寸小到与电子的费米波长（〈1nm）相当时,由于量子尺寸效应,金颗粒会受激发射出荧光。作为一种新型荧光材料,金纳米团簇具有发光颜色随团簇尺寸可调、荧光不易猝灭等许多优势。本文主要综述了金纳米团簇的荧光性质及其在生物标记、生物成像以及生物检测等方面的应用...