论文部分内容阅读
无机化学课程建设的探讨
【机 构】
:
吉林大学化学学院 130012
【出 处】
:
中国化学会第十届全国无机化学学术会议
【发表日期】
:
2019年3期
其他文献
清洁、可再生且高燃值的氢气便于存储、运输和转换,成为人类未来能源的理想载体。电催化分解水被认为是一种环境友好型的制氢技术,具有广阔的应用前景。
Highly Purified Dicobalt Phosphide Nanodendrites on Exfoliated Graphene:in situ Synthesis and as Rob
Designing highly active,earth-abundant and robust electrocatalysts with large surface areas and active sites,good electric conductivity,and minimization of gas bubble adhesion operated in the same ele
氧气析出反应(OER)是一个非常重要的能源相关电化学反应,但其动力学过程缓慢,限制了相关能源电化学技术的快速发展.Ru/Ir 基贵金属催化材料虽表现出优异的OER 催化性能,但其价格昂贵、储量有限.
Atomic Layer Deposition Al2O3@Transition Metal Vanadate/CNTs Composite as Electrodes for Potassium-I
Potassium ion battery(PIBs)has become a new generation of secondary battery in recent years due to its abundant potassium resources,low cost and great application potential.
The field of Metal-Organic Frameworks(MOFs)-based biomimetic catalyst has achieved the great progress, but is still in its infancy stage.
太赫兹(THz)波在太赫兹成像、空间探测、生物医学、国防工业等领域有着重要作用。[1,Z]利用非线性光学晶体采用光整流或差频的方法可输出太赫兹波。有机非线性光学晶体因具有非线性光学系数大、在太赫兹波段介电常数较小、分子结构可设计、生长设备简单等优点,在太赫兹波的产生和探测方面具有良好的应用潜力,近年来吸引了大量的关注。
Experimental estimation of the dipolar limit using a CoⅡ single-ion magnet with trigonal bipyramidal
Following the observation in 1993 of superparamagnetism on a molecule of [Mn1Z(OAc)18O11(HZO)5]·4HZO, [Mn1Z]1, now known as single-molecule-magnet, much advances have been made in elevating the blocki