A review on mechanics and mechanical properties of 2D materials—Graphene and beyond

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[6]  K. Sab,et al.  From yield to fracture, failure initiation captured by molecular simulation , 2016 .

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[9]  Thuc Hue Ly,et al.  Vertically Conductive MoS2 Spiral Pyramid , 2016, Advanced materials.

[10]  Bennett B. Goldberg,et al.  Band Gap Engineering with Ultralarge Biaxial Strains in Suspended Monolayer MoS2. , 2016, Nano letters.

[11]  D. Akinwande,et al.  Pressure-Induced Charge Transfer Doping of Monolayer Graphene/MoS2 Heterostructure. , 2016, Small.

[12]  K. Novoselov,et al.  2D materials and van der Waals heterostructures , 2016, Science.

[13]  Highly Itinerant Atomic Vacancies in Phosphorene. , 2016, Journal of the American Chemical Society.

[14]  F. Miao,et al.  Strain effects on borophene: ideal strength, negative Possion’s ratio and phonon instability , 2016 .

[15]  K. Kamrin,et al.  Mechanistic Origin of the Ultrastrong Adhesion between Graphene and a-SiO2: Beyond van der Waals. , 2016, ACS nano.

[16]  R. Ruoff,et al.  Probing the adhesion interactions of graphene on silicon oxide by nanoindentation , 2016 .

[17]  Duc Tam Ho,et al.  Negative Poisson's ratio in periodic porous graphene structures , 2016 .

[18]  Rui Huang,et al.  Snap Transitions of Pressurized Graphene Blisters , 2016 .

[19]  Rui Huang,et al.  On determining mixed-mode traction–separation relations for interfaces , 2016, International Journal of Fracture.

[20]  J. Molinari,et al.  Critical length scale controls adhesive wear mechanisms , 2016, Nature Communications.

[21]  Hye Rim Cho,et al.  A graphene-based electrochemical device with thermoresponsive microneedles for diabetes monitoring and therapy. , 2016, Nature nanotechnology.

[22]  Harold S. Park,et al.  Intrinsic Negative Poisson's Ratio for Single-Layer Graphene. , 2016, Nano letters.

[23]  Rui Huang,et al.  Mixed-mode traction-separation relations between graphene and copper by blister tests , 2016 .

[24]  Jijun Zhao,et al.  Atomic structures and electronic properties of phosphorene grain boundaries , 2016 .

[25]  David K. Campbell,et al.  Graphene kirigami as a platform for stretchable and tunable quantum dot arrays , 2016, 1604.02697.

[26]  Wanchul Seung,et al.  Directional dependent piezoelectric effect in CVD grown monolayer MoS2 for flexible piezoelectric nanogenerators , 2016 .

[27]  Yong Ju Park,et al.  MoS2‐Based Tactile Sensor for Electronic Skin Applications , 2016, Advanced materials.

[28]  D. Akinwande,et al.  Clean graphene interfaces by selective dry transfer for large area silicon integration. , 2016, Nanoscale.

[29]  D. Akinwande,et al.  High pressure Raman study of layered Mo0.5W0.5S2 ternary compound , 2016 .

[30]  D. Akinwande,et al.  Black Phosphorus Flexible Thin Film Transistors at Gighertz Frequencies. , 2016, Nano letters.

[31]  Huajian Gao,et al.  Biological and environmental interactions of emerging two-dimensional nanomaterials. , 2016, Chemical Society reviews.

[32]  R. Pidaparti,et al.  Fracture patterns and the energy release rate of phosphorene. , 2016, Nanoscale.

[33]  Zhigong Song,et al.  Geometrical effect ‘stiffens’ graphene membrane at finite vacancy concentrations , 2016 .

[34]  Amritesh Rai,et al.  Large‐Area Monolayer MoS2 for Flexible Low‐Power RF Nanoelectronics in the GHz Regime , 2016, Advanced materials.

[35]  Pradeep Sharma,et al.  Flexoelectricity: A Perspective on an Unusual Electromechanical Coupling , 2016 .

[36]  Deji Akinwande,et al.  Extremely High-Frequency Flexible Graphene Thin-Film Transistors , 2016, IEEE Electron Device Letters.

[37]  Huajian Gao,et al.  Nanotwin-governed toughening mechanism in hierarchically structured biological materials , 2016, Nature Communications.

