纳米Mn3O4的制备及应用

doi:10.19286/j.cnki.cci.2018.09.037

Abstract
Figure/Table
References (28)
Related Citation (15)

Download: PDF (0 KB) HTML (1 KB)
Export: BibTeX | EndNote (RIS)

Abstract

In recent years, transition metal manganese oxides have been hotly studied, and in particular, manganese dioxide has been extensively and deeply studied, but another potential multifunctional manganese oxide, Mn3O4 which is involved in supercapacitors,the catalysts and medical fields has not been systematically studied.The main research contents and application fields of nano-Mn3O4 in the last five years has classified, As a result, it was found that the nano-Mn3O4 is mostly combined with carbon materials such as carbon fibers, carbon nanotubes, and graphene, which are well-conducted, as supercapacitor electrode materials. In terms of catalysis, this material is mostly used for the degradation of organic wastewater by the combination of Fenton-like processes and as an electrocatalytic catalyst for the production of hydrogen. Medicine, highly dispersible and small-size nano-Mn3O4 is used as drug carriers for in vivo imaging and targeted therapy. Because the core element of the application development of Mn3O4 is nanotechnology.The control of its morphology and size will become the focus of future research.

Key words： transition metal manganese oxides nano-Mn3O4 supercapacitors catalysis medicine

	Service

	E-mail this article
	Add to my bookshelf
	Add to citation manager
	E-mail Alert
	RSS
	Articles by authors
	Wang Wentao
	Hou Yongjiang
	Guo Jie

Cite this article:

Wang Wentao,Hou Yongjiang,Guo Jie. Preparation and application of nano-Mn3O4[J]. CCI, 2018, 41(9): 128-132,154.

URL:

http://www.mtyhg.com.cn/EN/10.19286/j.cnki.cci.2018.09.037 OR http://www.mtyhg.com.cn/EN/Y2018/V41/I9/128

