【摘 要】
:
A novel polystyrene-poly(hydroxamic acid) interpenetrating network resin (PS-PHA IPNs) was success-fully synthesized by suspension polymerization and interpenetrating network technology.The effects of various experimental parameters,including pH,contact t
【机 构】
:
College of Chemistry and Chemical Engineering,Hunan Provincial Key Laboratory of Efficient and Clean
论文部分内容阅读
A novel polystyrene-poly(hydroxamic acid) interpenetrating network resin (PS-PHA IPNs) was success-fully synthesized by suspension polymerization and interpenetrating network technology.The effects of various experimental parameters,including pH,contact time and initial concentrations of rare earth ions on the adsorption capacity were discussed in detail.Under the condition of pH 4.0 (La3+),1.0 (Ce3+) and 3.0 (Y3+),respectively,PS-PHA IPNs can reach equilibrium adsorption in 6 h and get maximum adsorption capacities (1.08,1.43 and 1.36 mmol/g).The adsorption process of PS-PHA IPNs for La(Ⅲ),Ce(Ⅲ) and Y(Ⅲ) ions can be described by liquid membrane diffusion,particle diffusion and chemical reaction.The adsorption process is a spontaneous and endothermic process and can be better simulated by Langmuir adsorption isotherm.The studies of SEM-EDS indicate that rare earth ions are adsorbed on the surface of PS-PHA IPNs.Fourier transform infrared spectroscopy (FTIR) and X-ray photoelectron spectroscopy (XPS) analysis further prove that rare earth ions are chemisorbed on the surface of PS-PHA IPNs.These results reveal that the as-prepared PS-PHA IPNs is a promising adsorbent for adsorption of rare earth ions due to their higher adsorption capacity than other adsorbents.
其他文献
Directly grasping the tightly stacked objects may cause collisions and result in failures, degenerating the functionality of robotic arms. Inspired by the observation that first pushing objects to a state of mutual separation and then grasping them indivi
常规同步控制建模过程中,同步控制全从方案与约束事件触发机制不匹配,导致同步控制建模的控制触发时刻和间隔不理想,针对这一问题研究全新的非对称耦合网络,阵列信号传输过程同步控制建模方法.根据AIN框架组图,确定非对称耦合网络的混合相变;按照一定顺序性和规律性设计同步控制全从方案,建立模型同步控制算法;结合非对称耦合网络饱和状态,设置具有饱和约束的事件触发机制,建立阵列信号传输同步控制模型.仿真实验建立非对称程度不同的耦合网络,发现在模型同步控制过程中,所设计模型得到的信号传输轨迹更贴切,模型的同步控制触发时刻
This paper studies price-based residential demand response management (PB-RDRM) in smart grids, in which non-dispatchable and dispatchable loads (including general loads and plug-in electric vehicles (PEVs)) are both involved. The PB-RDRM is composed of a
An adaptive decentralized asymptotic tracking control scheme is developed in this paper for a class of large-scale nonlinear systems with unknown strong interconnections, unknown time-varying parameters, and disturbances. First, by employing the intrinsic
针对优化规划城市公交线路网络布局问题,提出了一种以公交线路可达性为原则并基于蚁群算法的城市公交路线网络布局优化模型.首先将公交线路分为快线、普线和支线,分别建立目标函数模型及约束条件,然后引入蚁群算法对目标函数进行优求解,最后利用实例对以上方案进行验证.结果 表明,构建的模型具有一定程度上的优化能力,可实现不同层面线路的优化.本研究的创新点在于从不同角度对公交线路进行优化,以此提高了线路的可达性,更好地提升了公交企业的服务水平.
Protein-protein interactions are of great significance for human to understand the functional mechanisms of proteins. With the rapid development of high-throughput genomic technologies, massive protein-protein interaction (PPI) data have been generated, m
This work tries to improve the magnetic properties by multi-element doping in the form of a ternary alloy.SmCo5+x wt% Al-Cu-Fe (x =0-7) ribbons melt-spun at 40 m/s were produced by adding Al82.8Cu17Fe0.2 alloy into SmCo5 matrix,and their phases,microstruc
An improved technique was used to prepare the ceramic samples of Bi5.75R0.25Fe1.4Ni0.6Ti3O18 (BRFNT,R =Eu,Sm,Nd,Bi,and La).The five-layer Aurivillius phase of the samples was confirmed by X-ray diffraction (XRD) without detectable impurities.BRFNT samples
The microstructure of twinning as well as the phase boundary between 1∶5H and 2∶17R phase in Fe-rich Sm2Co17-type magnets was characterized at atomic scale using nanobeam diffraction and high-resolution STEM-HAADF imaging,and the reason for the dramatic i
The presence of oxygen vacancies and hydroxyl groups are both favorable for the methanol electro-oxidation on Pt-based catalysts.Understanding and differentiating the enhancing mechanism between oxygen vacancies and hydroxyl groups for high activity of Pt