具体发表情况详见：https://scholar.google.com/citations?user=9-7kE_QAAAAJ

1. Wang, Y., Wang, C., Chen, C.^*, Wang, P.^* (2025). Renewable-fueled plant factories ensure large-scale food supply but require low-carbon transition for environmental gains. Nature Food, 6, 968-982.

2. Wang, Y.^#, Chen, C.^#, Tao, Y.^*, Wen, Z.^* (2025). Uneven renewable energy supply constrains the decarbonization effects of excessively deployed hydrogen-based DRI technology. Nature Communications, 16, 4916.

3. Wang, Y. ^#, Wen, Z.*^#, Xu, M. Doh Dinga, Christian (2025). Long-term transformation in China’s steel sector for carbon capture and storage technology deployment. Nature Communications, 16, 4251.

4. Wang, Y., Pan, W.^* (2024). Multi-sectoral efforts are required for decarbonising the building sector: a case in Hong Kong. npj Urban Sustainability, 4: 43.

5. Wang, Y., Wen, Z.^*, Xu, M., Kosajan, V. (2024). The carbon-energy-water nexus of the carbon capture, utilization, and storage technology deployment schemes: A case study in China’s cement industry. Applied Energy, 362, 122991.

6. Wang, Y., Zhang, L., Wen, Z.^*, Chen, C., Cao, X., Doh Dinga, C. (2023). Optimization of the sustainable production pathways under multiple industries and objectives: A study of China’s three energy- and emission-intensive industries. Renewable and Sustainable Energy Reviews, 182, 113399.

7. Wang, Y., Wen, Z.*, Lv, X., Zhu, J. (2023). The regional discrepancies in the contribution of China’s thermal power plants toward the carbon peaking target. Applied Energy, 337, 120922.

8. Wang, Y., Wen, Z.*, Cao, X., Doh Dinga, C. (2022). Is information and communications technology effective for industrial energy conservation and emission reduction? Evidence from three energy-intensive industries in China. Renewable and Sustainable Energy Reviews, 160, 112344.