Li, Jia published the artcileBoron-doped carbon microspheres as a new catalyst for rechargeable Li-CO2 batteries, Synthetic Route of 143-24-8, the main research area is boron doped carbon microsphere lithium battery electrochem property.
Li-CO2 batteries are thought to be a promising technol. for it can combine storing energy with mitigating the “”greenhouse effect””. However, CO2 electrochem. reduction reaction is known to be a kinetically sluggish one. Therefore, researchers are committed to exploring catalysts with high catalytic activity to drive the reaction. In this study, boron-doped carbon microspheres (B-CMs) with mesoporous structure and large sp. surface area were prepared using one-step impregnation followed by calcination. Active sites are increased by the pos. charged boron atoms in B-CMs, thus, endowing higher catalytic performance for Li-CO2 batteries. The Li-CO2 battery with B-CMs cathode exhibited excellent performance, delivering a high discharge capacity of 17,429 and 11,975 at the c.d. of 200 and 500 resp., and can stably run 90 cycles at the c.d. of 200 with a limited capacity of 1000.
Fullerenes, Nanotubes, and Carbon Nanostructures published new progress about Calcination. 143-24-8 belongs to class ethers-buliding-blocks, name is 2,5,8,11,14-Pentaoxapentadecane, and the molecular formula is C10H22O5, Synthetic Route of 143-24-8.
Referemce:
Ether – Wikipedia,
Ether | (C2H5)2O – PubChem