Coherent nanointerface between light-harvesting and catalytic transition metal sulfides for efficient photochemical conversion
Creating atomically coherent interfaces can sharpen the physiochemical properties and functionalities of nanomaterials for efficient energy conversion via manipulating the charge flow. While coherent interfaces can be built between transition metal dichalcogenides with structural similarities and we...
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sg-ntu-dr.10356-1728752023-12-27T06:15:50Z Coherent nanointerface between light-harvesting and catalytic transition metal sulfides for efficient photochemical conversion Chen, Yuexing Ma, Ming Hu, Jun Chen, Zhong Jiang, Peng Amirav, Lilac Yang, Shihe Xing, Zheng School of Materials Science and Engineering Engineering::Materials Coherent Interface Heteroepitaxial Growth Creating atomically coherent interfaces can sharpen the physiochemical properties and functionalities of nanomaterials for efficient energy conversion via manipulating the charge flow. While coherent interfaces can be built between transition metal dichalcogenides with structural similarities and weak interlayer van der Waals interactions, it remains challenging to realize interfacial coherency with more generic transition metal chalcogenides via cost-effective wet chemical routes. Here we establish a coherent CdS(010)|CoS(010) interface via in-situ heteroepitaxial growth of CoS nanoflakes onto CdS nanowires. The uniform and oriented distribution of CoS nanoflakes on the CdS nanowires features an interesting “leaves-on-a-branch” nano-architecture with coherent interface and well-aligned energy levels, allowing efficient separation of photoexcited charge carriers. Combined with the outstanding proton reduction kinetics of the CoS “nanoleaves”, striking photochemical solar-to-hydrogen conversion performance can be obtained. Our findings provide a viable design strategy of nanojunctions with atomic level coherency and great application prospect in catalysis, nanoelectronics and many others. This work was financially supported by the Guangdong Basic and Applied Basic Research Foundation (2021A1515111234), Natural Science Foundation of China (22202237, 21972006, 21676216, 21905298), Shenzhen Science and Technology Innovation Committee (JCYJ20190807164205542), Shenzhen Peacock Plan (KQTD2016053015544057), and Special project of Shaan-xi Provincial Education Department, China (20JC034). Y.C. (202108280008) was funded by the China Scholarship Council (2021). 2023-12-27T06:15:50Z 2023-12-27T06:15:50Z 2023 Journal Article Chen, Y., Ma, M., Hu, J., Chen, Z., Jiang, P., Amirav, L., Yang, S. & Xing, Z. (2023). Coherent nanointerface between light-harvesting and catalytic transition metal sulfides for efficient photochemical conversion. Applied Catalysis B: Environmental, 324, 122300-. https://dx.doi.org/10.1016/j.apcatb.2022.122300 0926-3373 https://hdl.handle.net/10356/172875 10.1016/j.apcatb.2022.122300 2-s2.0-85144477881 324 122300 en Applied Catalysis B: Environmental © 2022 Elsevier B.V. All rights reserved. |
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Engineering::Materials Coherent Interface Heteroepitaxial Growth Chen, Yuexing Ma, Ming Hu, Jun Chen, Zhong Jiang, Peng Amirav, Lilac Yang, Shihe Xing, Zheng Coherent nanointerface between light-harvesting and catalytic transition metal sulfides for efficient photochemical conversion |
| description |
Creating atomically coherent interfaces can sharpen the physiochemical properties and functionalities of nanomaterials for efficient energy conversion via manipulating the charge flow. While coherent interfaces can be built between transition metal dichalcogenides with structural similarities and weak interlayer van der Waals interactions, it remains challenging to realize interfacial coherency with more generic transition metal chalcogenides via cost-effective wet chemical routes. Here we establish a coherent CdS(010)|CoS(010) interface via in-situ heteroepitaxial growth of CoS nanoflakes onto CdS nanowires. The uniform and oriented distribution of CoS nanoflakes on the CdS nanowires features an interesting “leaves-on-a-branch” nano-architecture with coherent interface and well-aligned energy levels, allowing efficient separation of photoexcited charge carriers. Combined with the outstanding proton reduction kinetics of the CoS “nanoleaves”, striking photochemical solar-to-hydrogen conversion performance can be obtained. Our findings provide a viable design strategy of nanojunctions with atomic level coherency and great application prospect in catalysis, nanoelectronics and many others. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Chen, Yuexing Ma, Ming Hu, Jun Chen, Zhong Jiang, Peng Amirav, Lilac Yang, Shihe Xing, Zheng |
| format |
Article |
| author |
Chen, Yuexing Ma, Ming Hu, Jun Chen, Zhong Jiang, Peng Amirav, Lilac Yang, Shihe Xing, Zheng |
| author_sort |
Chen, Yuexing |
| title |
Coherent nanointerface between light-harvesting and catalytic transition metal sulfides for efficient photochemical conversion |
| title_short |
Coherent nanointerface between light-harvesting and catalytic transition metal sulfides for efficient photochemical conversion |
| title_full |
Coherent nanointerface between light-harvesting and catalytic transition metal sulfides for efficient photochemical conversion |
| title_fullStr |
Coherent nanointerface between light-harvesting and catalytic transition metal sulfides for efficient photochemical conversion |
| title_full_unstemmed |
Coherent nanointerface between light-harvesting and catalytic transition metal sulfides for efficient photochemical conversion |
| title_sort |
coherent nanointerface between light-harvesting and catalytic transition metal sulfides for efficient photochemical conversion |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/172875 |
| _version_ |
1787136593324146688 |