var editData = {"errorMessage":"","dataLines":"R0001\tMultiphysics Model and Application Development for Controlled 2D Materials Growth\tKasra Momeni\tYes\tRuston\tLouisiana\t71272\tUSA\tLouisiana Tech University\tR1\/Research\tResearch\tR1\tAPPROXIMATE\t32.531509\t-92.629322\nR0002\tExpanding the 2D Toolbox: Extension and Refinement of ReaxFF Chalcogenide\tAdri van Duin\tYes\tUniversity Park\tPennsylvania\t16802\tUSA\tPenn State University\tR1\/Research\tResearch\tR1\tAPPROXIMATE\t40.808408\t-77.863883\nR0011\tStandardization of Chemical and Structural Characterization of 2D Materials Beyond Graphene for Electronic Applications\tRobert Wallace\tYes\tRichardson\tTexas\t75083\tUSA\tThe University of Texas at Dallas\tR1\/Research\tResearch\tR1\tAPPROXIMATE\t32.958422\t-96.731708\nR0012\tEffect of substrate properties on electronic properties of a 2D dichalcogenide material, WSe2\tFadzai Fungura\tYes\tHuntingdon\tPennsylvania\t16652\tUSA\tJuniata College\tNon-R1\/Research\tResearch\tNon-R1\tAPPROXIMATE\t40.484796\t-78.010281\nR0013\tAtomic- to Device-Scale Studies of Interfaces between Two-Dimensional Crystals\tShawna Hollen\tYes\tDurham\tNew Hampshire\t3824\tUSA\tUniversity of New Hampshire\tNon-R1\/Research\tResearch\tNon-R1\tROOFTOP\t43.138176\t-70.933968\nR0014\tGrowth of chalcogenide Ruddlesden-Popper layered crystals\tRafael Jaramillo\tYes\tCambridge\tMassachusetts\t02139\tUSA\tMassachusetts Institute of Technology\tR1\/Research\tResearch\tR1\tOSM\t42.375100\t-71.105616\nR0016\tTuning the Properties of ZrSxSe2-x for Optoelectronic Devices\tPatrick Vora\tYes\tFairfax\tVirginia\t22030\tUSA\tGeorge Mason University\tR1\/Research\tResearch\tR1\tAPPROXIMATE\t38.846224\t-77.306373\nR0017\tGrowth of WTe2 for microARPES experiments\tInna Vishik\tYes\tDAVIS\tCalifornia\t95616\tUSA\tUniversity of California Davis\tR1\/Research\tResearch\tR1\tAPPROXIMATE\t38.544907\t-121.740517\nR0023\tCrystal Growth of a Promising Topological Superconductor NbxBi2Se3\tYew San Hor\tYes\tRolla\tMissouri\t65409\tUSA\tMissouri University of Science and Technology\tNon-R1\/Research\tResearch\tNon-R1\tAPPROXIMATE\t37.955225\t-91.772748\nR0024\tLarge-Area Two-Dimensional Layered Semiconductors for Phase Change Switching and Optoelectronic Applications\tJeremy Robinson\tYes\tWashington\tDistrict of Columbia\t20375\tUSA\tNaval Research Laboratory\/ Dept. of Defense\tGov\/Research\tResearch\tGov\tAPPROXIMATE\t38.826107\t-77.017223\nR0025\tUnderstanding the Role of Substrate Interactions in Nucleation and Growth of Two-Dimensional Transition Metal Dichalcogenides\tJoshua Maurer\tYes\tWatervliet Arsenal\tNew York\t12189\tUSA\tUS Army - Armament Research, Development and Engineering Center (ARDEC)\tGov\/Research\tResearch\tGov\tGEOMETRIC_CENTER\t42.720531\t-73.713391\nR0026\tLarge-scale synthesis and integration of PtSe2 for ultra-thin-body, low-power, and high-performance MOSFETs\tJames Hwang\tYes\tBethlehem\tPennsylvania\t18015\tUSA\tLehigh University\tNon-R1\/Research\tResearch\tNon-R1\tAPPROXIMATE\t40.596770\t-75.376195\nR0027\tTransition Metal Dichalcogenides for Thin Film Transducers in Nanoscale Phonon Imaging Experiments\tBrian Daly\tYes\tPoughkeepsie\tNew York\t12604\tUSA\tVassar College\tNon-R1\/Research\tResearch\tNon-R1\tAPPROXIMATE\t41.694096\t-73.900158\nR0028\tDopants and Defects: Enhanced catalytic and electronic performance of 