激光与光电子学进展, 2019, 56 (14): 140001, 网络出版: 2019-07-12
低维黑磷制备及其在太阳电池中的应用研究进展 下载: 1808次
Preparation of Low-Dimensional Black Phosphorus and its Application in Solar Cells
图 & 表
图 1. 黑磷的晶体结构图。(a)侧视图;(b)单层黑磷侧视图;(c)单层黑磷俯视图
Fig. 1. Crystal structures of black phosphorus. (a) Side view; (b) side view of single layer black phosphorus; (c) top view of single layer black phosphorus
图 2. Ar+等离子体刻蚀前后黑磷的光学图像。(a)刻蚀前;(b)刻蚀后
Fig. 2. Optical images of black phosphorus before and after Ar+ plasma etching. (a) Before etching; (b) after etching
图 3. 电化学法制备二维黑磷
Fig. 3. Preparation of two-dimensional black phosphorus by electrochemical method
图 4. 探针超声结合冰浴超声制备黑磷量子点
Fig. 4. Preparation of black phosphorus quantum dots by probe ultrasonic combined with ice bath ultrasonic
图 5. 溶剂热法制备黑磷量子点
Fig. 5. Preparation of black phosphorus quantum dots by solvothermal method
图 7. 化学气相沉积法示意图。(a)制备红磷薄膜; (b)制备黑磷薄膜
Fig. 7. Diagram of chemical vapor deposition. (a) Preparation of red phosphorus film; (b) preparation of black phosphorus film
图 8. BN-BP-BN夹层异质节。(a)制备工艺图;(b)器件结构图;(c) O2等离子体刻蚀图;(d)器件光学图像
Fig. 8. BN-BP-BN interlayer heterogeneous section. (a) Preparation process diagram; (b) device structural diagram; (c) O2-plasma etching; (d) optical image of device
图 10. 基于BP/PCBM异质结的太阳电池。(a)结构示意图;(b)能级结构图
Fig. 10. Solar cell based on BP/PCBM heterojunction. (a) Structural diagram; (b) energy level structure diagram
图 11. 准固态双面N型染料敏化太阳电池。(a)结构示意图;(b)能级图
Fig. 11. Quasi-solid double-sided N-type dye-sensitized solar cell. (a) Structural diagram; (b) energy level diagram
图 12. 两种有机太阳电池。(a)太阳电池的结构示意图;(b)常规结构的J-V特性曲线;(b)倒置结构的J-V特性曲线
Fig. 12. Two kinds of organic solar cells. (a) Diagram of solar cell; (b) J-V characteristic curve of conventional structure; (c) J-V characteristic curve of inverted structure
图 13. 黑磷/钙钛矿杂化结构合成图
Fig. 13. Synthesis diagram of black phosphorus/perovskite hybrid structure
余夏辉, 杜凯翔, 杨培志. 低维黑磷制备及其在太阳电池中的应用研究进展[J]. 激光与光电子学进展, 2019, 56(14): 140001. Xiahui Yu, Kaixiang Du, Peizhi Yang. Preparation of Low-Dimensional Black Phosphorus and its Application in Solar Cells[J]. Laser & Optoelectronics Progress, 2019, 56(14): 140001.