Three-dimensional printing of complex graphite structures

[1]  Muhammad M. Rahman,et al.  Additive manufacturing of polymer-based structures by extrusion technologies , 2020, Oxford Open Materials Science.

[2]  F. Boi,et al.  Unusual Moiré superlattices in exfoliated μm-thin HOPG lamellae: An angular-diffraction study , 2020 .

[3]  Tarik J. Dickens,et al.  Printability and performance of 3D conductive graphite structures , 2020 .

[4]  M. Kujawa,et al.  Graphite Modified Polylactide (PLA) for 3D Printed (FDM/FFF) Sliding Elements , 2020, Polymers.

[5]  B. Derby,et al.  Direct 3D printing of graphene using capillary suspensions. , 2020, Nanoscale.

[6]  Sylvie Grugeon,et al.  Three-Dimensional Printing of a LiFePO4/Graphite Battery Cell via Fused Deposition Modeling , 2019, Scientific Reports.

[7]  Carl J. Thaemlitz,et al.  3D Printed Tubulanes as Lightweight Hypervelocity Impact Resistant Structures. , 2019, Small.

[8]  M. Longo,et al.  High-Density Sb2 Te3 Nanopillars Arrays by Templated, Bottom-Up MOCVD Growth. , 2019, Small.

[9]  Yi Cui,et al.  Challenges and opportunities towards fast-charging battery materials , 2019, Nature Energy.

[10]  Carl J. Thaemlitz,et al.  Direct Ink Writing of Cement Structures Modified with Nanoscale Additive , 2019, Advanced Engineering Materials.

[11]  M. Tester,et al.  Barley yield formation under abiotic stress depends on the interplay between flowering time genes and environmental cues , 2018, bioRxiv.

[12]  Sylvie Grugeon,et al.  Highly Loaded Graphite–Polylactic Acid Composite-Based Filaments for Lithium-Ion Battery Three-Dimensional Printing , 2018, Chemistry of Materials.

[13]  Kai Huang,et al.  Three-dimensional graphene-based materials by direct ink writing method for lightweight application , 2018, International Journal of Lightweight Materials and Manufacture.

[14]  Richard E. Martin,et al.  Anisotropy of thermal conductivity in 3D printed polymer matrix composites for space based cube satellites , 2017 .

[15]  Tomonori Yamada,et al.  Numerical analysis of impact failure of automotive laminated glass: A review , 2017 .

[16]  R. Ritchie,et al.  Damage tolerance of nuclear graphite at elevated temperatures , 2017, Nature Communications.

[17]  I. Rungger,et al.  Stable anchoring chemistry for room temperature charge transport through graphite-molecule contacts , 2017, Science Advances.

[18]  Shuang Li,et al.  Carbon‐Based Microbial‐Fuel‐Cell Electrodes: From Conductive Supports to Active Catalysts , 2017, Advanced materials.

[19]  J. Caro,et al.  Amorphous, turbostratic and crystalline carbon membranes with hydrogen selectivity , 2016 .

[20]  Florian Bouville,et al.  Magnetically aligned graphite electrodes for high-rate performance Li-ion batteries , 2016, Nature Energy.

[21]  Rodrigo S. Neves,et al.  Calcium incorporation in graphene oxide particles: A morphological, chemical, electrical, and thermal study , 2016 .

[22]  Feng Zhang,et al.  3D Printing of Graphene Aerogels. , 2016, Small.

[23]  Sajad Haq,et al.  Ultra-broadband light trapping using nanotextured decoupled graphene multilayers , 2016, Science Advances.

[24]  S. Ebeid,et al.  Effect of processing parameters and graphite content on the tribological behaviour of 3D printed acrylonitrile butadiene styrene , 2015 .

[25]  Alexandra M. Golobic,et al.  Highly compressible 3D periodic graphene aerogel microlattices , 2015, Nature Communications.

[26]  Eduardo Saiz,et al.  Printing in Three Dimensions with Graphene , 2015, Advanced materials.

[27]  Cory M. Simon,et al.  Correction: Corrigendum: Kinetically tuned dimensional augmentation as a versatile synthetic route towards robust metal–organic frameworks , 2015, Nature Communications.

[28]  K. Uzawa,et al.  Mechanical and thermal properties of carbon fiber/polypropylene composite filled with nano-clay , 2015 .

[29]  J. Lewis,et al.  3D‐Printing of Lightweight Cellular Composites , 2014, Advanced materials.

[30]  A. K. Tyagi,et al.  Structural transformation and friction behavior in turbostratic graphite sliding against Si3N4, SiC and Al2O3 balls , 2014 .

[31]  Xuanhe Zhao,et al.  Multi-scale multi-mechanism design of tough hydrogels: building dissipation into stretchy networks. , 2014, Soft matter.

[32]  Pinshane Y. Huang,et al.  Supplementary Materials for Tailoring Electrical Transport Across Grain Boundaries in Polycrystalline Graphene , 2012 .

[33]  Jean-Christophe Charlier,et al.  Graphene and graphite nanoribbons: Morphology, properties, synthesis, defects and applications , 2010 .

[34]  Ravi Prasher,et al.  Graphene Spreads the Heat , 2010, Science.

[35]  Samia Subrina,et al.  Dimensional crossover of thermal transport in few-layer graphene. , 2010, Nature materials.

[36]  Klaus Müllen,et al.  A bottom-up approach from molecular nanographenes to unconventional carbon materials , 2008 .

[37]  A. Jorio,et al.  Measuring the degree of stacking order in graphite by Raman spectroscopy , 2008 .

[38]  Cheng Sun,et al.  Magnetic plasmon hybridization and optical activity at optical frequencies in metallic nanostructures , 2007 .

[39]  Z. Xia,et al.  X-ray diffraction patterns of graphite and turbostratic carbon , 2007 .

[40]  M. Dresselhaus,et al.  Studying disorder in graphite-based systems by Raman spectroscopy. , 2007, Physical chemistry chemical physics : PCCP.

[41]  J. A. Lewis Direct Ink Writing of 3D Functional Materials , 2006 .

[42]  M. Dresselhaus,et al.  Structural characterization of carbon nanofibers obtained by hydrocarbon pyrolysis , 2001 .

[43]  S. Contarini,et al.  XPS study on the dispersion of carbon additives in silicon carbide powders , 1991 .

[44]  P. Liley,et al.  Thermal Conductivity of the Elements , 1972 .

[45]  T. Swager,et al.  Hyperstage Graphite: Electrochemical Synthesis and Spontaneous Reactive Exfoliation , 2018, Advanced materials.

[46]  Jun Lou,et al.  Multiscale Geometric Design Principles Applied to 3D Printed Schwarzites , 2018, Advanced materials.

[47]  P. Ajayan,et al.  A Bottom‐Up Approach to Build 3D Architectures from Nanosheets for Superior Lithium Storage , 2014 .

[48]  R. Amir,et al.  MECHANICAL AND ELECTRICAL PROPERTIES OF EPOXY/ MULTI-WALLED CARBON NANOTUBE/NANOCLAY NANOCOMPOSITES , 2011 .

[49]  L. Wu,et al.  Pr 1-x Ca x MnO 3 におけるZenerポーラロン型電荷および軌道秩序化の実験確認 , 2007 .

[50]  H. Estrade-szwarckopf XPS photoemission in carbonaceous materials: A “defect” peak beside the graphitic asymmetric peak , 2004 .

[51]  J. Tarascon,et al.  Transmission electron microscopy studies on carbon materials prepared by mechanical milling , 1999 .

[52]  Y. Hishiyama,et al.  X-ray diffraction in oriented carbon films with turbostratic structure , 1995 .