The facile preparation of ZnO possessing high visible luminescence intensity remains challenging due to an unclear luminescence mechanism. Here, two basic approaches are proposed to enhance the luminescent intensity based on the theoretical analysis over surface defects. Based on the deduction, we introduce a methodology for obtaining hybrid tetrapod-like zinc oxide (T-ZnO), decorated by carbon nanomarterials on T-ZnO surfaces through the catalytic chemical vapor deposition approach. The intensity of the T-ZnO green emission can be modulated by topography and the proportion of carbon. Under proper experiment conditions, the carbon decorating leads to dramatically enhanced luminescence intensity of T-ZnO from 400 to 700 nm compared with no carbon decorated, which elevates this approach to a simple and effective method for the betterment of fluorescent materials in practical applications.
Xian Jian, Guozhang Chen, Chao Wang, Liangjun Yin, Gang Li, Ping Yang, Lei Chen, Bao Xu, Yang Gao, Yanyu Feng, Hui Tang, Chunhong Luan, Yinglin Liang, Jing Jiang, Yu Cao, Siyuan Wang and Xin Gao
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Xian Jian, Guozhang Chen, Chao Wang, Liangjun Yin, Gang Li, Ping Yang, Lei Chen, Bao Xu, Yang Gao, Yanyu Feng, Hui Tang, Chunhong Luan, Yinglin Liang, Jing Jiang, Yu Cao, Siyuan Wang and Xin Gao
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