2D material systems\tDaniel Kaplan\tYes\tPicatinny Arsenal\tNew Jersey\t7806\tUSA\tU.S. Army RDECOM-ARDEC\tGov\/Research\tResearch\tGov\tROOFTOP\t40.917076\t-74.580505\nR0030\t2D topological superconducting materials for nanomagnetic quantum device engineering\tJesse Berezovsky\tYes\tCleveland\tOhio\t44106\tUSA\tCase Western Reserve University\tR1\/Research\tResearch\tR1\tAPPROXIMATE\t41.509126\t-81.608987\nR0031\tTowards a fundamental understanding of substrate interactions during growth of large-area single crystalline 2D semi-conductors\tPiran Kidambi\tYes\tNashville\tTennessee\t37212\tUSA\tVanderbilt University\tR1\/Research\tResearch\tR1\tAPPROXIMATE\t36.139016\t-86.796924\nR0033\tMagnetism at Topological Insulator Interfaces\tSteven May\tYes\tPhiladelphia\tPennsylvania\t19104\tUSA\tDrexel University\tR1\/Research\tResearch\tR1\tOSM\t39.952724\t-75.163526\nR0034\tSearch for Majorana Kramer Pairs in WTe2 \/ Bi2Sr2CaCu2O8+\u03b4 heterostructures\tChristian Matt\tYes\tCambridge\tMassachusetts\t02138\tUSA\tHarvard University\tR1\/Research\tResearch\tR1\tOSM\t42.375100\t-71.105616\nR0035\tExploring novel magnetism in twisted 2D magnetic bilayers prepared from high-quality bulk magnetic crystals\tJifa Tian\tYes\tLaramie\tWyoming\t82071\tUSA\tUniversity of Wyoming\tNon-R1\/Research\tResearch\tNon-R1\tOSM\t41.311367\t-105.591101\nR0036\tSynthesis Mechanisms and Properties of Monolithically-Integrated III-V-on-2D Hybrid Nanomaterials Systems\tParsian Katal Mohseni\tYes\tRochester\tNew York\t14623\tUSA\tRochester Institute of Technology\tNon-R1\/Research\tResearch\tNon-R1\tOSM\t43.157285\t-77.615214\nR0037\tDesigning an advanced versatile crucible for growing wafer size 2D metals\tKasra Momeni\tNo\tRuston\tLouisiana\t71272\tUSA\tLousiana Tech University\tNon-R1\/Research\tResearch\tNon-R1\tAPPROXIMATE\t32.531509\t-92.629322\nR0038\tGrowth of 2D (Sn,Ge)Se for High Performance Piezoelectric Electronics\tLauren Garten\tYes\tWashington\tDistrict of Columbia\t20375\tUSA\tUS NAVAL RESEARCH LABORATORY\tGov\/Research\tResearch\tGov\tAPPROXIMATE\t38.826107\t-77.017223\nR0039\tSynthesis and ultrafast optical characterization of orbital order in (Ca,Sr)2RuO4 single crystals\tVenkatraman Gopalan\tNo\tUniversity Park\tPennsylvania\t16802\tUSA\tPenn State University\tR1\/Research\tResearch\tR1\tAPPROXIMATE\t40.808408\t-77.863883\nR0040\tRealization of topological exciton condensate in MBE grown (Bi,Sb)2Se3 topological insulators\tDong Yu\tYes\tDavis\tCalifornia\t95616\tUSA\tU.C. Davis\tR1\/Research\tResearch\tR1\tOSM\t38.545379\t-121.744584\nR0042\tGrowing transition metal disulfide alloys in the MoS2-TiS2-ZrS2 system\tRafael Jaramillo\tNo\tCambridge\tMassachusetts\t02139\tUSA\tMIT\tR1\/Research\tResearch\tR1\tOSM\t42.375100\t-71.105616\nR0043\tGrowth of Wafer-size Atomically Thin, Ferroelectric Films of In-Se for Studying Ferroelectric Field-effect Transistors\tYing Liu\tNo\tUniversity Park\tPennsylvania\t16802\tUSA\tPenn State University\tR1\/Research\tResearch\tR1\tAPPROXIMATE\t40.808408\t-77.863883\nR0045\tAtomically Flat Surface Enhanced Raman Substrates\tPatrick Vora\tNo\tFairfax\tVirginia\t22030\tUSA\tGeorge Mason University\tR1\/Research\tResearch\tR1\tAPPROXIMATE\t38.846224\t-77.306373\nR0046\tBi2Se3 \/ NbSe2 Thin Film Bilayer\tStuart Tessmer\tYes\tEast Lansing\tMichigan\t48823\tUSA \tMichigan State