Graphene Oxide‐Based Electrode Inks for 3D‐Printed Lithium‐Ion Batteries
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Tian Li | Liangbing Hu | Steven D. Lacey | Zhengyang Wang | Jiaqi Dai | Yonggang Yao | Chaoyi Yan | Kun Fu | Yonggang Yao | S. Lacey | J. Dai | Yanan Chen | Liangbing Hu | Chaoyi Yan | Yanbin Wang | Yue Xu | J. Wan | Yibo Wang | Zhengyang Wang | Tian Li | Yibo Wang | Jiayu Wan | Kun Fu | Yanan Chen | Steven Lacey | Yanbin Wang | Yue Xu
[1] Hui‐Ming Cheng,et al. The reduction of graphene oxide , 2012 .
[2] Hon Fai Chan,et al. 3D Printing of Highly Stretchable and Tough Hydrogels into Complex, Cellularized Structures , 2015, Advanced materials.
[3] C. Highley,et al. Direct 3D Printing of Shear‐Thinning Hydrogels into Self‐Healing Hydrogels , 2015, Advanced materials.
[4] B. Scrosati,et al. The role of graphene for electrochemical energy storage. , 2015, Nature materials.
[5] R. Mülhaupt,et al. 3D Micro‐Extrusion of Graphene‐based Active Electrodes: Towards High‐Rate AC Line Filtering Performance Electrochemical Capacitors , 2014 .
[6] Leroy Cronin,et al. 3D printed flow plates for the electrolysis of water: an economic and adaptable approach to device manufacture , 2014 .
[7] Michael C. McAlpine,et al. 3D printed quantum dot light-emitting diodes. , 2014, Nano letters.
[8] Xiangke Liao,et al. Correction: Corrigendum: Genome-wide adaptive complexes to underground stresses in blind mole rats Spalax , 2015, Nature Communications.
[9] H. Yue,et al. Synthesis and characterization of LiFePO4 cathode material dispersed with nano-structured carbon , 2005 .
[10] Q. Fu,et al. Toward high performance graphene fibers. , 2013, Nanoscale.
[11] Robert C. Maher,et al. Mesoscale assembly of chemically modified graphene into complex cellular networks , 2014, Nature Communications.
[12] Paul V Braun,et al. High-power lithium ion microbatteries from interdigitated three-dimensional bicontinuous nanoporous electrodes , 2013, Nature Communications.
[13] P. Dubruel,et al. The 3D printing of gelatin methacrylamide cell-laden tissue-engineered constructs with high cell viability. , 2014, Biomaterials.
[14] Bethany C Gross,et al. 3D printed microfluidic devices with integrated versatile and reusable electrodes. , 2014, Lab on a chip.
[15] Ozan Toprakci,et al. A review of recent developments in membrane separators for rechargeable lithium-ion batteries , 2014 .
[16] R. Ruoff,et al. Graphene and Graphene Oxide: Synthesis, Properties, and Applications , 2010, Advanced materials.
[17] Yan‐Bing He,et al. The effect of graphene wrapping on the performance of LiFePO4 for a lithium ion battery , 2013 .
[18] Xufeng Zhou,et al. Graphene modified LiFePO4 cathode materials for high power lithium ion batteries , 2011 .
[19] Stefan Hengsbach,et al. High-strength cellular ceramic composites with 3D microarchitecture , 2014, Proceedings of the National Academy of Sciences.
[20] W. Lu,et al. Improved synthesis of graphene oxide. , 2010, ACS nano.
[21] P. Ajayan,et al. Effect of high-temperature thermal treatment on the structure and adsorption properties of reduced graphene oxide , 2013, Carbon.
[22] Thomas J Ober,et al. Active mixing of complex fluids at the microscale , 2015, Proceedings of the National Academy of Sciences.
[23] Brian Derby,et al. Printing and Prototyping of Tissues and Scaffolds , 2012, Science.
[24] Bethany C Gross,et al. Evaluation of 3D printing and its potential impact on biotechnology and the chemical sciences. , 2014, Analytical chemistry.
[25] Jun Wu,et al. Graphene oxide-confined synthesis of Li4Ti5O12 microspheres as high-performance anodes for lithium ion batteries , 2015 .
[26] P. Poulin,et al. Graphene oxide dispersions: tuning rheology to enable fabrication , 2014 .
[27] Lain-Jong Li,et al. Graphene-modified LiFePO4 cathode for lithium ion battery beyond theoretical capacity , 2013, Nature Communications.
[28] Howon Lee,et al. Ultralight, ultrastiff mechanical metamaterials , 2014, Science.
[29] Chee Kai Chua,et al. Layer-by-layer printing of laminated graphene-based interdigitated microelectrodes for flexible planar micro-supercapacitors , 2015 .
[30] Eduardo Saiz,et al. Printing in Three Dimensions with Graphene , 2015, Advanced materials.
[31] Stephen Beirne,et al. Three dimensional (3D) printed electrodes for interdigitated supercapacitors , 2014 .
[32] Daniel M. Vogt,et al. Embedded 3D Printing of Strain Sensors within Highly Stretchable Elastomers , 2014, Advanced materials.
[33] Feng Li,et al. Doped graphene sheets as anode materials with superhigh rate and large capacity for lithium ion batteries. , 2011, ACS nano.
[34] J. Lian,et al. Highly thermally conductive and mechanically strong graphene fibers , 2015, Science.
[35] Joong Tark Han,et al. 3D Printing of Reduced Graphene Oxide Nanowires , 2015, Advanced materials.
[36] L. Valdevit,et al. Ultralight Metallic Microlattices , 2011, Science.
[37] Thomas J Ober,et al. Microfluidic Printheads for Multimaterial 3D Printing of Viscoelastic Inks , 2015, Advanced materials.
[38] Soojin Park,et al. Printable Solid-State Lithium-Ion Batteries: A New Route toward Shape-Conformable Power Sources with Aesthetic Versatility for Flexible Electronics. , 2015, Nano letters.
[39] Philip J. Kitson,et al. Configurable 3D-Printed millifluidic and microfluidic 'lab on a chip' reactionware devices. , 2012, Lab on a chip.
[40] John R. Tumbleston,et al. Continuous liquid interface production of 3D objects , 2015, Science.
[41] J. Lewis,et al. 3D Printing of Interdigitated Li‐Ion Microbattery Architectures , 2013, Advanced materials.
[42] R. Li,et al. 3D porous LiFePO4/graphene hybrid cathodes with enhanced performance for Li-ion batteries , 2012 .