scholarly journals Nanozeolite ZSM-5 electrolyte additive for long life sodium-ion batteries

2020 ◽  
Vol 56 (78) ◽  
pp. 11609-11612 ◽  
Author(s):  
Lin Chen ◽  
Brij Kishore ◽  
Marc Walker ◽  
Claire E. J. Dancer ◽  
Emma Kendrick
Keyword(s):  
Degradation Products ◽  
Life Time ◽  
Sodium Ion ◽  
Sodium Ion Battery ◽  
Sodium Ion Batteries ◽  
Hard Carbon ◽  
Electrolyte Additive ◽  
Electrolyte Interface ◽  
Compositional Changes ◽  
Long Life

Hard-carbon electrolyte interface stabilisation with a nano-zeolite ZSM-5 electrolyte additive. Unwanted degradation products are trapped within the zeolite cage preventing compositional changes at the interface, maximising the life-time of a sodium-ion battery.

Synthesis of High-Performance Hard Carbon from Waste Coffee Ground as Sodium Ion Battery Anode Material: A Review

2021 ◽  
Vol 1044 ◽  
pp. 25-39
Author(s):  
Hafid Khusyaeri ◽  
Dewi Pratiwi ◽  
Haris Ade Kurniawan ◽  
Anisa Raditya Nurohmah ◽  
Cornelius Satria Yudha ◽  
...  
Keyword(s):  
Electrochemical Performance ◽  
Electrode Material ◽  
High Performance ◽  
Production Costs ◽  
Sodium Ion ◽  
Carbon Anode ◽  
Sodium Ion Battery ◽  
Sodium Ion Batteries ◽  
Hard Carbon ◽  
Coffee Grounds

The battery is a storage medium for electrical energy for electronic devices developed effectively and efficiently. Sodium ion battery provide large-scale energy storage systems attributed to the natural existence of the sodium element on earth. The relatively inexpensive production costs and abundant sodium resources in nature make sodium ion batteries attractive to research. Currently, sodium ion batteries electrochemical performance is still less than lithium-ion batteries. The electrochemical performance of a sodium ion battery depends on the type of electrode material used in the manufacture of the batteries.. The main problem is to find a suitable electrode material with a high specific capacity and is stable. It is a struggle to increase the performance of sodium ion batteries. This literature study studied how to prepare high-performance sodium battery anodes through salt doping. The doping method is chosen to increase conductivity and electron transfer. Besides, this method still takes into account the factors of production costs and safety. The abundant coffee waste biomass in Indonesia was chosen as a precursor to preparing a sodium ion battery hard carbon anode to overcome environmental problems and increase the economic value of coffee grounds waste. Utilization of coffee grounds waste as hard carbon is an innovative solution to the accumulation of biomass waste and supports environmentally friendly renewable energy sources in Indonesia.

Engineering Al2O3 atomic layer deposition: Enhanced hard carbon-electrolyte interface towards practical sodium ion batteries

Nano Energy ◽  
2019 ◽  
Vol 64 ◽  
pp. 103903 ◽  
Author(s):  
Haiyan Lu ◽  
Xiaoyang Chen ◽  
Yanlong Jia ◽  
Hui Chen ◽  
Yunxiao Wang ◽  
...  
Keyword(s):  
Atomic Layer Deposition ◽  
Atomic Layer ◽  
Sodium Ion ◽  
Sodium Ion Batteries ◽  
Hard Carbon ◽  
Electrolyte Interface ◽  
Layer Deposition

scholarly journals Electrochemical formation protocols for maximising the life-time of a sodium ion battery

2020 ◽  
Vol 56 (85) ◽  
pp. 12925-12928
Author(s):  
Brij Kishore ◽  
Lin Chen ◽  
Claire E. J. Dancer ◽  
Emma Kendrick
Keyword(s):  
Life Time ◽  
Sodium Ion ◽  
Formation Time ◽  
Sodium Ion Battery ◽  
Capacity Retention ◽  
Long Life ◽  
The Stability

Optimised electrochemical formation protocols with targeted voltage windows increased the stability and resistance of the SEI, resulting in improved capacity retention while significantly reducing formation time for long-life Na-ion batteries.

Solid electrolyte interface stabilization via surface oxygen species functionalization in hard carbon for superior performance sodium-ion batteries

2020 ◽  
Vol 8 (7) ◽  
pp. 3606-3612 ◽  
Author(s):  
Hanjie Xie ◽  
Zhiliang Wu ◽  
Zhenyu Wang ◽  
Ning Qin ◽  
Yingzhi Li ◽  
...  
Keyword(s):  
Solid Electrolyte ◽  
Sodium Ion ◽  
Solid Electrolyte Interface ◽  
Superior Performance ◽  
Sodium Ion Batteries ◽  
Oxygen Species ◽  
Surface Oxygen ◽  
Hard Carbon ◽  
Electrolyte Interface

The solid electrolyte interface could be stabilized via surface oxygen species functionalization in hard carbon for superior performance sodium-ion batteries.

Amorphous Sb2S3 embedded in graphite: a high-rate, long-life anode material for sodium-ion batteries

2015 ◽  
Vol 51 (67) ◽  
pp. 13205-13208 ◽  
Author(s):  
Yubao Zhao ◽  
Arumugam Manthiram
Keyword(s):  
Anode Material ◽  
Design Strategy ◽  
Sodium Ion ◽  
High Rate ◽  
Sodium Ion Battery ◽  
Sodium Ion Batteries ◽  
Long Life

A new design strategy for stable and high-rate sodium-ion battery anodes is presented.

Role of Electrolyte in Stabilizing the Solid Electrolyte Interface of Hard Carbon As an Anode for Sodium-Ion Batteries

2021 ◽  
Vol MA2021-01 (3) ◽  
pp. 236-236
Author(s):  
Hayley S Hirsh ◽  
Baharak Sayahpour ◽  
Ashley Shen ◽  
Weikang Li ◽  
Enyue Zhao ◽  
...  
Keyword(s):  
Solid Electrolyte ◽  
Sodium Ion ◽  
Solid Electrolyte Interface ◽  
Sodium Ion Batteries ◽  
Hard Carbon ◽  
Electrolyte Interface

scholarly journals Life cycle assessment of sodium-ion batteries

2016 ◽  
Vol 9 (5) ◽  
pp. 1744-1751 ◽  
Author(s):  
Jens Peters ◽  
Daniel Buchholz ◽  
Stefano Passerini ◽  
Marcel Weil
Keyword(s):  
Life Cycle Assessment ◽  
Life Cycle ◽  
Transition Metal ◽  
Metal Oxide ◽  
Transition Metal Oxide ◽  
Sodium Ion ◽  
Sodium Ion Battery ◽  
Sodium Ion Batteries ◽  
Hard Carbon ◽  
Layered Transition Metal

Life cycle assessment for the production of a sodium-ion battery with a layered transition metal oxide and hard carbon.

Rubidium and cesium ions as electrolyte additive for improving performance of hard carbon anode in sodium-ion battery

2017 ◽  
Vol 83 ◽  
pp. 20-23 ◽  
Author(s):  
Haiying Che ◽  
Jing Liu ◽  
Hong Wang ◽  
Xiaoping Wang ◽  
Sheng S. Zhang ◽  
...  
Keyword(s):  
Sodium Ion ◽  
Carbon Anode ◽  
Sodium Ion Battery ◽  
Hard Carbon ◽  
Electrolyte Additive ◽  
Cesium Ions
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