Facile synthesis of bimodal macroporous g-C_3N_4/SnO_2 nanohybrids with enhanced photocatalytic activity

作     者：Yingzhi Chen Wenhao Li Dongjian Jiang Kuo Men Zhen Li Ling Li Shizheng Sun Jingyuan Li Zheng-Hong Huang Lu-Ning Wang 

作者机构：School of Materials Science and Engineering University of Science and Technology Beijing State Key Laboratory of Advanced Materials for Smart Sensing General Research Institute for Non-Ferrous Metals Key Laboratory of Advanced Materials (MOE) School of Materials Science and Engineering Tsinghua University State Key Laboratory for Advanced Metals and Materials University of Science and Technology Beijing 

出 版 物：《Science Bulletin》 (科学通报（英文版）)

年 卷 期：2019年第64卷第1期

页      面：44-53页

核心收录：

学科分类：07[理学] 

基　　金：supported by the National Key Research and Development Program of China (2016YFB0700300) the National Natural Science Foundation of China (51503014, 51501008) the State Key Laboratory for Advanced Metals and Materials (2016Z-03) 

主　　题：Highly macroporous g-C3N4 Nanohybrid Interconnected network Photocatalysis 

摘      要：It is of vital importance to construct highly interconnected,macroporous photocatalyst to improve its efficiency and applicability in solar energy conversion and environment remediation.Graphitic-like C_3N_4(g-C_3N_4),as an analogy to two-dimensional(2D)graphene,is highly identified as a visible-lightresponsive polymeric semiconductor.Moreover,the feasibility of g-C_3N_4 in making porous structures has been well established.However,the preparation of macroporous g-C_3N_4 with abundant porous networks and exposure surface,still constitutes a difficulty.To solve it,we report a first facile preparation of bimodal macroporous g-C_3N_4 hybrids with abundant in-plane holes,which is simply enabled by in-situ modification through thermally treating the mixture of thiourea and SnCl_4(pore modifier)after rotary evaporation.For one hand,the formed in-plane macropores endow the g-C_3N_4 system with plentiful active sites and short,cross-plane diffusion channels that can greatly speed up mass transport and transfer.For another,the heterojunctions founded between g-C_3N_4 and SnO_2 consolidate the electron transfer reaction to greatly reduce the recombination probability.As a consequence,the resulted macroporous gC_3N_4/SnO_2 nanohybrid had a high specific surface area(SSA)of 44.3 m^2/g that was quite comparable to most nano/mesoporous g-C_3N_4 reported.The interconnected porous network also rendered a highly intensified light absorption by strengthening the light penetration.Together with the improved mass transport and electron transfer,the macroporous g-C_3N_4/SnO_2 hybrid exhibited about 2.4-fold increment in the photoactivity compared with pure g-C_3N_4.Additionally,the recyclability of such hybrid could be guaranteed after eight successive uses.