报道了一种改进型的微波等离子体增强辉光放电(MPEGD)光源,并将这种级联光源用于固体导电样品的分析。
A novel microwave plasma-enhanced glow discharge (MPEGD) lamp was used as excitation source for the analysis of solid samples.
由于固体的导电性能由其晶体结构所决定,Kanatzidis博士团队于是实验新的原子晶格。
Since the electrical properties of solids depend on their crystal structures, his group is experimenting with new atomic lattices.
用这种方法得到的“固体烟”气溶胶有良好的弹性和导电性,正是理想的制造传感器的材料。
The resulting "frozen smoke" aerogel is flexible and has conductivity that makes it an ideal sensor.
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