The Net Advance of Physics:
Graphene & Other Two-Dimensional Materials

GRAPHENE and other TWO-DIMENSIONAL MATERIALS

• General:
  • The Graphene Times News service and blog, including links to e-prints and recently-accepted journal articles.

  • Graphene: carbon in two dimensions by M. I. Katsnelson [Materials Today 10, 20 (2007)]
  • The rise of graphene by A. K. Geim and K. S. Novoselov [Nature Materials 6, 183 (2007)]
  • Graphene: new bridge between condensed matter physics and quantum electrodynamics by M. I. Katsnelson and K. S. Novoselov [2007/03]
  • The electronic properties of graphene by A. H. Castro et al. [2007/09]
  • Two-Dimensional Matter: Order, Curvature and Defects by Mark J. Bowick and Luca Giomi [2008/12]
  • Selected Topics in Graphene physics by Antonio H. Castro Neto [Les Houches 2009/05] Topics not emphasised in other recent reviews.
  • Graphene: Status and Prospects by A. K. Geim [Science 324, 1530 (2009)]
  • Production, properties and potential of graphene by Caterina Soldano et al. [2010/02]
  • Properties of Graphene: A Theoretical Perspective by D. S. L. Abergel et al. [2010/03]
  • The Carbon New Age by Antonio H. Castro Neto [Materials Today 13, 12 (2010)]
  • Gauge fields in graphene by Maria A. H. Vozmediano et al. [2010/03]
  • Graphene and graphane: New stars of nanoscale electronics by Julia Berashevich and Tapash Chakraborty [2010/03]
  • Graphene, Nobel Prize and All that Jazz by Tapash Chakraborty [2010/11]
  • Graphene: Piecing it together by Mark H. Rümmeli et al. [2011/08]
  • Experimental review of graphene by Daniel R. Cooper et al. [2011/10]
  • Geometrical and topological aspects of graphene and related materials by Alberto Cortijo et al. [2011/12]
  • Electronic properties of monolayer and bilayer graphene by Edward McCann [2012/05]
  • Graphene: Kinks, Superlattices, Landau levels, and Magnetotransport by Matthew Killi et al. [2012/05]
  • The electronic properties of bilayer graphene by Edward McCann and Mikito Koshino [2012/05]
  • Dirac Fermions in Solids - from High Tc cuprates and Graphene to Topological Insulators and Weyl Semimetals by Oskar Vafek and Ashvin Vishwanath [2013/06]
  • Introduction to Graphene Electronics -- A New Era of Digital Transistors and Devices by K. C. Yung et al. [2013/09]
  • Dirac Materials by T. O. Wehling et al. [2014/05]
  • Colloquium: Graphene spectroscopy by D. N. Blasov et al. [Reviews of Modern Physics 86, 959 (2014)]
  • Chemistry with Graphene and Graphene Oxide: Challenges for Synthetic Chemists by Siegfried Eigler and Andreas Hirsch [Angewandte Chemie International Edition 53, 7720 (2014)]
  • A Review on Mechanics and Mechanical Properties of 2D Materials: Graphene and Beyond by Deji Akinwande et al. [2016/11]
  • Theory of 2D crystals: graphene and beyond by Rafael Roldán et al. [2017/03]
  • Hydrodynamics of electrons in graphene by Andrew Lucas and Kin Chung Fu [2017/10]
  • Topological Carbon Materials: A New Perspective by Yuanping Chen et al. [2019/08]

• General: APPLICATIONS:
  • Graphene based functional devices: a short review by Wang Rong et al. [Frontiers of Physics 14, 13603 (2019)]

• Type: BOROPHENE:
  • A review of thermal transport and electronic properties of borophene by Dengfeng Li et al. [2018/01]
  • Review of Borophene and its Potential Applications by Zhi-Qiang Wang et al. [2019/03]
  • Topological Carbon [and Boron] Materials: A New Perspective by Yuanping Chen et al. [2019/08]