[38]  F. Miao,et al.  The Ideal Tensile Strength and Phonon Instability of Borophene , 2016, 1602.00456.

[39]  R. Ritchie,et al.  Toughness and strength of nanocrystalline graphene , 2016, Nature Communications.

[40]  E. Reed,et al.  Structural Phase Transitions by Design in Monolayer Alloys. , 2016, ACS nano.

[41]  Harold S. Park,et al.  Negative Poisson's Ratio in Single-Layer Graphene Ribbons. , 2016, Nano letters.

[42]  Yao Li,et al.  Structural semiconductor-to-semimetal phase transition in two-dimensional materials induced by electrostatic gating , 2016, Nature Communications.

[43]  B. Yakobson,et al.  Riemann Surfaces of Carbon as Graphene Nanosolenoids. , 2016, Nano letters.

[44]  C. V. Singh,et al.  Interfacial Shear Strength of Multilayer Graphene Oxide Films. , 2016, ACS nano.

[45]  Enlai Gao,et al.  Two-dimensional silica: Structural, mechanical properties, and strain-induced band gap tuning , 2016 .

[46]  Harold S. Park,et al.  Highly stretchable MoS2 kirigami. , 2015, Nanoscale.

[47]  M. Katsnelson,et al.  Scaling Behavior and Strain Dependence of In-Plane Elastic Properties of Graphene. , 2015, Physical review letters.

[48]  D. Nelson,et al.  Response of thermalized ribbons to pulling and bending , 2015, 1508.01528.

[49]  Zhaoping Liu,et al.  Graphene commercialization. , 2016, Nature materials.

[50]  Enlai Gao,et al.  Thin-Shell Thickness of Two-Dimensional Materials , 2015 .

[51]  Fengnian Xia,et al.  Recent Advances in Two-Dimensional Materials beyond Graphene. , 2015, ACS nano.

[52]  Rui Huang,et al.  Entropic Effects of Thermal Rippling on van der Waals Interactions between Monolayer Graphene and a Rigid Substrate , 2015, 1511.02914.

[53]  Shuze Zhu,et al.  Programmable Extreme Pseudomagnetic Fields in Graphene by a Uniaxial Stretch. , 2015, Physical review letters.

[54]  K. Bolotin,et al.  The effect of intrinsic crumpling on the mechanics of free-standing graphene , 2015, Nature Communications.

[55]  P. Sharma,et al.  Flexoelectricity in two-dimensional crystalline and biological membranes. , 2015, Nanoscale.

[56]  Zhi Gen Yu,et al.  An Anomalous Formation Pathway for Dislocation-Sulfur Vacancy Complexes in Polycrystalline Monolayer MoS2. , 2015, Nano letters.

[57]  Jun Song,et al.  Dislocation Shielding of a Nanocrack in Graphene: Atomistic Simulations and Continuum Modeling. , 2015, The journal of physical chemistry letters.

[58]  Richard G Hennig,et al.  Ab Initio Prediction of Piezoelectricity in Two-Dimensional Materials. , 2015, ACS nano.

[59]  E. Reed,et al.  Structural Phase Stability Control of Monolayer MoTe2 with Adsorbed Atoms and Molecules , 2015 .

[60]  Eric D. Wetzel,et al.  A theoretical consideration of the ballistic response of continuous graphene membranes , 2015 .

[61]  Ankanahalli Shankaregowda Smitha,et al.  Roll‐to‐Roll Green Transfer of CVD Graphene onto Plastic for a Transparent and Flexible Triboelectric Nanogenerator , 2015, Advanced materials.

[62]  D. Akinwande,et al.  Pressure-Modulated Conductivity, Carrier Density, and Mobility of Multilayered Tungsten Disulfide. , 2015, ACS nano.

[63]  Huajian Gao,et al.  Fracture of graphene: a review , 2015, International Journal of Fracture.

[64]  Xianqiao Wang,et al.  Grain-size dependence of mechanical properties in polycrystalline boron-nitride: a computational study. , 2015, Physical chemistry chemical physics : PCCP.

[65]  A. Tabarraei,et al.  A molecular dynamics study of nanofracture in monolayer boron nitride , 2015 .

[66]  Rui Huang,et al.  Mixed-Mode Interactions Between Graphene and Substrates by Blister Tests , 2015 .

