GDX树脂富集－反相高效液相色谱法分离测定酚类化合物

用ＧＤＸ－５０２树脂富集的酚类化合物，经反相高效液相色谱法分离和检测，具有较好的准确度和精密度。     

ZnO-PSAⅡ型异质结界面电荷转移过程研究

采用稳态光致发光光谱和纳秒时间分辨瞬态光谱(NTRT-PL)表征,揭示ZnO-PSA II型纳米异质结光生载流子电荷转移过程,通过甲基橙光降解实验,测得ZnO-NRs和ZnO-PSA紫外光降解率分别为25.5;和60.1;,光降解率提高到2.4倍,表明II型异质结相对于单一半导体而言,能促进光生载流子在界面间电荷转移,有利于载流子的分离.     

Transient optical properties in fused silica measured by time-resolved high-power laser photometer

A time-resolved high-power laser photometer, which measures the real-time variations of transmission, internal reflection, and scattering simultaneously with picosecond time resolution, was developed to investigate the material response sequence during high-power nanosecond laser irradiation in thick fused silica. It was found that the transient transmission decreased sharply, accompanied by an increase in internal reflection at the rising edge of the laser pulse. The transient transmission recovered, while laser damage did not occur, but it did not recover if the scattering increased, indicating the occurrence of laser damage. The reason for the sharp decrease of transmission and the relationship between the transmission drop and laser damage were discussed.     

Research progress of Pt and Pt-based cathode electrocatalysts for proton-exchange membrane fuel cells

Proton-exchange membrane fuel cells (PEMFCs) have been widely used commercially to solve the energy crisis and environmental pollution. The oxygen reduction reaction (ORR) at the cathode is the rate-determining step in PEMFCs. Platinum (Pt) catalysts are used to accelerate the ORR kinetics. Pt's scarcity, high cost, and instability in an acidic environment at high potentials seriously hinder the commercialization of PEMFCs. Therefore, studies should explore electrocatalysts with high catalytic activity, enhanced stability, and low-Pt loading. This review briefly introduces the research progress on Pt and Pt-based ORR electrocatalysts for PEMFCs, including anticorrosion catalyst supports, Pt, and Pt-based alloy electrocatalysts. Advanced preparation technology and material characterization of Pt-based ORR electrocatalysts are necessary to improve the performance and corresponding reaction mechanisms.     

PtCu2八面体形貌调控及氧还原电催化性能研究北大核心CSCD

利用溶剂热法,在N,N-二甲基甲酰胺(DMF)溶剂中共同还原乙酰丙酮铂(Pt(acac)2)和乙酰丙酮铜(Cu(acac)_2)制备PtCu八面体合金催化剂.PtCu_2八面体表现出明显的晶格收缩、较高比例的非氧化态Pt单质和较高的电子结合能,进而表现出较弱的含氧物种吸附强度和较低的d带中心位置.系统研究结构导向剂对PtCu合金形貌影响.在半电池测试中,由于PtCu_2具有均匀分散的规则八面体形貌结构,导致在0.9 V vs.RHE处氧还原(ORR)的质量比活性和面积比活性分别是Pt/C(JM)的6.3和27.2倍,并在加速衰减测试后其ORR的质量比活性仍达到Pt/C(JM)的4.5倍.     

以生活痛点为驱动性问题的项目式实验教学实践——深色和浅色衣物混洗串色

在项目式教学中,驱动性问题的设计和实施是保证项目式学习高效运行的关键。以生活痛点“深色和浅色衣物混洗串色”为真实情境,开展驱动性问题的设计和实施策略研究,开展基于实验教学目标达成度的驱动性问题反思与再设计研究,对轻化工程专业实验教学进行创新改革尝试,以突破传统的验证性实验教学的弊端。     

大气湍流对空间目标偏振成像探测的影响

为研究大气湍流对空间目标偏振成像探测准确度的影响,构建了大气湍流影响下的偏振成像探测模型,并对大气湍流导致的空间目标偏振度探测偏差进行仿真分析.通过对分时和同时偏振成像方式进行仿真,发现大气湍流会对空间目标偏振成像探测准确度造成明显影响,且对分时偏振成像探测准确度的影响明显大于同时偏振成像方式.通过自适应系统校正部分低阶像差,能明显减小大气湍流对偏振成像探测准确度的影响.为了兼顾图像信噪比和大气湍流影响下的偏振成像探测准确度,给出了一种结合分时和同时成像方式的改进偏振成像探测方式,大气湍流对其的影响略大于同时偏振成像方式,但该方式图像信噪比明显优于同时偏振成像方法.另外仿真分析发现,采用多帧图像叠加能效减小大气湍流带来的空间目标偏振成像探测偏差,在使用分时偏振成像方式时效果尤为明显.     

北仑地区的岸滩动态

本文依据水文、沉积和地貌资料,分析论证了北仑地区的岸滩动态,认为北仑地区岸滩已接近动态平衡,具备开辟深水良港的自然条件。     

铌酸钾锂晶体的生长与极化的研究

采用不同成分配比,以Czochralski法生长铌酸钾锂(KLN)晶体,研究生长工艺和成分配比对KLN晶体性能的影响.选用的轴向温度梯度为28～35℃/cm,晶体的旋转速度为5～10r/min;晶体的生长速度与KLN的生长原料的成分有关.采用场冷法对KLN晶体进行极化处理.极化电流密度为2mA/cm3,极化温度为460～340℃.生长出透明的没有裂纹的KLN晶体.