Search results
Dec 4, 2021 · In addition, we show that the composition of cellulose and lignin in the precursor significantly influences the shape of the assembly and the formation of covalent bonds, which affect the dielectric response-ability and the surface hydrophobicity (the apparent contact angle of water can reach 135°).
Dec 4, 2021 · Zhihong Yang. Yanjun Li. Hualiang Lv. Solomon Adera. Xiaoguang Wang. 9248 Accesses. 196 Citations. 1 Altmetric. Explore all metrics. Highlights. A novel, non-porous carbon structure was obtained through pyrolysis of biomass heterostructures consisting of cellulose and lignin.
Zhihong BIAN, Medical Doctor | Cited by 29 | of Okayama University, Okayama | Read 11 publications | Contact Zhihong BIAN
Dec 4, 2021 · A novel, non-porous carbon structure was obtained through pyrolysis of biomass heterostructures consisting of cellulose and lignin. The novel class of biomass-derived carbon materials exhibit an enhanced electromagnetic (EM) loss capability due to the nano-antenna structure created by in-situ growth of carbon nanofibers on carbon nanosheets.
Dec 4, 2021 · HIGHLIGHTS. • A novel, non-porous carbon structure was obtained through pyrolysis of biomass heterostructures consisting of cellulose and lignin. • The novel class of biomass-derived carbon ...
Huiyang Bian1, Zhihong Yang3, Yanjun Li1, *, Hualiang Lv2, *, Solomon Adera5, *, Xiaoguang Wang 2, 4, * 1 Jiangsu Co-Innovation Center of Efficient Processing and Utilization of Forest
Retrieved from "https://wiki.d-addicts.com/index.php?title=Bian_Zhi_Hong&oldid=945806"
