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在科技部973计划、国家自然科学优秀青年基金、中科院“百人计划”等项目的支持下,福建物构所中科院光电材料化学与物理重点实验室罗军华研究小组利用分子基相变晶体材料在相变过程中诱导分子极化的产生,从而引起物质倍频效应的产生,实现非线性倍频性能的可逆开关。通过变温单晶衍射、差热/热重、变温介电和变温粉末衍射,以及和中科院武
Under the support of the Ministry of Science and Technology 973 Program, National Natural Science Foundation of Youth, Chinese Academy of Sciences, “Hundred Talents Program” and other projects, Luo Junhua, Key Laboratory of Optoelectronic Materials Chemistry and Physics of the Chinese Academy of Sciences, Phase transition induced by the generation of molecular polarization, resulting in the generation of material multiplier effect, to achieve reversible switching frequency multiplier performance. Through variable temperature single crystal diffraction, differential thermal / thermogravimetric, variable temperature dielectric and variable temperature powder diffraction, and the Chinese Academy of Sciences