博彩导航

已发表SCI论文40篇，总引用超过5500次，H因子28。其中第一作者或通讯作者发表Nature Sustainability、Nature Water、Advanced Materials、ACS Nano、Environmental Science & Technology等学术期刊12篇，撰写英文专著章节1章，已授权中美专利各1项。

1. Renyuan Li and Peng Wang*. Sorption based atmospheric water harvesting and beyond.Nature Water, 2023, 1, 573-586.

2. Renyuan Li, Wenbin Wang, Yifeng Shi, Amy Chang-ting Wang, and Peng Wang*. Advanced material design and engineering for water-based evaporative cooling. Advanced Materials, 2023, 202209460.
   

3. Hai Zhu, Renyuan Li*, and Hao Guo*, Adsorption/desorption atmospheric water harvester.Matter, 2022，5，2578-2581.
   

4. Renyuan Li, Mengchun Wu, Sara Aleid, Chenling Zhang, Wenbin Wang, and Peng Wang*. An integrated solar-driven system produces electricity with fresh water and crops in arid regions.Cell Reports Physical Science, 2022, 3, 100781.
   

5. Renyuan Li, Mengchun Wu, Yusuf Shi, Sara Aleid, Wenbin Wang, Chenling Zhang, and Peng Wang*. Hybrid water vapor sorbent design with pollution shielding property: extract clean water from polluted bulk water sources. Journal of Materials Chemistry A, 2021, 9, 14731- 14740. (Themed collection of 2021 JMCA hot papers)

6. Renyuan Li, Yusuf Shi, Mengchun Wu, Seunghyun Hong, and Peng Wang*. Photovoltaic Panel Cooling by Atmospheric Water Sorption-Evaporation Cycle. Nature Sustainability, 2020, 3, 636-643.

7. Renyuan Li, Yusuf Shi, Mengchun Wu, Seunghyun Hong, and Peng Wang*. Improving atmospheric water production yield: enabling multiple water harvesting cycles with nano sorbent. Nano Energy, 2020, 67, 104255.

8. Renyuan Li, Yusuf Shi, Mossab Alsaedi, Mengchun Wu, and Peng Wang*. Hybrid Hydrogel with High Water Vapor Harvesting Capacity for Deployable Solar-Driven Atmospheric Water Generator. Environ. Sci. Technol. 2018, 52, 11367-11377.
   

9. Renyuan Li, Yusuf Shi, Le Shi, Mossab Alsaedi, and Peng Wang*. Harvesting Water from Air: Using Anhydrous Salt with Sunlight. Environ. Sci. Technol. 2018, 52, 5398–5406.

10. Renyuan Li, Lianbin Zhang, Le Shi, and Peng Wang*. MXene Ti3C2: An Effective 2D Light- to-Heat Conversion Material. ACS Nano. 2017, 11, 3752–3759. (ESI高被引)

11. Renyuan Li, and Peng Wang*. (Book chapter) Introduction to Rational Design of Nanomaterials for Advanced Environmental Applications. in "Rational Design of Next- Generation Nanomaterials and Nanodevices for Advanced Water Applications" International Water Association Publishing (2016).

12. Renyuan Li, Lianbin Zhang, and Peng Wang*. Rational design of nanomaterials for water treatment. Nanoscale 2015, 7, 17167–17194.

    
    

    
    

    
    

    
    

    参与会议与会议论文
    

13. Renyuan Li, and Peng Wang “Beyond Bulk-Phased Water Source: Acquiring Potable Water from Air” KAUST Research Conference 2019 on Sustainable Urban-Environmental Future, Thuwal, Saudi Arabia, April 2019.
    

14. Renyuan Li, and Peng Wang “MXene Ti3C2: An Effective 2D Light-to-Heat Conversion Material” CIAP 8th Annual Meeting 2017, Thuwal, Saudi Arabia, November 2017

15. Renyuan Li, and Peng Wang “MXene Ti3C2: An Effective 2D Light-to-Heat Conversion Material” 2017 Gordon Research Conference, Hong Kong, China, June 2017.

16. Student Representative for VSRP Recruiting Expo. The 254th ACS conference, Washington D.C., USA. August 2017.

17. Student Representative for VSRP Recruiting Expo. The 252th ACS conference, Philadelphia, USA. August 2016.