Hydrophilic Hierarchical Nitrogen‐Doped Carbon Nanocages for Ultrahigh Supercapacitive Performance
暂无分享,去创建一个
Xizhang Wang | Jie Liu | Qiang Wu | Zheng Hu | Yanwen Ma | Lijun Yang | Zhong Jin | Jin Zhao | Yufei Jiang | Ke Xie | Zhiyang Lyu | Hongwei Lai
[1] Xizhang Wang,et al. Hierarchical carbon nanocages confining high-loading sulfur for high-rate lithium–sulfur batteries , 2015 .
[2] Yu Huang,et al. Holey graphene frameworks for highly efficient capacitive energy storage , 2014, Nature Communications.
[3] J. Dai,et al. Scalable holey graphene synthesis and dense electrode fabrication toward high-performance ultracapacitors. , 2014, ACS nano.
[4] Shuhong Yu,et al. Three‐Dimensional Heteroatom‐Doped Carbon Nanofiber Networks Derived from Bacterial Cellulose for Supercapacitors , 2014 .
[5] G. Gary Wang,et al. Flexible solid-state supercapacitors: design, fabrication and applications , 2014 .
[6] Joonwon Lim,et al. Nitrogen-doped carbon nanotubes and graphene composite structures for energy and catalytic applications. , 2014, Chemical communications.
[7] Wen‐Cui Li,et al. Ionic Liquid‐Assisted Synthesis of Microporous Carbon Nanosheets for Use in High Rate and Long Cycle Life Supercapacitors , 2014, Advanced materials.
[8] Z. Yin,et al. Three-dimensional graphene materials: preparation, structures and application in supercapacitors , 2014 .
[9] Lele Peng,et al. Two dimensional nanomaterials for flexible supercapacitors. , 2014, Chemical Society reviews.
[10] Y. Yoon,et al. Vertical alignments of graphene sheets spatially and densely piled for fast ion diffusion in compact supercapacitors. , 2014, ACS nano.
[11] M. Sevilla,et al. Energy storage applications of activated carbons: supercapacitors and hydrogen storage , 2014 .
[12] B. Dunn,et al. Where Do Batteries End and Supercapacitors Begin? , 2014, Science.
[13] Q. Wang,et al. Recent Advances in Design and Fabrication of Electrochemical Supercapacitors with High Energy Densities , 2014 .
[14] Hua Zhang,et al. A new type of porous graphite foams and their integrated composites with oxide/polymer core/shell nanowires for supercapacitors: structural design, fabrication, and full supercapacitor demonstrations. , 2014, Nano letters.
[15] Uday Narayan Maiti,et al. Three‐Dimensional Shape Engineered, Interfacial Gelation of Reduced Graphene Oxide for High Rate, Large Capacity Supercapacitors , 2014, Advanced materials.
[16] Dmitri Golberg,et al. Three-dimensional strutted graphene grown by substrate-free sugar blowing for high-power-density supercapacitors , 2013, Nature Communications.
[17] A. Benayad,et al. Synthesis of Chemically Bonded Graphene/Carbon Nanotube Composites and their Application in Large Volumetric Capacitance Supercapacitors , 2013, Advanced materials.
[18] Bingqing Wei,et al. A perspective: carbon nanotube macro-films for energy storage , 2013 .
[19] Junhong Chen,et al. Vertically Oriented Graphene Bridging Active‐Layer/Current‐Collector Interface for Ultrahigh Rate Supercapacitors , 2013, Advanced materials.
[20] Klaus Müllen,et al. Graphene-based in-plane micro-supercapacitors with high power and energy densities , 2013, Nature Communications.
[21] Hyoyoung Lee,et al. Anti‐Solvent Derived Non‐Stacked Reduced Graphene Oxide for High Performance Supercapacitors , 2013, Advanced materials.
[22] Chi Cheng,et al. Liquid-Mediated Dense Integration of Graphene Materials for Compact Capacitive Energy Storage , 2013, Science.
[23] P. Shen,et al. Simultaneous Formation of Ultrahigh Surface Area and Three‐Dimensional Hierarchical Porous Graphene‐Like Networks for Fast and Highly Stable Supercapacitors , 2013, Advanced materials.
[24] S. Yao,et al. Synthesis of ultrathin nitrogen-doped graphitic carbon nanocages as advanced electrode materials for supercapacitor. , 2013, ACS Applied Materials and Interfaces.
[25] Jiayan Luo,et al. Effect of sheet morphology on the scalability of graphene-based ultracapacitors. , 2013, ACS nano.
[26] Xizhang Wang,et al. Can boron and nitrogen co-doping improve oxygen reduction reaction activity of carbon nanotubes? , 2013, Journal of the American Chemical Society.
[27] Junhong Chen,et al. Crumpled Nitrogen‐Doped Graphene Nanosheets with Ultrahigh Pore Volume for High‐Performance Supercapacitor , 2012, Advanced materials.
[28] Zheng Hu,et al. Nitrogen‐Doped Carbon Nanocages as Efficient Metal‐Free Electrocatalysts for Oxygen Reduction Reaction , 2012, Advanced materials.
[29] Shuhong Yu,et al. Synthesis of nitrogen-doped porous carbon nanofibers as an efficient electrode material for supercapacitors. , 2012, ACS nano.
[30] Gleb Yushin,et al. Nanostructured activated carbons from natural precursors for electrical double layer capacitors , 2012 .
[31] Yongsheng Chen,et al. An overview of the applications of graphene-based materials in supercapacitors. , 2012, Small.
[32] M. El‐Kady,et al. Laser Scribing of High-Performance and Flexible Graphene-Based Electrochemical Capacitors , 2012, Science.
[33] Zheng Hu,et al. Carbon Nanocages as Supercapacitor Electrode Materials , 2012, Advanced materials.
[34] Lei Zhang,et al. A review of electrode materials for electrochemical supercapacitors. , 2012, Chemical Society reviews.
[35] D. Zhao,et al. Carbon Materials for Chemical Capacitive Energy Storage , 2011, Advanced materials.
[36] Li Zhang,et al. Preparation of Highly Conductive Graphene Hydrogels for Fabricating Supercapacitors with High Rate Capability , 2011 .
[37] Lei Zhu,et al. Boron-doped carbon nanotubes as metal-free electrocatalysts for the oxygen reduction reaction. , 2011, Angewandte Chemie.
[38] R. Ruoff,et al. Carbon-Based Supercapacitors Produced by Activation of Graphene , 2011, Science.
[39] B. Wei,et al. Electrochemical behavior of single-walled carbon nanotube supercapacitors under compressive stress. , 2010, ACS nano.
[40] Qiang Zhang,et al. A Three‐Dimensional Carbon Nanotube/Graphene Sandwich and Its Application as Electrode in Supercapacitors , 2010, Advanced materials.
[41] Lili Zhang,et al. Graphene-based materials as supercapacitor electrodes , 2010 .
[42] R. Ruoff,et al. Review of Best Practice Methods for Determining an Electrode Material's Performance for Ultracapacitors , 2010, 1005.0805.
[43] Chang Liu,et al. Advanced Materials for Energy Storage , 2010, Advanced materials.
[44] Zheng Hu,et al. Nitrogen-doped carbon nanotubes functionalized by transition metal atoms: a density functional study , 2010 .