A special organic–inorganic nanohybrid, graphic carbon nitride (g-C₃N₄)/copper species by smartly implanted reduced graphene oxide was fabricated. The nanohybrid (g-C₃N₄/rGo/Cu_xO) exhibited lower interface resistance and higher photoelectric response. It was found that the implanted reduced graphene oxide played an important role in promoting electron transfer in the nanohybrid by improving the linkage of the inorganic copper species and the organic graphic carbon nitride. By solid diffuse reflection spectra, fluorescence spectra, and electron paramagnetic resonance (EPR) spectra, it was confirmed that the excellent performance of the nanohybrid was originated from strong visible absorption, effective separation of photogenerated charges and more oxygen vacancies in the nanohybrid. It will provide a favorable way for constructing organic–inorganic hybrid with high photoelectronic performance.

通过巧妙地注入还原氧化石墨烯，制造了一种特殊的有机-无机纳米杂化物、图形氮化碳 (gC ₃ N ₄ )/铜物种。纳米杂化物 (gC ₃ N ₄ /rGo/Cu _xO) 表现出较低的界面电阻和较高的光电响应。发现注入的还原氧化石墨烯通过改善无机铜物种和有机图形氮化碳的连接，在促进纳米杂化物中的电子转移方面发挥了重要作用。通过固体漫反射光谱、荧光光谱和电子顺磁共振（EPR）光谱，证实纳米杂化物的优异性能源于其强烈的可见光吸收、光生电荷的有效分离和纳米杂化物中更多的氧空位。它将为构建具有高光电性能的有机-无机杂化物提供有利的途径。