[67]  D. Akinwande,et al.  Large-Area Graphene Electrodes: Using CVD to facilitate applications in commercial touchscreens, flexible nanoelectronics, and neural interfaces. , 2015, IEEE Nanotechnology Magazine.

[68]  B. Yakobson,et al.  Flexoelectricity in Carbon Nanostructures: Nanotubes, Fullerenes, and Nanocones. , 2015, The journal of physical chemistry letters.

[69]  Lain-Jong Li,et al.  Piezoelectric effect in chemical vapour deposition-grown atomic-monolayer triangular molybdenum disulfide piezotronics , 2015, Nature Communications.

[70]  M. Strano,et al.  Molecular valves for controlling gas phase transport made from discrete ångström-sized pores in graphene. , 2015, Nature nanotechnology.

[71]  Yong Zhu,et al.  Measuring graphene adhesion using atomic force microscopy with a microsphere tip. , 2015, Nanoscale.

[72]  Sang Hoon Chae,et al.  Phase-Engineered Synthesis of Centimeter-Scale 1T'- and 2H-Molybdenum Ditelluride Thin Films. , 2015, ACS nano.

[73]  H. Spikes,et al.  A Study of the Lubrication of EHL Point Contact in the Presence of Longitudinal Roughness , 2015, Tribology Letters.

[74]  W. Tysoe,et al.  On the Commonality Between Theoretical Models for Fluid and Solid Friction, Wear and Tribochemistry , 2015, Tribology Letters.

[75]  Yi Cui,et al.  Roll-to-Roll Encapsulation of Metal Nanowires between Graphene and Plastic Substrate for High-Performance Flexible Transparent Electrodes. , 2015, Nano letters.

[76]  Rui Huang,et al.  Wet adhesion of graphene , 2015 .

[77]  Mechanical Control of Graphene on Engineered Pyramidal Strain Arrays. , 2015, ACS nano.

[78]  Xiaolong Zou,et al.  Electro-mechanical anisotropy of phosphorene. , 2015, Nanoscale.

[79]  Huajian Gao,et al.  Toughening Graphene With Topological Defects: A Perspective , 2015 .

[80]  A. Tabarraei,et al.  Fracture mechanics of monolayer molybdenum disulfide , 2015, Nanotechnology.

[81]  Yu Chen,et al.  Two-dimensional graphene analogues for biomedical applications. , 2015, Chemical Society reviews.

[82]  F. Guinea,et al.  Strain dependent elastic modulus of graphene , 2015, 1504.05521.

[83]  Jin-Wu Jiang Parametrization of Stillinger–Weber potential based on valence force field model: application to single-layer MoS2 and black phosphorus , 2015, Nanotechnology.

[84]  Harold S. Park,et al.  Conductance signatures of electron confinement induced by strained nanobubbles in graphene. , 2015, Nanoscale.

[85]  Stephen Jesse,et al.  Co-registered Topographical, Band Excitation Nanomechanical, and Mass Spectral Imaging Using a Combined Atomic Force Microscopy/Mass Spectrometry Platform. , 2015, ACS nano.

[86]  T. Filleter,et al.  Effect of structure on the tribology of ultrathin graphene and graphene oxide films , 2015, Nanotechnology.

[87]  J. Robinson,et al.  Direct mechanochemical cleavage of functional groups from graphene , 2015, Nature Communications.

[88]  Christopher J. Brennan,et al.  Interface Adhesion between 2D Materials and Elastomers Measured by Buckle Delaminations , 2015 .

[89]  C. Gómez-Navarro,et al.  Confining crack propagation in defective graphene. , 2015, Nano letters.

[90]  F. Guinea,et al.  Novel effects of strains in graphene and other two dimensional materials , 2015, 1503.00747.

[91]  Markus J. Buehler,et al.  Molecular mechanics of polycrystalline graphene with enhanced fracture toughness , 2015 .

[92]  S. Yao,et al.  Nanomaterial‐Enabled Stretchable Conductors: Strategies, Materials and Devices , 2015, Advanced materials.

[93]  Nathaniel S. Hwang,et al.  Multifunctional cell-culture platform for aligned cell sheet monitoring, transfer printing, and therapy. , 2015, ACS nano.

[94]  T. Zhu,et al.  Griffith criterion for brittle fracture in graphene. , 2015, Nano letters.

