2023

研究成果

2023
当前位置：首页研究成果 2023

1. Liu, K.; Rafique, S.; Musolino, S. F.; Cai, Z.; Liu, F.; Li, X.; Yuan, Y.; Bao, Q.; Yang, Y.; Chu, J.; Peng, X.; Nie, C.; Yuan, W.; Zhang, S.; Wang, J.; Pan, Y.; Zhang, H.; Cai, X.; Shi, Z.; Li, C.; Wang, H.; Deng, L.; Hu, T.; Wang, Y.; Wang, Y.; Chen, S.; Shi, L.; Ayala, P.; Wulff, J. E.; Yu, A.; Zhan, Y. Covalent bonding strategy to enable non-volatile organic cation perovskite for highly stable and efficient solar cells. Joule 2023,7 (5), 1033-1050, DOI: https://doi.org/10.1016/j.joule.2023.03.019.

2. Pan, Y.; Wang, H.; Wang, Y.; Wang, Y.; Li, X.; Liu, Y.; Deng, L.; Liu, K.; Hu, T.; Liu, F.; Shi, Z.; Li, C.; Wang, J.; Yu, A.; Zhang, X.; Zhan, Y. An Ultrasensitive Sandwiched Heterostructure Planar Photodetector with Gradient Quasi-2D Perovskite. Adv. Electron. Mater. 2023,9 (3), 2201028, DOI: https://doi.org/10.1002/aelm.202201028.

3. Liu, F.; Liu, K.; Rafique, S.; Xu, Z.; Niu, W.; Li, X.; Wang, Y.; Deng, L.; Wang, J.; Yue, X.; Li, T.; Wang, J.; Ayala, P.; Cong, C.; Qin, Y.; Yu, A.; Chi, N.; Zhan, Y. Highly Efficient and Stable Self-Powered Mixed Tin-Lead Perovskite Photodetector Used in Remote Wearable Health Monitoring Technology. Advanced Science 2023,10 (5), 2205879, DOI: https://doi.org/10.1002/advs.202205879.

4. Deng, L.; Wang, H.; Rafique, S.; Wang, Y.; Hu, T.; Liu, K.; Wang, Y.; Li, X.; Xie, Z.; Tang, J.; Liu, Z.; Li, J.; Yuan, W.; Wang, J.; Yu, A.; Zhan, Y. Stabilizing Bottom Side of Perovskite via Preburying Cesium Formate toward Efficient and Stable Solar Cells. Advance Functional Materials, 2303742, DOI: https://doi.org/10.1002/adfm.202303742.

5. Zhang, X.; Qiu, W.; Apergi, S.; Singh, S.; Marchezi, P.; Song, W.; Sternemann, C.; Elkhouly, K.; Zhang, D.; Aguirre, A.; Merckx, T.; Krishna, A.; Shi, Y.; Bracesco, A.; van Helvoirt, C.; Bens, F.; Zardetto, V.; D’Haen, J.; Yu, A.; Brocks, G.; Aernouts, T.; Moons, E.; Tao, S.; Zhan, Y.; Kuang, Y.; Poortmans, J. Minimizing the Interface-Driven Losses in Inverted Perovskite Solar Cells and Modules. ACS Energy Lett. 2023,8 (6), 2532-2542, DOI: 10.1021/acsenergylett.3c00697.

6. Rafique, S., Burton, M.R., Badieh, N., Mehraban, S., Tarat, A., Zuo, G., Li, L. and Zhan, Y. (2023), Ultralow Thermal Conductivity Achieved by All Carbon Nanocomposites for Thermoelectric Applications. Adv. Electron. Mater. 2300023. https://doi.org/10.1002/aelm.202300023