Structure design and composition engineering of carbon‐based nanomaterials for lithium energy storage
H Geng, Y Peng, L Qu, H Zhang… - Advanced Energy …, 2020 - Wiley Online Library
Carbon‐based nanomaterials have significantly pushed the boundary of electrochemical
performance of lithium‐based batteries (LBs) thanks to their excellent conductivity, high …
performance of lithium‐based batteries (LBs) thanks to their excellent conductivity, high …
Structure Design and Composition Engineering of Carbon‑Based Nanomaterials for Lithium Energy Storage
H Geng, Y Peng, L Qu, H Zhang… - Advanced Energy …, 2020 - ui.adsabs.harvard.edu
Carbon‑based nanomaterials have significantly pushed the boundary of electrochemical
performance of lithium‑based batteries (LBs) thanks to their excellent conductivity, high …
performance of lithium‑based batteries (LBs) thanks to their excellent conductivity, high …
Structure Design and Composition Engineering of Carbon‐Based Nanomaterials for Lithium Energy Storage.
H Geng, Y Peng, L Qu, H Zhang… - Advanced Energy …, 2020 - search.ebscohost.com
Carbon‐based nanomaterials have significantly pushed the boundary of electrochemical
performance of lithium‐based batteries (LBs) thanks to their excellent conductivity, high …
performance of lithium‐based batteries (LBs) thanks to their excellent conductivity, high …
Structure Design and Composition Engineering of Carbon‐Based Nanomaterials for Lithium Energy Storage
H Geng, Y Peng, L Qu, H Zhang, M Wu - Advanced Energy Materials, 2020 - cir.nii.ac.jp
抄録< jats: title> Abstract</jats: title>< jats: p> Carbon‐based nanomaterials have
significantly pushed the boundary of electrochemical performance of lithium‐based batteries …
significantly pushed the boundary of electrochemical performance of lithium‐based batteries …
[PDF][PDF] Structure design and composition engineering of carbon‐based nanomaterials for lithium energy storage
H Geng, Y Peng, L Qu, H Zhang… - Advanced Energy …, 2020 - drive.google.com
Currently, lithium-based batteries (LBs) represent one of the most promising energy storage
devices due to their high theoretical capacity (3860 mAh g− 1 with a lithium metal electrode,) …
devices due to their high theoretical capacity (3860 mAh g− 1 with a lithium metal electrode,) …