Cite
Defect Engineering Activates Schottky Heterointerfaces of Graphene/CoSe2 Composites with Ultrathin and Lightweight Design Strategies to Boost Electromagnetic Wave Absorption.
MLA
Ding, Jiawei, et al. “Defect Engineering Activates Schottky Heterointerfaces of Graphene/CoSe2 Composites with Ultrathin and Lightweight Design Strategies to Boost Electromagnetic Wave Absorption.” Advanced Functional Materials, vol. 33, no. 48, Nov. 2023, pp. 1–14. EBSCOhost, https://doi.org/10.1002/adfm.202305463.
APA
Ding, J., Shi, R., Gong, C., Wang, C., Guo, Y., Chen, T., Zhang, Y., Cong, H., Shi, C., & He, , Fang. (2023). Defect Engineering Activates Schottky Heterointerfaces of Graphene/CoSe2 Composites with Ultrathin and Lightweight Design Strategies to Boost Electromagnetic Wave Absorption. Advanced Functional Materials, 33(48), 1–14. https://doi.org/10.1002/adfm.202305463
Chicago
Ding, Jiawei, Rongrong Shi, Chuangchuang Gong, Chenxu Wang, Yue Guo, Tong Chen, Yijing Zhang, Hongwei Cong, Chunsheng Shi, and , Fang He. 2023. “Defect Engineering Activates Schottky Heterointerfaces of Graphene/CoSe2 Composites with Ultrathin and Lightweight Design Strategies to Boost Electromagnetic Wave Absorption.” Advanced Functional Materials 33 (48): 1–14. doi:10.1002/adfm.202305463.