• Type: CHALCOGENIDES:
  • Recent advances in two-dimensional metal monochalcogenides by A. S. Sarkar and E. Stratakis [2020/11]

• Type: COMPOSITE:
  • Graphene composites: The materials for the future by Sreemanta Mitra et al. [2012/07]

• Type: EPITAXIAL:
  • The Development of Epitaxial Graphene For 21st Century Electronics by Walt A. de Heer [2010/12] Mat. Res. Soc. Medal award paper.
  • Spectroscopic investigations of phonons in epitaxial graphene by Antonio Politano [2016/01]

• Type: EXTRATERRESTRIAL:
  • Graphene and Carbon Nanotubes in Space by X. H. Chen et al. [2018/10]

• Type: GERMANENE:
  • Current developments in silicene and germanene by Thaneshwor Prashad Kaloni et al. [2015/12]

• Type: GRAPHANE:
  • GraphAne: From Synthesis to Applications by Hasan Sahin et al. [2015/02]

• Type: MXENE:
  • Recent Advances in MXenes: From Fundamentals to Applications by Mohammad Khazaei et al. [2019/01]

• Type: NANOTUBE HYBRID:
  • Graphene and Carbon Nanotube Hybrid Structure: A Review by Kang Xia et al. [2018/03]

• Type: POLYCRYSTALLINE:
  • Polycrystalline graphene and other two-dimensional materials by Oleg V. Yazyev and Yong P. Chen [Nature Nanotechnology 9, 755 (2014)]
  • Scaling Properties of Polycrystalline Graphene by Andreas Isacsson et al. [2016/12]

• Type: POROUS:
  • Ionic Phenomena in Porous 2D Materials and Their Applications by Subin Sahu and Michael Zwolak [2018/09]

• Type: RIBBONS:
  • Towards Graphene Nanoribbon-based Electronics by Bing Huang et al. [Front. Phys. China 4, 269 (2009)]
  • A Guide to the Design of Electronic Properties of Graphene Nanoribbons by Oleg V. Yazyev [2013/03]

• Type: SILICENE:
  • Current developments in silicene and germanene by Thaneshwor Prashad Kaloni et al. [2015/12]
  • Introduction to the Physics of Silicene and Other 2D Materials by Seymur Cahangirov et al. [2018/04]

• Type: STRAINED:
  • A review of the electronic and optical properties of strained graphene and other similar 2D materials by Gerardo G. Naumis et al. [2016/11]

• Type: TWISTED:
  • A primer on twistronics: Massless Dirac fermion's journey to Moiré patterns and flat bands in twisted bilayer graphene by D. Aggarwal et al. [2022/12]

• Aspect: ADHESION:
  • Adhesion mechanics of graphene membranes by J. Scott Bunch and Martin L. Dunn [2012/05]

• Aspect: CARRIER MULTIPLICATION:
  • Review on carrier multiplication in graphene by Ermin Malic et al. [2016/09]

• Aspect: COMPRESSIBILITY:
  • The compressibility of graphene by David S. L. Abergel [2012/02]

• Aspect: CONDUCTIVITY:
  • Disorder and Electronic Transport in Graphene by Eduardo R. Mucciolo and Caio H. Lewenkopf [2010/06]
  • The transport properties of graphene: an introduction by N. M. R. Peres [2010/10]
  • Electronic Transport in Two-Dimensional Materials by Vinod K. Sangwan and Mark C. Hersam [2018/02]

• Aspect: DOPING:
  • Sublattice asymmetry of impurity doping in graphene: A review by James A. Lawlor and Mauro S. Ferreira [2014/07]

• Aspect: FLEXURAL MODE:
  • A Review on Flexural Mode of Graphene: Lattice Dynamics, Thermal Conduction, Thermal Expansion, Elasticity, and Nanomechanical Resonance by Jin-Wu Jiang et al. [2014/08]