[95]  R. Ruoff,et al.  Selective mechanical transfer of graphene from seed copper foil using rate effects. , 2015, ACS nano.

[96]  Ruben Gatt,et al.  Tailoring Graphene to Achieve Negative Poisson's Ratio Properties , 2015, Advanced materials.

[97]  Zi Jing Wong,et al.  Observation of piezoelectricity in free-standing monolayer MoS₂. , 2015, Nature nanotechnology.

[98]  B. Yakobson,et al.  Edge reconstruction-mediated graphene fracture. , 2015, Nanoscale.

[99]  B. Yakobson,et al.  Defect-detriment to graphene strength is concealed by local probe: the topological and geometrical effects. , 2015, ACS nano.

[100]  D. Akinwande,et al.  Pressure-dependent optical and vibrational properties of monolayer molybdenum disulfide. , 2015, Nano letters.

[101]  David M. Parks,et al.  On the hyperelastic softening and elastic instabilities in graphene , 2015, Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences.

[102]  Dezheng Yang,et al.  Negative Poisson’s ratios in few-layer orthorhombic arsenic: First-principles calculations , 2015, 1501.01425.

[103]  Harold S. Park,et al.  A Stillinger-Weber potential for single-layered black phosphorus, and the importance of cross-pucker interactions for a negative Poisson's ratio and edge stress-induced bending. , 2014, Nanoscale.

[104]  Samantha P. Roberts,et al.  Graphene kirigami , 2015, Nature.

[105]  F. Guinea,et al.  Increasing the elastic modulus of graphene by controlled defect creation , 2014, Nature Physics.

[106]  Zhuhua Zhang,et al.  Unraveling the Sinuous Grain Boundaries in Graphene , 2015 .

[107]  J. Tuček Carbon Nanostructures , 2015 .

[108]  David K. Campbell,et al.  Atomistic simulations of tension-induced large deformation and stretchability in graphene kirigami , 2014 .

[109]  Deji Akinwande,et al.  Two-dimensional flexible nanoelectronics , 2014, Nature Communications.

[110]  A. Turak,et al.  Effect of post-annealing on the plasma etching of graphene-coated-copper. , 2014, Faraday discussions.

[111]  Huajian Gao,et al.  Designing graphene structures with controlled distributions of topological defects: A case study of toughness enhancement in graphene ruga , 2014 .

[112]  E. Thomas,et al.  Dynamic mechanical behavior of multilayer graphene via supersonic projectile penetration , 2014, Science.

[113]  A. Zettl,et al.  Conserved atomic bonding sequences and strain organization of graphene grain boundaries. , 2014, Nano letters.

[114]  Arnaud Caron,et al.  Atomic scale mechanisms of friction reduction and wear protection by graphene. , 2014, Nano letters.

[115]  Ji Won Suk,et al.  Ultra long-range interactions between large area graphene and silicon. , 2014, ACS nano.

[116]  Zhong Lin Wang,et al.  Piezoelectricity of single-atomic-layer MoS2 for energy conversion and piezotronics , 2014, Nature.

[117]  Jared P. Ness,et al.  Graphene-based carbon-layered electrode array technology for neural imaging and optogenetic applications , 2014, Nature Communications.

[118]  T. Lucas,et al.  Transparent and flexible low noise graphene electrodes for simultaneous electrophysiology and neuroimaging , 2014, Nature Communications.

[119]  D. Akinwande,et al.  Toward 300 mm wafer-scalable high-performance polycrystalline chemical vapor deposited graphene transistors. , 2014, ACS nano.

[120]  Vibhor Singh,et al.  Mechanics of freely‐suspended ultrathin layered materials , 2014, 1409.1173.

[121]  Huajian Gao,et al.  Cytotoxicity of graphene: recent advances and future perspective. , 2014, Wiley interdisciplinary reviews. Nanomedicine and nanobiotechnology.

[122]  B. Yakobson,et al.  Two-dimensional mono-elemental semiconductor with electronically inactive defects: the case of phosphorus. , 2014, Nano letters.

[123]  S. Solares,et al.  Pseudomagnetic fields in a locally strained graphene drumhead , 2014, 1505.02805.

[124]  V. B. Shenoy,et al.  Inverse Pseudo Hall-Petch Relation in Polycrystalline Graphene , 2014, Scientific Reports.