University\tR1\/Research\tResearch\tR1\tOSM\t42.735542\t-84.485247\nR0047\tHomoepitaxy of Hexagonal Boron Nitride\tJames Edgar\tNo\tManhattan\tKansas\t66506\tUSA\tKansas State University\tR1\/Research\tResearch\tR1\tOSM\t39.183608\t-96.571669\nR0048\tAtomic Layer Deposition of Platinum on Graphene-Base Materials\tSuzanne Mohney\tNo\tUniversity Park\tPennsylvania\t16802\tUSA\tPenn State University\tR1\/Research\tResearch\tR1\tAPPROXIMATE\t40.808408\t-77.863883\nR0051\tUnderstanding the Effects of Environmental Exposure on the Tribology of Molybdenum Disulfide\tMichael Chandross\tYes\tAlbuquerque\tNew Mexico\t87123\tUSA\tSandia National Laboratory\tGov\/Research\tResearch\tGov\tOSM\t35.084103\t-106.650985\nR0052\tTopological Superconductivity in 2D Heterostructures\tAlexander Weber-Bargioni\tYes\tBerkeley\tCalifornia\t94720\tUSA\tMolecular Foundry - Lawrence Berkeley National Laboratory\tGov\/Research\tResearch\tGov\tAPPROXIMATE\t37.870151\t-122.259461\nR0053\tAdvanced Manufacturing of Wafer-scale GaN Epitaxy and SiC Wafer Reusability via Graphitization Process\tKyusang Lee\tYes\tCharlottesville\tVirginia\t22904\tUSA\tUniversity of Virginia\tR1\/Research\tResearch\tR1\tAPPROXIMATE\t38.034028\t-78.510016\nR0054\tEptaxial SnSe for Integrated Photonics Applications\tRafael Jaramillo\tNo\tCambridge\tMassachusetts\t02139\tUSA\tMIT\tR1\/Research\tResearch\tR1\tOSM\t42.375100\t-71.105616\nR0060\tEpitaxy of Twisted 2D Transition Metal Chalcogenide Homostructures\tJian Shi\tYes\tTroy\tNew York\t12189\tUSA\tRensselaer Polytechnic Institute\tNon-R1\/Research\tResearch\tNon-R1\tAPPROXIMATE\t42.739782\t-73.718364\nR0061\tNeutron Scattering Investigations of Magnetic Topological Insulators\tWilliam Ratcliff\tYes\tGaithersburg\tMaryland\t20899\tUSA \tNational Institute of Standards and Technology\tGov\/Research\tResearch\tGov\tOSM\t39.143441\t-77.201370\nR0062\t2D Heterostructures for Low Power Electronics\tTetyana Ignatova\tNo\tGreensboro\tNorth Carolina\t27401\tUSA \tUniversity of North Carolina at Greensboro\tNon-R1\/Research\tResearch\tNon-R1\tAPPROXIMATE\t36.067604\t-79.756811\nR0063\tVacancy Concentration and Solid-state Defects Effect on Structure and Ion Diffusion\tKatherine Plass\tYes\tLancaster\tPennsylvania\t17604\tUSA \tFranklin & Marshall College\tNon-R1\/Research\tResearch\tNon-R1\tOSM\t40.038130\t-76.305669\nR0065\tEffect of Structural and Substitutional Defects on the Phonon Properties of TMD Systems\tMartin Mosquera\tYes\tBozeman\tMontana\t59717\tUSA \tMontana State University\tNon-R1\/Research\tResearch\tNon-R1\tOSM\t45.679429\t-111.044047\nR0066\tTransfer High-quality Graphene for Metrological Applications\tGong Gu\tYes\tKnoxville \tTennessee\t37996\tUSA \tThe University of Tennessee, Knoxville\tR1\/Research\tResearch\tR1\tOSM\t35.951635\t-83.930882\nR0069\tMBE Growth of FeTe1-xSex as Test Case for the Properties of High-order Topological Superconductivity\tKenneth Burch\tYes\tChestnut Hill\tMassachusetts\t2467\tUSA \tBoston College\tR1\/Research\tResearch\tR1\tOSM\t42.330653\t-71.166165\nR0072\tWafer Scale Synthesis and Electronic Control of 2D Charge Density Waves\tRobert Hovden\tYes\tAnn Arbor\tMichigan\t48103\tUSA \tUniversity of Michigan\tR1\/Research\tResearch\tR1\tOSM\t42.268157\t-83.731229\nR0073\tDeveloping 2D SnSe Near the Monolayer Limit for Piezoelectric-Photovoltaics\tLauren Garten\tNo\tAtlanta\tGeorgia\t30332\tUSA \tGeorgia Tech University\tR1\/Research\tResearch\tR1\tOSM\t33.748992\t-84.390264\nR0074\tToward a Universal Understanding of How to Engineer Crystal Quality in TMDs: Atomic-Resolution Comparison Across Growth Methods\tDanielle Hickey\tYes\tUniversity Park\tPennsylvania\t16802\tUSA\tPenn State University\tR1\/Research\tResearch\tR1\tAPPROXIMATE\t40.808408\t-77.863883\nR0075\tLight-driven Manipulation of Effective Dimensionality and Superconductivity in Ladder Cuprates\tMatteo Mitrano\tYes\tCambridge\tMassachusetts\t2138\tUSA\tHarvard University\tR1\/Research\tResearch\tR1\tOSM\t42.375100\t-71.105616\nR0076\tNonlinear Optical Response in 2D Layered Materials\tYuanxi Wang\tYes\tDenton\tTexas\t76201\tUSA\tUniversity of North Texas\tNon-R1\/Research\tResearch\tNon-R1\tOSM\t33.183879\t-97.141342\nR0077\tRadiation Effects in 13C-graphene and Related Structures\tIgor Jovanovic\tYes\tAnn Arbor\tMichigan\t48109\tUSA\tUniversity of Michigan\tR1\/Research\tResearch\tR1\tOSM\t42.268157\t-83.731229\nR0078\tEngineering Topological Phase Transitions in All-telluride Heterostructures\tKaveh Ahadi\tYes\tColumbus \tOhio\t43210\tUSA\tThe Ohio State University\tR1\/Research\tResearch\tR1\tAPPROXIMATE\t39.999063\t-83.017339\nR0079\tDetection and manipulation of entanglement in 1D cuprate chains\tMatteo Mitrano\tNo\tCambridge\tMassachusetts\t2138\tUSA\tHarvard University\tR1\/Research\tResearch\tR1\tOSM\t42.375100\t-71.105616\nR0083\tModeling epitaxial growth and conversion of semiconductor and dielectric heterostructures in the Mo-Zr-S-O and Mo-Hf-S-O systems\tRafael Jaramillo\tNo\tCambridge\tMassachusetts\t02139\tUSA\tMassachusetts Institute of Technology\tR1\/Research\tResearch\tR1\tOSM\t42.375100\t-71.105616\nR0084\tGraphene encapsulated 2D metals for catalysis\tSusan Fullerton\tYes\tPittsburgh\tPennsylvania\t15206\tUSA\tUniversity of Pittsburgh\tR1\/Research\tResearch\tR1\tOSM\t40.441694\t-79.990086\nR0085\tLanthanide Doping of MoS2 Crystals for Future Single Photon Sources\tAnton Malko\tYes\tRichardson\tTexas\t75080\tUSA\tUniversity of Texas at Dallas\tR1\/Research\tResearch\tR1\tOSM\t32.948179\t-96.729721\nR0086\tSynthesis Mechanisms, Structure and Transport Properties of Mixed-Dimensional III-V-on-2D Heterostructures for Electric Double Layer Gate-All-Around Transistors and Photodetectors\tKe Xu\tYes\tRochester\tNew York\t14623\tUSA\tRochester Institute of Technology\tNon-R1\/Research\tResearch\tNon-R1\tOSM\t43.157285\t-77.615214\nR0087\tPreparation of van der Waals Moire structures of magic angle twisted trilayer graphene integrated with a transition metal chalcogenide and related structures\tYing Liu\tNo\tUniversity Park\tPennsylvania\t16802\tUSA\tPenn State University\tR1\/Research\tResearch\tR1\tAPPROXIMATE\t40.808408\t-77.863883\nR0088\tLocalized spin-magnetic moments and heterogenous band gaps in two-dimensional metal alloys\tWilliam Blades\tYes\tHuntingdon\tPennsylvania\t16652\tUSA\tJuniata College\tNon-R1\/Research\tResearch\tNon-R1\tAPPROXIMATE\t40.484796\t-78.010281\nR0089\tToward Low Resistance p-Type Contacts to Monolayer and Bilayer WSe2\tEric Pop\tYes\tStanford\tCalifornia\t94305\tUSA\tStanford University\tR1\/Research\tResearch\tR1\tAPPROXIMATE\t37.413576\t-122.168928\nS0001\tMultifunctional WSe2\/Si Hybrid Devices for Electronic and Gas Sensing Applications\tIdalia Ramos\tYes\tHumacao\tPuerto Rico\t791\tUSA\tUniversity