• Aspect: HETEROSTRUCTURES:
  • Recent progress in the assembly of nanodevices and van der Waals heterostructures by deterministic placement of 2D materials by Riccardo Frisenda et al. [2017/12]
  • Spin transport in graphene/transition metal dichalcogenide heterostructures by Jose H. Garcia et al. [2018/04]
  • Recent progress of heterostructures based on two-dimensional materials and wide-bandgap semiconductors by Y. Liu et al. [2022/03]

• Aspects: INTERACTIONS:
  • Short review of interaction effects in graphene by A. V. Kotikov [2023/05]

• Aspect: QUASIPARTICLES:
  • Graphene plasmonics by A. N. Grigorenko et al. [Nature Photon 6, 749 (2012)]
  • Plasmons in graphene: Recent progress and applications by Xiaoguang Luo et al. [2013/09]
  • Plasmonics in Dirac systems: from graphene to topological insulators by Tobias Stauber [2013/10]
  • Graphene Plasmonics: Challenges and Opportunities by F. Javier Garcia de Abajo [2014/02]
  • Graphene Plasmonics for Terahertz to Mid-Infrared Applications by Tony Low and Phaedon Avouris [ACS Nano 8, 1086 (2014)]
  • Graphene-plasmon polaritons: From fundamental properties to potential applications by Sanshui Xiao et al. [Frontiers of Physics 11, 117801 (2016)]
  • Graphene plasmonics: Physics and potential applications by Shenyang Huang et al. [2016/07]
  • Plasmonic Graphene Waveguides: A Literature Review by Mohammad Bagher Heydari and Mohammad Hashem Vadjed Samiei [2018/09]

• Aspect: SPECTROSCOPY:
  • Raman Spectroscopy of Graphene by Sven Reichardt and Ludger Wirtz [2017/03]

• Aspect: THERMAL PROPERTIES:
  • Thermal and Thermoelectric Transport in Nanostructures and Low-Dimensional Systems by Li Shi [Nanoscale and Microscale Thermophysical Engineering 16, 79 (2012)]
  • Review of Thermal Properties of Graphene and Few-Layer Graphene: Applications in Electronics by Zhong Yan et al. [2015/03]

• Aspect: VALLEY:
  • Charge, Spin and Valley Hall Effects in Disordered Graphene by Alessandro Cresti et al. [2016/10]
  • Progress on two-dimensional ferrovalley materials by P. Li et al. [2023/09]

• Re: ANTIFERROMAGNETISM:
  • Antiferromagnetism in two-dimensional materials: Progress and computational challenges by T. Olsen [2024/02]

• Re: ATIYAH-SINGER INDEX THEOREM:
  • Manifestations of topological effects in graphene by Jiannis K. Pachos [2008/12]

• Re: AVIATION:
  • Research status and prospect of graphene materials in aviation by S. Y. Gao et al. [2022/09]

• Re: BIOLOGY:
  • Interfacing Graphene-Based Materials with Neural Cells by Mattia Bramini et al. [2019/03]

• Re: CHARGE-DENSITY WAVES:
  • Review of theoretical and computational methods for 2D materials exhibiting charge-density waves by S. Chowdhury et al. [2022/01]

• Re: ELECTROMAGNETIC RADIATION:
  • Terahertz Science and Technology of Carbon Nanomaterials by Richard R. Hartmann et al. [2013/11]
  • Plasmonic Graphene Waveguides: A Literature Review by Mohammad Bagher Heydari and Mohammad Hashem Vadjed Samiei [2018/09]
  • Recent Progress and Future Prospects of 2D-Based Photodetectors by Nengjie Huo and Gerasimos Konstantatos [2019/04]

• Re: EXCITONS:
  • Theoretical methods for excitonic physics in two-dimensional materials: A tutorial by M. F. C. Martins Quintela et al. [2022/02]

• Re: GRAPHITE:
  • Graphene Physics in Graphite by Yakov Kopelevich and Pablo Esquinazi [Adv. Mater. 19, 4559 (2007)]

