Progress has been made in the study of crystalline materials with the photoelectric effect of ferroelectric semiconductors

Polar optoelectronic functional crystalline materials with non-centrosymmetric structures exhibit excellent optoelectronic properties such as non-linear optics, piezoelectric, pyroelectric, and ferroelectric, based on spontaneous polarization. However, only the compounds that crystallize in 10 kinds of polar point groups can produce the polarization effect. How to innovate the structural design of the polar optoelectronic functional crystal material, and achieve the uniform arrangement of the dipole moments by using the elementary elements, Polarization properties of compounds to obtain crystalline materials with excellent optoelectronic properties have become an important scientific issue in this area.

Chinese Academy of Sciences, Fujian Institute of Physical Structure and State Key Laboratory of Chemistry and Physics CAS Key Laboratory of Optoelectronic Materials and Physics, led by Luo Junhua inorganic photovoltaic functional crystal materials research team, the National Outstanding Youth Fund, Hercynian "100 team" researcher Supported by the project of "Chunmiao Talents" sponsored by Sun Zhihua and the Outstanding Young Persons Fund of Fujian Province, the strategy of breaking induced polarization of solid phase transition symmetry was put forward and a series of novel polar photoelectric functional crystal materials were constructed. Recently, the team based on the design strategy of breaking induction polarization induced by the symmetry of solid phase transformation obtained an example of a ferroelectric crystal material with a perovskite-like structure. During the phase transition, the cations orient along the polar axis in the same direction and produce strong polarization effect in cooperation with the metal skeleton. The study found that: under illumination, the crystal exhibits anisotropic semiconductor optoelectronic features. A significant temperature dependence of photovoltaic voltage and photovoltaic current was generated along the two-dimensional extension direction of the metal skeleton layer, and the vertical direction showed obvious photoconductivity. Further structural analysis revealed that the ferroelectric polarization effect of the material has played an important role in the photovoltaic performance Decisive role, the relevant research findings published in the "German Applied Chemistry" (Angew. Chem., Int. Ed., 2016,

Previously, based on the previous exploration of the phase transition mechanism of crystal structure (Adv. Fuct. Mater., 2012, 22, 4855), the polarization effect was induced by the symmetry breaking in the solid phase transformation process. (Adv. Mater., 2013, 25, 4159, Chem. Mater., 2015, 27, 4493); and took the lead in expanding the strategy to a plastic phase change material system, obtained the ultra-high switch (Angew. Chem., Int. Ed., 2012, 51, No. 10) was obtained at the same time as the frequency-doubled crystal material (J. Am. Chem. Soc., 2015, 3871) and successfully applied ferroelectric crystal materials to highly sensitive pyroelectric detection (Adv. Mater., 2015, 27, 4795).

In addition, the team also previously used BO3, PO4 functional element chemical control synthesis of non-centrosymmetric structure of the compound, obtained a series of UV, deep UV nonlinear optical crystal materials, including the development of a series of non-layered habits of non-beryllium borate deep UV Linear optical crystal materials (J. Am. Chem. Soc., 2016, 138, 2961; J. Am. Chem. Soc., 2015, 137, 2207; Nat. Commun., 2014, 5, 4019) Salt-deep UV nonlinear optical crystalline materials (J. Am. Chem. Soc., 2014, 136, 8560; Angew. Chem., Int. Ed., 2015, 54, 4217).

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