of Puerto Rico at Humacao\tNon-R1\/Sample\tSample\tNon-R1\tGEOMETRIC_CENTER\t18.144710\t-65.809201\nS0003\tTopological Insulator induced magnetic dynamics\tLuqiao Liu\tYes\tCambridge\tMassachusetts\t2139\tUSA\tMassachusetts Institute of Technology\tR1\/Sample\tSample\tR1\tRANGE_INTERPOLATED\t42.392272\t-71.123846\nS0004\tDetermining the Optical Properties of MoS2 Intercalated with Graphene\tStephen McDonnell\tYes\tCharlottesville\tVirginia\t22904\tUSA\tUniversity of Virginia\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t38.034028\t-78.510016\nS0005\tFundamental study of photovoltaic conversion in MoS2 solar energy funnels\tFrancesca Cavallo\tYes\tAlbuquerque\tNew Mexico\t87048\tUSA\tUniversity of New Mexico\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t35.244067\t-106.617342\nS0006\t2DCC-MIP\tThomas F Kuech\tYes\tMadison\tWisconsin\t53706\tUSA\tUniversity of Wisconsin - Madison\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t43.105433\t-89.426929\nS0007\tElectronic transport in strained two-dimensional materials\tMichael Pettes\tYes\tStorrs\tConnecticut\t6269\tUSA\tUniversity of Connecticut\tR1\/Sample\tSample\tR1\tGEOMETRIC_CENTER\t41.807741\t-72.253981\nS0008\tBi2Se3\/YIG and (Bi,Sb)2Te3\/YIG samples for spin-Seebeck measurements\tRoberto Myers\tYes\tColumbus\tOhio\t43210\tUSA\tThe Ohio State University\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t39.999063\t-83.017339\nS0009\tWSe2 MOSFETs and CMOS Integration\tJames Hwang\tYes\tBethlehem\tPennsylvania\t18015\tUSA\tLehigh University\tNon-R1\/Sample\tSample\tNon-R1\tAPPROXIMATE\t40.596770\t-75.376195\nS0010\t2D Materials for Cavity-Modified Optical Properties\tWeidong Zhou\tYes\tArlngton\tTexas\t76019\tUSA\tUniversity of Texas at Arlington\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t32.730747\t-97.116401\nS0011\tValley Carrier Dynamics in Atomically Thin 2D Semiconductors\tHebin Li\tYes\tMiami\tFlorida\t33199\tUSA\tFlorida International University\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t25.753898\t-80.377044\nS0012\tFerromagnetic Dependent Spin-orbit Torque Efficiency in Topological Insulators\tLuqiao Liu\tNo\tCambridge\tMassachusetts\t2139\tUSA\tMassachusetts Institute of Technology\tR1\/Sample\tSample\tR1\tRANGE_INTERPOLATED\t42.392272\t-71.123846\nS0013\tExploring Topological Insulators via Spectroscopic Ellipsometry\tFrank Peiris\tYes\tGambier\tOhio\t43022\tUSA\tKenyon College\tNon-R1\/Sample\tSample\tNon-R1\tAPPROXIMATE\t40.375619\t-82.397104\nS0014\tUnveiling the structure of 2D TMDC materials and graphene using electron diffraction\tGwo-Ching Wang\tYes\tTroy\tNew York\t12189\tUSA\tRensselaer Polytechnic Institute\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t42.739782\t-73.718364\nS0015\tNear-field optics of 2d-material heterostructures\tSlava V. Rotkin\tYes\tUniversity Park\tPennsylvania\t16802\tUSA\tPenn State University\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t40.808408\t-77.863883\nS0016\t2DLMs for biosensing and energy storage applications\tTetyana Ignatova\tYes\tGreensboro\tNorth Carolina\t27401\tUSA\tUniversity of North Carolina at Greensboro\tNon-R1\/Sample\tSample\tNon-R1\tAPPROXIMATE\t36.067604\t-79.756811\nS0017\tNovel (Opto)electronic Devices based on Large-area CVD-grown Two-Dimensional (2D) Crystals\tAmin Azizi\tYes\tBerkeley\tCalifornia\t94720\tUSA\tUniversity