[125]  J. Robinson,et al.  Fluorination of graphene enhances friction due to increased corrugation. , 2014, Nano letters (Print).

[126]  E. Reed,et al.  Strain engineering in monolayer materials using patterned adatom adsorption. , 2014, Nano letters.

[127]  E. Reed,et al.  Structural phase transitions in two-dimensional Mo- and W-dichalcogenide monolayers , 2014, Nature Communications.

[128]  Huajian Gao,et al.  Defects controlled wrinkling and topological design in graphene , 2014 .

[129]  P. Ajayan,et al.  Anomalous piezoelectricity in two-dimensional graphene nitride nanosheets , 2014, Nature Communications.

[130]  Yanming Ma,et al.  Nanotwinned diamond with unprecedented hardness and stability , 2014, Nature.

[131]  Harold S. Park,et al.  Pseudomagnetic fields in graphene nanobubbles of constrained geometry: A molecular dynamics study , 2014, 1406.1092.

[132]  Yong-Wei Zhang,et al.  Nanoscale Transition Metal Dichalcogenides: Structures, Properties, and Applications , 2014 .

[133]  D. Akinwande,et al.  Pressure-induced semiconducting to metallic transition in multilayered molybdenum disulphide , 2014, Nature Communications.

[134]  Rui Huang,et al.  Thermomechanics of monolayer graphene: Rippling, thermal expansion and elasticity , 2014 .

[135]  Ying-Sheng Huang,et al.  Atomic mechanism of the semiconducting-to-metallic phase transition in single-layered MoS2. , 2014, Nature nanotechnology.

[136]  Shuze Zhu,et al.  Extremely compliant and highly stretchable patterned graphene , 2014 .

[137]  Ting Zhu,et al.  Fracture toughness of graphene , 2014, Nature Communications.

[138]  A. T. Johnson,et al.  Frictional behavior of atomically thin sheets: hexagonal-shaped graphene islands grown on copper by chemical vapor deposition. , 2014, ACS nano.

[139]  G. Cuniberti,et al.  Mechanical properties of polycrystalline boron-nitride nanosheets , 2014 .

[140]  R. Ruoff,et al.  A blister test for interfacial adhesion of large-scale transferred graphene , 2014 .

[141]  Harold S. Park,et al.  Mechanical properties of single-layer black phosphorus , 2014, 1404.0232.

[142]  Qun Wei,et al.  Superior mechanical flexibility of phosphorene and few-layer black phosphorus , 2014, 1403.7882.

[143]  A Gholinia,et al.  Electronic properties of graphene encapsulated with different two-dimensional atomic crystals. , 2014, Nano letters.

[144]  Harold S. Park,et al.  Negative poisson’s ratio in single-layer black phosphorus , 2014, Nature Communications.

[145]  Wei Gao,et al.  Interfacial adhesion between graphene and silicon dioxide by density functional theory with van der Waals corrections , 2014 .

[146]  A. Sadeghi,et al.  Unusual ultra-low-frequency fluctuations in freestanding graphene. , 2014, Nature communications.

[147]  Shuze Zhu,et al.  Hydrogenation-assisted graphene origami and its application in programmable molecular mass uptake, storage, and release. , 2014, ACS nano.

[148]  Jing Kong,et al.  Selective ionic transport through tunable subnanometer pores in single-layer graphene membranes. , 2014, Nano letters.

[149]  L. Lauhon,et al.  Emerging device applications for semiconducting two-dimensional transition metal dichalcogenides. , 2014, ACS nano.

[150]  K. Novoselov,et al.  Commensurate–incommensurate transition in graphene on hexagonal boron nitride , 2014, Nature Physics.

[151]  Amina Taleb-Ibrahimi,et al.  Exceptional ballistic transport in epitaxial graphene nanoribbons , 2013, Nature.

[152]  Rui Huang,et al.  Interfacial Sliding and Buckling of Monolayer Graphene on a Stretchable Substrate , 2014 .

[153]  Jianliang Xiao,et al.  Graphene blisters with switchable shapes controlled by pressure and adhesion. , 2013, Nano letters.

[154]  Vibhor Singh,et al.  Deterministic transfer of two-dimensional materials by all-dry viscoelastic stamping , 2013, 1311.4829.

[155]  Colin Ophus,et al.  Measurement of the intrinsic strength of crystalline and polycrystalline graphene , 2013, Nature Communications.

