聚苯胺基ZnFe-N-C的制备及其电还原CO<sub>2</sub>催化性能研究

刘卫涛; 张桂伟; 平丹; 刘孟可; 张金鸽; 韩敬莉; 樊凯奇; 吴诗德; 刘卫涛; 张桂伟; 平丹; 刘孟可; 张金鸽; 韩敬莉; 樊凯奇; 吴诗德

doi:10.12187/2020.01.007

[1]

HU B,GUILD C,SUIB S L.Thermal,electrochemical,and photochemical conversion of CO₂ to fuels and value-added products[J].Journal of CO₂ Utilization,2013(1):18.

[2]

JHONG H,MA S,KENIS P J.Electrochemical conversion of CO₂ to useful chemicals:Current status,remaining challenges,and future opportunities[J].Current Opinion in Chemical Engineering,2013,2(2):191.

[3]

VARELA A S,RANJBAR SAHRAIE N,STEINBERG J,et al.Metal-doped nitrogenated carbon as an efficient catalyst for direct CO₂ electroreduction to CO and hydrocarbons[J].Angewandte Chemie International Edition,2015,54(37):10758.

[4]

CASTELO-QUIBÉN J,ABDELWAHAB A,PÉREZ-CADENAS M,et al.Carbon-iron electro-catalysts for CO₂ reduction:The role of the iron particle size[J].Journal of CO₂ Utilization,2018,24:240.

[5]

[6]

ZHAO C,DAI X,YAO T,et al.Ionic exchange of metal-organic frameworks to access single nickel sites for efficient electroreduction of CO₂[J].Journal of the American Chemical Society,2017,139(24):8078.

[7]

CHEN Z,MOU K,YAO S,et al.Zinc-coordinated nitrogen-codoped graphene as an efficient catalyst for selective electrochemical reduction of CO₂ to CO[J].Chem Sus Chem,2018,11(17):2944.

[8]

WU G,MORE K L,JOHNSTON C M,et al.High-performance electrocatalysts for oxygen reduction derived from polyaniline,iron,and cobalt[J].Science,2011,332(6028):443.

[9]

QIAO H,LI R,YU Y,et al.Fabrication of PANI-coated ZnFe₂O₄,nanofibers with enhanced electrochemical performance for energy storage[J].Electrochimica Acta,2018(273):282.

[10]

LIU W,ZHANG L,LIU X,et al.Discriminating catalytically active FeN_x species of atomically dispersed Fe-N-C catalyst for selective oxidation of the C-H bond[J].Journal of the American Chemical Society,2017,139(31):10790.

[11]

王世双.金属氧化物/聚苯胺/碳材料三元复合材料的构建及其在超级电容器中的应用[D].扬州:扬州大学,2016.

[12]

兰蒙.基于层状双金属氢氧化物的碳基杂化催化材料的制备,结构及性能[D].北京:北京化工大学,2015.

[13]

GENG D,CHEN Y,CHEN Y,et al.High oxygen-reduction activity and durability of nitrogen-doped graphene[J].Energy & Environmental Science,2011,4(3):760.

[14]

VON-DEAK D,SINGH D,KING J C,et al.Use of carbon monoxide and cyanide to probe the active sites on nitrogen-doped carbon catalysts for oxygen reduction[J].Applied Catalysis B:Environmental,2012(113):126.

[15]

BI W,LI X,YOU R,et al.Surface immobilization of transition metal ions on nitrogen-doped graphene realizing high-efficient and selective CO₂ reduction[J].Advanced Materials,2018,30(18):1706617.

[16]

裘建平.三维Ag和TiO₂纳米管电极电化学还原CO₂[D].杭州:浙江工业大学,2016.

[17]

刘丽.Cu基催化剂的制备及其电还原CO₂合成醇的研究[D].上海:华东师范大学,2018.

[18]

张文河,马承愚,乔锦丽,等.Cu_xO (CuO-Cu₂O)纳米球催化剂制备及对CO₂ 电化学还原性能影响的研究[J].环境工程,2016(3):102.

[19]

赵喆.基于硫化铜纳米片的电化学还原CO₂研究[D].天津:天津理工大学,2018.