【摘 要】
:
The conventional Li–O2 battery (LOB) has hardly been considered as a next-generation flexible electronics thus far, since it is bulk, inflexible and limited by the absence of an adjustable cell configuration. Here, we present a flexible Li–O2 cell using N
【机 构】
:
Nation & Local United Engineering Laboratory for Power Batteries,Faculty of Chemistry,Northeast Norm
论文部分内容阅读
The conventional Li–O2 battery (LOB) has hardly been considered as a next-generation flexible electronics thus far, since it is bulk, inflexible and limited by the absence of an adjustable cell configuration. Here, we present a flexible Li–O2 cell using N-doped carbon nanocages grown onto the carbon textiles (NCNs/CTs) as a self-standing and binder-free O2 electrode. The highly flexible NCNs/CTs exhibits an excellent me-chanic durability, a promising catalytic activity towards the ORR and OER, a considerable cyclability of more than 70 cycles with an overpotential of 0.36 V on the 1st cycle at a constant current density of 0.2 mA/cm2, a good rate capability, a superior reversibility with formation and decomposition of desired Li2O2, and a highly electrochemical stability even under stringent bending and twisting conditions. Our work represents a promising progress in the material development and architecture design of O2 elec-trode for flexible LOBs.
其他文献
Nickel diselenide(NiSe2)is a promising low-cost catalyst for both hydrogen evolution reaction(HER)and oxygen evolution reaction(OER),due to its suitable d-electron configuration and high electrical conduc-tivity.Several representative elements,e.g.,Co,Fe
The formation of a supercell and its impact on lithium-ion conductivity have been studied through syn-thesis of three layered oxides,Li2Ca1.5Nb3O10,Li2Ca1.5TaNb2O10 and Li2Ca1.5Ta2NbO10,related to Ruddlesden-Popper structure-type.Neutron diffraction exper
The metal-support interactions induced by high-temperature hydrogen reduction have a strong influ-ence on the catalytic performance of ceria-supported Ru catalysts.However,the appearance of the strong metal-support interaction leads to covering of the Ru
O3-type NaNiO2-based cathode materials undergo irreversible phase transition and serious capacity decay at high voltage above 4.0 V in sodium-ion batteries.To address these challenges,effects of F-substitution on the structure and electrochemical performa
Raman probing of carbon electrode and electrolyte under dynamic conditions is performed here using different aqueous electrolytes to elucidate the fundamental events occurring in electrochemical superca-pacitor during charge-discharge processes.The areal
The approach of substituting electrochemically active with inactive elements has widely been used to improve the electrochemical performance of Li-rich intercalation cathode materials.This especially is true for Li-rich compounds where almost all of the L
As a substitute for synthetic ammonia under mild condition,electrocatalytic nitrogen reduction reaction(NRR)provides a hopeful approach for the development of ammonia.Nevertheless,the current develop-ment of NRR electrocatalysts is far from enough and a s
An experimental investigation of the crystallographic,Raman and transport properties of the Ce1-x(Nd0.74Tm0.26)xO2-x/2(0.1≤x≤0.6)doped ceria system was performed with the aim of setting out correlations between structural features and ionic conductivity o
Electrocatalytic nitrogen reduction reaction (NRR) at ambient conditions holds great promise for sustain-ably synthesizing ammonia (NH3), while developing highly-efficient, long-term stable, and inexpensive catalysts to activate the inert N≡ N bond is a k