[156]  Xiaoning Jiang,et al.  Flexoelectric nano-generator: Materials, structures and devices , 2013 .

[157]  K. L. Shepard,et al.  One-Dimensional Electrical Contact to a Two-Dimensional Material , 2013, Science.

[158]  S. De,et al.  Outstanding mechanical properties of monolayer MoS2 and its application in elastic energy storage. , 2013, Physical chemistry chemical physics : PCCP.

[159]  Alexander A Alemi,et al.  Imaging Atomic Rearrangements in Two-Dimensional Silica Glass: Watching Silica’s Dance , 2013, Science.

[160]  M. Dresselhaus,et al.  Mechanics and Mechanically Tunable Band Gap in Single-Layer Hexagonal Boron-Nitride , 2013 .

[161]  A. Tagantsev,et al.  Fundamentals of flexoelectricity in solids , 2013, Nanotechnology.

[162]  Yalin Dong,et al.  Atomic roughness enhanced friction on hydrogenated graphene , 2013, Nanotechnology.

[163]  Takashi Taniguchi,et al.  Epitaxial growth of single-domain graphene on hexagonal boron nitride. , 2013, Nature materials.

[164]  Huajian Gao,et al.  Cellular entry of graphene nanosheets: the role of thickness, oxidation and surface adsorption , 2013 .

[165]  Haiping Fang,et al.  Destructive extraction of phospholipids from Escherichia coli membranes by graphene nanosheets. , 2013, Nature nanotechnology.

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[167]  Harold S. Park,et al.  Elastic bending modulus of single-layer molybdenum disulfide (MoS2): finite thickness effect , 2013, Nanotechnology.

[168]  Timon Rabczuk,et al.  Molecular dynamics simulations of single-layer molybdenum disulphide (MoS2): Stillinger-Weber parametrization, mechanical properties, and thermal conductivity , 2013, 1307.7072.

[169]  Haiyan Song,et al.  A novel electrochemical biosensor based on the hemin-graphene nano-sheets and gold nano-particles hybrid film for the analysis of hydrogen peroxide. , 2013, Analytica chimica acta.

[170]  Wei Chen,et al.  Graphene wrapped Cu2O nanocubes: non-enzymatic electrochemical sensors for the detection of glucose and hydrogen peroxide with enhanced stability. , 2013, Biosensors & bioelectronics.

[171]  Huajian Gao,et al.  Graphene microsheets enter cells through spontaneous membrane penetration at edge asperities and corner sites , 2013, Proceedings of the National Academy of Sciences.

[172]  M. Marder,et al.  Tearing of free-standing graphene. , 2013, Physical review. E, Statistical, nonlinear, and soft matter physics.

[173]  Pavlo Zubko,et al.  Flexoelectric Effect in Solids , 2013 .

[174]  Rui Huang,et al.  Numerical Analysis of Circular Graphene Bubbles , 2013 .

[175]  Yushen Jin,et al.  Graphene oxide modified PLA microcapsules containing gold nanoparticles for ultrasonic/CT bimodal imaging guided photothermal tumor therapy. , 2013, Biomaterials.

[176]  Shen-ming Chen,et al.  Dopamine sensor based on a glassy carbon electrode modified with a reduced graphene oxide and palladium nanoparticles composite , 2013, Microchimica Acta.

[177]  T. Ma,et al.  Ab Initio Study of the Friction Mechanism of Fluorographene and Graphane , 2013 .

[178]  James A. Stewart,et al.  Atomistic simulations of nanoindentation on the basal plane of crystalline molybdenum disulfide (MoS2) , 2013 .

[179]  Nicholas Petrone,et al.  High-Strength Chemical-Vapor–Deposited Graphene and Grain Boundaries , 2013, Science.

[180]  J. Shan,et al.  Experimental demonstration of continuous electronic structure tuning via strain in atomically thin MoS2. , 2013, Nano letters.

[181]  Jed I. Ziegler,et al.  Bandgap engineering of strained monolayer and bilayer MoS2. , 2013, Nano letters.

[182]  Harold S. Park,et al.  Resonant tunneling in graphene pseudomagnetic quantum dots. , 2013, Nano letters.

[183]  Jing Kong,et al.  Intrinsic structural defects in monolayer molybdenum disulfide. , 2013, Nano letters.

