Redox electrolyte-enhanced carbon-based supercapacitors:recent advances and future perspectives  

在线阅读下载全文

作  者:Jiyong Shi Xiaodong Tian Yan Song Tao Yang Shengliang Hu Zhanjun Liu 

机构地区:[1]CAS Key Laboratory for Carbon Materials,Institute of Coal Chemistry,Chinese Academy of Sciences,Taiyuan 030001,China [2]North University of China,Taiyuan 030051,China [3]Center of Materials Science and Optoelectronics Engineering,University of Chinese Academy of Sciences,Beijing 100049,China

出  处:《Energy Materials and Devices》2023年第1期60-78,59,共20页能源材料与器件(英文)

基  金:National Natural Science Foundation of China(52072383,U21A2061,22209197);Youth Innovation Promotion Association of the Chinese Academy of Sciences(20233432);Natural Science Foundation of Shanxi Province(202203021211002,202203021222399);Innovation Fund of Shanxi Institute of Coal Chemistry(SCJC-XCL-2022-08).

摘  要:With the continuous advancement in the dual-carbon strategy,the upswell in the demand for renewable energy sources has motivated extensive research on the development of novel energy storage technologies.As a new type of energy storage device,carbon-based redox-enhanced supercapacitors(RE-SCs)are designed by employing soluble redox electrolytes into the existing devices,exploiting the merits of the diffusioncontrolled faradaic process of the redox electrolyte at the surface of carbon electrodes,thus leading to improved energy density without the cost of power density.During the past years,great progress has been made in the design of novel redox electrolytes and the configuration of new devices.However,the development of these systems is plagued by severe self-discharge.Herein,a comprehensive picture of the fundamentals,together with a discussion and outline of the challenges and future perspectives of RE-SCs,are provided.We highlight the impacts of redox electrolytes on capacitance,energy density,and power output.Notably,the self-discharge behavior owing to the introduction of redox electrolyte and its mechanism are also discussed,followed by a summary of the strategies from materials to system optimization.Furthermore,possible directions for future research are discussed.

关 键 词:SUPERCAPACITOR carbon materials SELF-DISCHARGE redox electrolyte 

分 类 号:O64[理学—物理化学]

 

参考文献:

正在载入数据...

 

二级参考文献:

正在载入数据...

 

耦合文献:

正在载入数据...

 

引证文献:

正在载入数据...

 

二级引证文献:

正在载入数据...

 

同被引文献:

正在载入数据...

 

相关期刊文献:

正在载入数据...

相关的主题
相关的作者对象
相关的机构对象