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碳化硅纳米线阵列基一体化光电阳极用于高效裂解水制氢

Integrated photoanode based on silicon carbide nanowire arrays for efficient water splitting
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摘要 近年来,光电催化裂解水制氢已经发展成为获取氢能最重要的途径之一.然而,半导体材料固有的较低的光吸收效率和较高的载流子复合率成为限制其发展的主要障碍.以N掺杂4H-SiC单晶片为原料,通过阳极氧化法制备了N掺杂4H-SiC纳米线阵列基一体化光电阳极,聚焦于优化阳极析氧反应条件,在光照和外加电场的共同作用下成功实现了高效裂解水制氢.相比于块体,碳化硅纳米线阵列基一体化光电阳极的裂解水制氢性能表现出了显著的提升.以Ag/AgCl电极为参比电极,开启电压从1.224 V降低至-0.021 V,1.4 V电压下的电流密度从2.64 mA·cm^(-2)提升至3.61 mA·cm^(-2).通过构建具有纳米结构的半导体光电阳极,可以有效提高其光吸收能力并优化其电荷转移路径,从而显著提升光电催化裂解水制氢的效率. In the context of rapid social development,it is urgent to address the increasingly prominent issues of fossil energy depletion and environmental pollution.As a result,research has focused on the creation of new clean energy sources such as solar,wind,biological,geothermal,and hydrogen.Hydrogen energy is one of these new energy sources that has drawn a lot of attention because of its low weight,good thermal conductivity,high heating value,rich utilization forms,and diverse storage states.Nowadays,one of the most significant methods for producing clean energy is photoelectrochemical(PEC)water splitting for hydrogen.However,the intrinsic drawbacks of commonly used semiconductors,such as the low light absorption efficiency,high carrier recombination rate,and slow oxygen evolution kinetics,have become the main barriers preventing their advancement in PEC water splitting.This study used anodic oxidation to create N-doped 4H-SiC nanowire arrays(NWAs)from N-doped 4H-SiC single crystalline wafers.It can be verified that the highly oriented N-doped 4H-SiC NWAs are fully exposed by removing the cap layer.Additionally,the single bamboo-shaped nanowire that was produced has a diameter of~30-50 nm.Focusing on the optimization of the oxygen evolution reaction(OER)conditions,the NWAs were used as an integrated photoanode in a typical three-electrode system to achieve effective PEC water splitting for hydrogen production under illumination and electric field.Notably,the N-doped 4H-SiC NWAs show better water splitting performance compared with the bulk;that is,the onset potential is decreased from 1.224 V to−0.021 V versus the Ag/AgCl electrode,and the current density is increased from 2.64 mA∙cm^(-2)to 3.61 mA∙cm^(-2)at 1.4 V.Particularly,the N-doped 4H-SiC NWAs exhibit an extremely sensitive response to light.The improved optical absorption capacity and efficient charge transfer of N-doped 4H-SiC NWAs are responsible for the improvement in PEC water splitting performance.On the one hand,when the N-doped 4H-SiC NWAs are exposed to light,a significant amount of light shines into the gap between the nanowires.N-doped 4H-SiC obtains additional light absorption pathways with the constant reflection of the light,significantly enhancing the light absorption efficiency.On the other hand,the NWAs can considerably reduce the hole travel distance and avoid the recombination of the photogenerated electron-hole pairs,making more charges participate in the redox reaction to enhance the PEC water splitting performance of N-doped 4H-SiC.By building semiconductor photoanode nanostructures,it is possible to efficiently absorb light and transfer charge,significantly enhancing the PEC water splitting efficiency.
作者 周林林 杨涛 王恩会 周国治 侯新梅 ZHOU Lin-lin;YANG Tao;WANG En-hui;ZHOU Guo-Zhi;HOU Xin-mei(Collaborative Innovation Center of Steel Technology,University of Science and Technology Beijing,Beijing 100083,China)
出处 《工程科学学报》 EI CSCD 北大核心 2023年第7期1149-1155,共7页 Chinese Journal of Engineering
基金 国家杰出青年基金资助项目(52025041) 国家自然科学基金资助项目(51902020) 中央高校基本科研业务费资助项目(FRFIDRY-21-028)。
关键词 碳化硅 阳极氧化 纳米线阵列 光电催化裂解水 制氢 silicon carbide anodic oxidation nanowire arrays photoelectrochemical water splitting hydrogen production
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