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首页> 外文期刊>Science >CONDUCTING LAYERED ORGANIC-INORGANIC HALIDES CONTAINING (110)-ORIENTED PEROVSKITE SHEETS
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CONDUCTING LAYERED ORGANIC-INORGANIC HALIDES CONTAINING (110)-ORIENTED PEROVSKITE SHEETS

机译:包含(110)钙钛矿板的层状有机无机卤化物

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摘要

Single crystals of the layered organic-inorganic perovskites, [NH2C(I)=NH2](2)(CH3NH3)(m) SnmI3m+2, were prepared by an aqueous solution growth technique. In contrast to the recently discovered family, (C4H9NH3)(2)(CH3NH3)(n-1)SnnI3n+1, which consists of [100]-terminated perovskite layers, structure determination reveals an unusual structural class with sets of m [110]-oriented CH3NH3SnI3 perovskite sheets separated by iodoformamidinium cations. Whereas the m = 2 compound is semiconducting with a band gap of 0.33 +/- 0.05 electron volt, increasing m leads to more metallic character. The ability to control perovskite sheet orientation through the choice of organic cation demonstrates the flexibility provided by organic-inorganic perovskites and adds an important handle for tailoring and understanding lower dimensional transport in layered perovskites.
机译:通过水溶液生长技术制备了层状有机-无机钙钛矿的单晶[NH 2 C(I)= NH 2](2)(CH 3 NH 3)(m)SnmI 3 m +2。与最近发现的族(C4H9NH3)(2)(CH3NH3)(n-1)SnnI3n + 1(由[100]端接的钙钛矿层组成)相比,结构确定揭示了具有m组的不寻常结构类别[110]取向的CH3NH3SnI3钙钛矿片,由碘代甲ami鎓阳离子隔开。 m = 2的化合物是半导体,带隙为0.33 +/- 0.05电子伏特,增加m会导致更多的金属特性。通过选择有机阳离子来控制钙钛矿片材取向的能力证明了有机-无机钙钛矿提供的灵活性,并为剪裁和理解层状钙钛矿中的低维迁移提供了重要的处理方法。

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