Synthesis and Electrochemical Performance Analysis of LiNiO2 Cathode Material Using Taylor-Couette Flow-Type Co-Precipitation Method
Enhanced performance of a Ni-rich LiNi0.8Co0.1Mn0.1O2 cathode material formed through Taylor flow synthesis and surface modification with Li2MoO4
Enhanced performance of a Ni-rich LiNi0.8Co0.1Mn0.1O2 cathode material formed through Taylor flow synthesis and surface modification with Li2MoO4 (1)
39-2-11.-Composite-cathode-material-encapsulated-by-amorphous-garnet-type-solid-electrolyte-and-self-assembled-La2Ni0.5Li0.5O4-
40.-Using-a-CouetteeTaylor-vortex-flow-reactor-to-prepare-a-uniform-and-highly-stable-LiNi80Co15Al05O2-cathode-material
11.-Using-a-CouetteeTaylor-vortex-flow-reactor-to-prepare-a-uniform-and-highly-stable-LiNi80Co15Al05O2-cathode-material
44.-Numerical-simulation-of-ammonium-perchlorate-particles-based-on-a-population-balance-equation-model-in-Taylor-Couette-flow
Production-of-Nickel-Rich-Layered-Cathode-Materials-for-High-Energy-Lithium-Ion-Batteries-via-a-Couette-Taylor-Flow-Reactor (1)
Facile Production of Graphenic Microsheets and Their Assembly via Water-Based, Surfactant-Aided Mechanical Deformations
38.-Facile-Production-of-Graphenic-Microsheets-and-Their-Assembly-via-Water-Based-Surfactant-Aided-Mechanical-Deformations
