排序方式: 共有3条查询结果,搜索用时 0 毫秒
1
1.
Mao Yihang Hafeez Abdul Pan Taowen Wu Chaorong Wang Lei Muramoto Joji Shennan Carol Cai Kunzheng Tian Jihui 《Plant and Soil》2022,477(1-2):539-552
Plant and Soil - Anaerobic soil disinfestation (ASD) has been proven to be an effective and environmentally friendly method for controlling soil-borne plant diseases. Mechanisms of ASD-mediated... 相似文献
2.
Xiangming Yao Shiming Chen Changhong Wang Taowen Chen Jiangxiao Li Shida Xue Zhikang Deng Wenguang Zhao Bowen Nan Yiqian Zhao Kai Yang Yongli Song Feng Pan Luyi Yang Xueliang Sun 《Liver Transplantation》2024,14(10):2303422
NASICON-type Li1.3Al0.3Ti1.7(PO4)3 (LATP) is one of the most promising solid-state electrolytes (SSEs) to achieve high-energy-density solid-state batteries (SSBs) due to its high ionic conductivity, high-voltage stability, and low cost. However, its practical application is constrained by inadequate interfacial compatibility with cathode materials and significant incompatibility with lithium metal. In this work, a cost-effective interface welding approach is reported, utilizing an innovative thermal pulse sintering (TPS) to fabricate LATP-based solid-state batteries. Initially, the rapid thermal pulses enhance the ionic conductivity of LATP SSE by inducing selective growth of LATP nanowires, effectively occupying interparticle voids. Additionally, this process results in the formation of a dense layer (GCM) comprising graphene oxide, carbon nanotubes, and MXene with a controlled Li+ transport pathway, facilitating lithium stripping and plating processes. Moreover, these thermal pulses facilitate the interfacial fusion between LATP and cathode materials, while avoiding undesired phase diffusion. As a result, SSBs with a LiCoO2 cathode deliver favorable cycle stability at 4.6 V, marking significant progress. This facile interface welding strategy represents a substantial step toward high-energy-density SSB development. 相似文献
3.
Ning Chuanchuan Wang Lei Liu Rui Pan Taowen Cai Yixia Tian Jihui Luo Shiming Cai Kunzheng 《Plant and Soil》2022,477(1-2):183-199
Plant and Soil - Silicon (Si) plays an important role in rice. Although biodiversity utilization in paddy fields has increased in recent years, Si nutrition of rice in intercropping systems is... 相似文献
1