[184]  Harold S. Park,et al.  How graphene slides: measurement and theory of strain-dependent frictional forces between graphene and SiO2. , 2013, Nano letters.

[185]  Zhengfei Wang,et al.  Strain gauge fields for rippled graphene membranes under central mechanical load: An approach beyond first-order continuum elasticity , 2013, 1310.0766.

[186]  Jianliang Xiao,et al.  Observation of pull-in instability in graphene membranes under interfacial forces. , 2013, Nano letters.

[187]  Jianliang Xiao,et al.  Mechanics of Adhered, Pressurized Graphene Blisters , 2013 .

[188]  F. Peeters,et al.  Pseudo magnetic field in strained graphene: Revisited , 2013, 1304.0629.

[189]  Hua Zhang,et al.  The chemistry of two-dimensional layered transition metal dichalcogenide nanosheets. , 2013, Nature chemistry.

[190]  A. Sumant,et al.  Few layer graphene to reduce wear and friction on sliding steel surfaces , 2013 .

[191]  Kai Yang,et al.  Tumor vasculature targeting and imaging in living mice with reduced graphene oxide. , 2013, Biomaterials.

[192]  Kevin T Turner,et al.  Mechanics of interaction and atomic-scale wear of amplitude modulation atomic force microscopy probes. , 2013, ACS nano.

[193]  E. Johnston-Halperin,et al.  Progress, challenges, and opportunities in two-dimensional materials beyond graphene. , 2013, ACS nano.

[194]  Zhiping Xu,et al.  Pseudo Hall-Petch strength reduction in polycrystalline graphene. , 2013, Nano letters.

[195]  E. Reed,et al.  Flexural electromechanical coupling: a nanoscale emergent property of boron nitride bilayers. , 2013, Nano letters.

[196]  T. Seyller,et al.  Friction and atomic-layer-scale wear of graphitic lubricants on SiC(0001) in dry sliding , 2013 .

[197]  V. Fal’ko,et al.  Transport signatures of pseudomagnetic Landau levels in strained graphene ribbons. , 2013, Physical review letters.

[198]  J. Qu,et al.  Atomistic simulation study of brittle failure in nanocrystalline graphene under uniaxial tension , 2013 .

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[201]  T. Jacobs,et al.  Nanoscale wear as a stress-assisted chemical reaction. , 2013, Nature nanotechnology.

[202]  N. Wilson,et al.  Friction force microscopy: a simple technique for identifying graphene on rough substrates and mapping the orientation of graphene grains on copper , 2013, Nanotechnology.

[203]  Shuze Zhu,et al.  Hydrogenation enabled scrolling of graphene , 2013 .

[204]  Kai Yang,et al.  Nano-graphene in biomedicine: theranostic applications. , 2013, Chemical Society reviews.

[205]  Toshiyuki Kobayashi,et al.  Production of a 100-m-long high-quality graphene transparent conductive film by roll-to-roll chemical vapor deposition and transfer process , 2013 .

[206]  Bin Wen,et al.  Ultrahard nanotwinned cubic boron nitride , 2013, Nature.

[207]  B. Park,et al.  Nanotribological Properties of Fluorinated, Hydrogenated, and Oxidized Graphenes , 2013, Tribology Letters.

[208]  M. Dresselhaus,et al.  Mechanics and Tunable Bandgap by Straining in Single-Layer Hexagonal Boron-Nitride , 2013, 1301.2104.

[209]  Xiaolong Zou,et al.  Predicting dislocations and grain boundaries in two-dimensional metal-disulfides from the first principles. , 2013, Nano letters.

[210]  Martin L. Dunn,et al.  Bending rigidity and Gaussian bending stiffness of single-layered graphene. , 2013, Nano letters.

[211]  S. Solares,et al.  Nanoscale interfacial friction and adhesion on supported versus suspended monolayer and multilayer graphene. , 2013, Langmuir : the ACS journal of surfaces and colloids.

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[213]  Tienchong Chang,et al.  A theoretical evaluation of the temperature and strain-rate dependent fracture strength of tilt grain boundaries in graphene , 2013 .

[214]  Michael C. McAlpine,et al.  Nanoscale Flexoelectricity , 2013, Advanced materials.

[215]  Xi-Qiao Feng,et al.  Adhesion-dependent negative friction coefficient on chemically modified graphite at the nanoscale. , 2012, Nature materials.

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