• Re: HALL EFFECT:
  • Charge, Spin and Valley Hall Effects in Disordered Graphene by Alessandro Cresti et al. [2016/10]

• Re: IONS:
  • Ionic Phenomena in Porous 2D Materials and Their Applications by Subin Sahu and Michael Zwolak [2018/09]

• Re: KONDO IMPURITIES:
  • The Physics of Kondo Impurities in Graphene by Lars Fritz and Matthias Vojta [2012/08]

• Re: LATTICE QCD:
  • Graphene: from materials science to particle physics by Joaquín E. Drut et al [2010/06]

• Re: MAGNETISM:
  • Emergence of magnetism in graphene materials and nanostructures by Oleg V. Yazyev [Reports on Progress in Physics 73, 056501 (2010)]
  • Quantum field theory in a magnetic field: From quantum chromodynamics to graphene and Dirac semimetals by Vladimir A. Miransky and Igor A. Shovkovy [2015/03]

• Re: PHONONS:
  • Phonon Transport in Graphene by Denis L. Nika and Alexander A. Balandin [2012/03]
  • Spectroscopic investigations of phonons in epitaxial graphene by Antonio Politano [2016/01]
  • Phonons and Thermal Transport in Graphene and Graphene-Based Materials by Denis L. Nika and Alexander A. Balandin [2016/06]
  • Phononics of Graphene and Graphene Composites by Alexander A. Balandin [2019/06]

• Re: PHOTONS:
  • Graphene Photonics and Optoelectronics by F. Bonaccorso et al. [2010/06]
  • Recent Progress and Future Prospects of 2D-Based Photodetectors by Nengjie Huo and Gerasimos Konstantatos [2019/04]

• Re: PLANETARY NEBULAE:
  • Molecular processes from the AGB to the PN stage by Domingo Anibal Garcia-Hernandez [2011/11]

• Re: QUANTUM DOTS:
  • Quantum dots and spin qubits in graphene by Patrik Recher and Bjoern Trauzettel [2010/04]
  • Spintronics with graphene quantum dots by Matthias Droth and Guido Burkard [2015/06]

• Re: QUANTUM FIELD THEORY:
  • Quantum field theory in a magnetic field: From quantum chromodynamics to graphene and Dirac semimetals by Vladimir A. Miransky and Igor A. Shovkovy [2015/03]
  • Graphene through the looking glass of QFT by Ignat V. Fialkovsky and Dmitri V. Vassilevich [2016/08]

• Re: SPECTROSCOPY:
  • A review on applications of two-dimensional materials in surface enhanced Raman spectroscopy by Ming Xia [2017/07]

• Re: SPINTRONICS:
  • Emergence of magnetism in graphene materials and nanostructures by Oleg V. Yazyev [Reports on Progress in Physics 73, 056501 (2010)]
  • Quantum dots and spin qubits in graphene by Patrik Recher and Bjoern Trauzettel [2010/04]
  • Spintronics and Pseudospintronics in Graphene and Topological Insulators by D. A. Pesin and A. H. MacDonald [Nature Materials 11, 409 (2012)]
  • Graphene Spintronics by Wei Han et al. [Nature Nanotechnology 9, 794 (2014)]
  • Spintronics with graphene quantum dots by Matthias Droth and Guido Burkard [2015/06]
  • Colloquium: Spintronics in Graphene and Other Two-Dimensional Materials by A. Avsar et al. [2019/09]

• Re: SUPERCONDUCTORS:
  • Proximity coupling in superconductor-graphene heterostructures by Gil-Ho Lee and Hu-Jong Lee [2017/09]

• Re: SURFACES:
  • Graphene on metallic surfaces: problems and perspectives by E. N. Voloshina and Yu. S. Dedkov [2012/07]

• Re: TRANSISTORS:
  • Current Status of Graphene Transistors by Max C. Lemme [Solid State Phenomena 156-158, 499 (2010)]

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