[ 1 ]       陆桂年，章巧珍.四氧化三锰（ Mn3O4 ）的研制[ J ]. 化工时刊，1987（ 6 ）：19 - 22.
[ 2 ]       李长安. 四氧化三锰的制备及吸附性能研究[ D ]. 吉首大学，2013.
[ 3 ]       陈权启. 溶剂热法制备纳米磁性四氧化三锰的研究[ D ]. 中南大学，2003.
[ 4 ]       LIU Minghui, ZENG Huachun. Spontaneous Formations of Super-
lattices and Supracrystals fromVarious Forms of Mn3O4 Nanocrystals Cryst[ J ]. Growth Des, 2012, 12( 11 ): 5 561 - 5 570.
[ 5 ]       Park H W, Lee H J, Park S-M, et al. Synthesis and Electrochemi-
cal Properties of Mn3O4 Nanocrystals with Controlled Morphologies Grown from Compact Ion Layers RSC Adv[ J ]. Cheminform, 2016 ( 6 ): 18 191 - 18 197.
[ 6 ]       黄    萍. 氧化锰基纳米材料的绿色合成及其作为超级电容器电极材料的应用[ D ]. 西北师范大学，2016.
[ 7 ]       XIA Yanfeng, ZHE Qiang, Lee B, et al.Solid state microwave syn-
thesis of highly crystalline ordered mesoporous hausmannite Mn3O4 films Cryst Eng Comm[ J ]. The American Ceramic Society, 2017（ 19 ）： 4 294 - 4 303.
[ 8 ]       贾攀锋，池永庆，李     鹏，等. 甲醇直接还原高锰酸钾制备纳米Mn3O4[ J ]. 太原科技大学学报，2017，38（ 2 ）：147 - 151.
[ 9 ]       徐国荣，李钰冰，董文豪，等. 碱性介质中制备纳米四氧化三锰及其超级电容特性[ J ]. 应用化学，2015，32（ 6 ）：701 - 707.
[ 10 ]     Park G, Bar L, Lee K G, et al. One-step sonochemical synthesis of a graphene oxide manganese oxide nanocomposite for catalytic glycolysis of poly[ J ]. Ethylene Terephthalate Nanoscale, 2012（ 4 ）： 3 879 - 3 885.
[ 11 ]     Karnekanti D, Ramana S, Sudipta K, et al. Strongly coupled Mn3O4
-Porous Organic Polymer Hybrid：A Robust[ J ]. Durable and Potential Nanocatalyst for Alcohol Oxidation ReactionsRSC Adv., 2016（ 6 ）：36 728 - 36 735.
[ 12 ]     JIN Wen, HAN Xijjiang, HE Yanzhen, et al. Galvanic replacement mediated synthesis of r GO-Mn3O4-Pt nanocomposites for oxygen reduction reaction RSC Adv[ J ]. Power Souces，2016( 6 ): 89 124
              - 89 129.
[ 13 ]     YIN Shunli, WANG Xiaomei, MOU Zhigang, et al. Synergistic
contributions by decreasing overpotential and enhancing charge-transfer in a-Fe2O3/Mn3O4/graphene catalysts with heterostructures for photocatalytic water oxidation Phys[ J ]. Chem
              Chem Phys, 2014（ 16 ）：11 289 - 11 296.
[ 14 ]     Rahaman H, Barman K, Jasimuddin Sk. Hybrid Mn3O4-NiO nano-
composites as effcient photoelectrocatalysts towards water splitting under neutral pH conditions[ J ]. RSC Adv, 2016 ( 6 )：113 694
             - 113 702.
[ 15 ]     LI Xu, LIU Pengfei, Zhang Le, et al. Enhancing the alkaline hy-
drogen evolution reaction activity through the Ni-Mn3O4 nanoco-
mposites [ J ]. Chem Commun, 2016 ( 52 ): 10 566 - 10 569.
[ 16 ]     TIAN Yaxi, LIU Ran, SUN Zebin, et al. Fibrous porous silica mic-
rospheres decorated with Mn3O4 for effective removal of methyl orange from aqueous solution[ J ]. RSC Adv, 2015 ( 5 ): 106 068 -
             106 076.
[ 17 ]     WENG Zhengzhang, LI Jie, WENG Yali, et al. Surfactant - free Porous nano-Mn3O4 as a Recyclable Fenton-Like Reagent That Can Rapidly Scavenge Phenolics without H2O2[ J ]. Mater Chem A, 2017 ( 5 ): 15 650 - 15 660.
[ 18 ]     叶玉珠. 磁性四氧化三锰微细颗粒的制备及其催化性能的测试[ D ]. 重庆大学，2015.
[ 19 ]     何盈盈，孟    建，马亚利，等. 宽pH条件下Mn3O4/ACF复合阴极类电芬顿体系降解亚甲基蓝[ J ]. 化工学报，2017，68（ 1 ）：305 - 312.
[ 20 ]     代安涛. 适配体修饰的磁光多功能Mn3O4-SiO2纳米粒子造影剂的制备及其生物应用[ D ]. 上海师范大学，2012.
[ 21 ]     ZHAGN Yi, TAN Jieqiong, LONG Mei, et al. An emerging dual collaborative strategy for high-performance tumor therapy by mesoporous silica nanotubes loading Mn3O4[ J ]. Mater Chem B, 2016（ 4 ）：7 406 - 7 414.
[ 22 ]     姚    军，孙丽美，高    飞. 部分氧化法制备插层石墨/Mn3O4复合材料及其电化学性能研究[ J ]. 化工新型材料，2016，44（ 12 ）：40 - 42.
[ 23 ]     Mondal C, Ghosh D, Aditya T, et al. Mn3O4 nanoparticles anchored to multiwall carbon nanotubes: a distinctive synergism for high   performance supercapacitor New [ J ]. Chem, 2015（ 39 ）： 8 373
               - 8 380.
[ 24 ]     JING Mingjun, WANG Jufeng, HOU Hongshuai, et al. Carbon Quantum Dots Coated Mn3O4 with Enhanced Performances for Lithium-ion Batteries [ J ]. Mater, Chem, A, 2015（ 3 ）：16 824 - 16 830.                                                                                                                                                                                                                                                                                         [ 25 ]     Sambandam B, Soundharrajan V, Song J, et al. Sponge Inorg network-shaped Mn3O4/C anode derived from a simple, one-pot metal organic framework-combustion technique for improved lithium ion storage [ J ]. Chem Front, 2016（ 3 ）： 1 609 -
1 615.
[ 26 ]     ZHU Shasha, ZHANG Peipei, CHANG Ling, et al. Photochemical fabrication of 3D hierarchical Mn3O4/H-TiO2 composite films with excellent electrochemical capacitance performance [ J ]. Chem Phys, 2016（ 18 ）： 8 529 - 8 536.
[ 27 ]     唐明欢. 镍阳极和CTAB对水热电沉积Mn3O4超级电容器电极材料的影响研究[ D ]. 深圳大学，2017.
[ 28 ]     FAN Xiaoyong, YU Cui, LIU Pan, et al. Electrochemical construc-
tion of three dimensional porous Mn3O4 nanosheet arrays as anode of lithium ion battery [ J ]. Chem Phys, 2016（ 18 ）： 22 224 - 22 234.