研究成果 | [1] Ying Zhang; Caihong Yang*; Aidong Tang*; Huaming Yang* et al.; Separators modified with ultrathin montmorillonite/polymer nanocoatings achieve dendrite-free lithium deposition at high current densities, Nano Letters, 2024, 24: 8834−8842. [2] Caihong Yang, Huanwen Wang, Aidong Tang*, Huaming Yang*, et al.; Efficient anion immobilization enabled by structurally controllable halloysite for dendrite-free sodium metal anode, Science China Chemistry, 2023, 66: 2600-2611. [3] Caihong Yang, Huanwen Wang, Aidong Tang*, Huaming Yang* et al.; Functionalized halloysite scaffold controls sodium dendrite growth, ACS Applied Materials & Interfaces, 2023, 15: 11949-11960. [4] Caihong Yang, Huanwen Wang, Aidong Tang*, Huaming Yang*, et al.; Tubular nanoclay as effective ionic channels for hybrid conductive sodium metal anode, Journal of Power Sources, 2023, 585: 233669. [5] 张莹,杨彩虹*,唐爱东,杨华明;凹凸棒石在锂金属电池负极保护中的应用,硅酸盐学报,2022,50:2800-2808. [6] Caihong Yang, Ruijie Gao, Huaming Yang*; Application of layered nanoclay in electrochemical energy: Current status and future, EnergyChem, 2021, 3: 10006. [7] Caihong Yang, Hai Wang*, Linjiang Wang*, et al.; Three-dimensional independent CoZnAl-LDH nanosheets via asymmetric etching of Zn/Al dual ions for high-performance supercapacitors, Journal of Alloys and Compounds, 2021, 861: 157933. [8] Caihong Yang, Linjiang Wang, Hai Wang*, et al.; Spatially-confined electrochemical reactions of MoO3 nanobelts for reversible high capacity: Critical roles of glucose, Chemical Engineering Journal, 2018, 337: 1-9. [9] 杨华明; 唐爱东; 何帅杰; 杨彩虹; 一种高可逆容量钠离子电池负极材料和利用大鳞片石墨制备其的方法及其应用, 2024, 中国, ZL 202310309448.0 [10] 杨华明; 唐爱东; 张莹; 杨彩虹; 一种黏土矿物复合膜材料及其制备方法与应用, 2023,中国, CN202311198338.8 [11] 王海; 杨彩虹; 逯慧兵; 李阳; 王林江; 一种钼酸铵锂离子电池负极材料的制备方法及应用, 2021, 中国, ZL201810383055.3 [12] 王海; 杨彩虹; 李惠敏; 李阳; 逯慧兵; 王林江; 一种表面刻蚀的多孔三氧化钼制备方法, 2020, 中国, ZL201810663570.7 |