of California at Berkeley\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t37.870151\t-122.259461\nS0018\tEpitaxial Growth of Hexagonal Boron Nitride on SiC\tChris Palmstr\u00f8m\tYes\tSanta Barbara\tCalifornia\t93106\tUSA\tUniversity of California, Santa Barbara\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t34.413587\t-119.849698\nS0019\tTemperature and field dependent conduction of graphene-polymer structures\tMichael T. Lanagan\tYes\tUniversity Park\tPennsylvania\t16802\tUSA\tPenn State University\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t40.808408\t-77.863883\nS0020\tInvestigating circular photogalvanic effect in topological insulator (Bi1-xSex)2Te3 in the mid-infrared band\tMo Li\tYes\tMinneapolis\tMinnesota\t55455\tUSA\tUniversity of Minnesota\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t44.974156\t-93.234200\nS0021\tRaman and Electromechanical Coupling of WS2 and WSe2\tEdward Yu\tYes\tAustin\tTexas\t78758\tUSA\tUniversity of Texas at Austin\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t30.387069\t-97.703656\nS0022\tDirect Visualization of Chiral Edge Modes in the Quantum Anomalous Hall Effect\tKatya Nowack\tYes\tIthaca\tNew York\t14853\tUSA\tCornell University\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t42.446705\t-76.483058\nS0023\tOptical Manipulation of Transition Metal Dichalcogenide with Sub-nanometer Metal-Insulator-Semiconductor Cavity\tShengxi  Huang\tYes\tUniversity Park\tPennsylvania\t16802\tUSA\tPenn State University\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t40.808408\t-77.863883\nS0024\tStructure of 2D Materials\tKondapalli V L V Narayanachari\tYes\tEvanston\tIllinois\t60202\tUSA\tNorthwestern University\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t42.030129\t-87.682768\nS0025\tManipulation of magnetization dynamics using pure spin currents in topological insulators\tMingzhong Wu\tYes\tFort Collins\tColorado\t80523\tUSA\tColorado State University\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t40.570270\t-105.090356\nS0026\tCarrier Dynamics and Mobilities in 2D-Polymer Heterojunctions and Acid Treated 2D Materials\tMarvin Wu\tYes\tDurham\tNorth Carolina\t27707\tUSA\tNorth Carolina Central University\tNon-R1\/Sample\tSample\tNon-R1\tAPPROXIMATE\t35.953096\t-78.957107\nS0027\tEpitaxial graphene substrates for STM studies of exfoliated materials\tBenjamin Hunt\tYes\tPittsburgh\tPennsylvania\t15213\tUSA\tCarnegie Mellon University\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t40.437926\t-79.955642\nS0029\tTunable Plasmons in Topological Insulators\tHarry Atwater\tYes\tPasadena\tCalifornia\t91125\tUSA\tCalifornia Institute of Technology\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t34.137887\t-118.124703\nS0030\tGeneration of Giant Spin Orbit Torque in Topological Insulator\/Spinel Ferrite Heterostructure\tPeng Li\tYes\tStanford\tCalifornia\t94305\tUSA\tStanford University\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t37.413576\t-122.168928\nS0031\tElectrochemical Sensing Performance of TMD\/Graphene Heterostructures\tAida Ebrahimi\tYes\tUniversity Park\tPennsylvania\t16802\tUSA\tPenn State University\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t40.808408\t-77.863883\nS0032\tProximitization of chiral fermion modes in QAHE regime of Cr-doped (Bi,Sb)2Te3 films\tNai-Phuan Ong\tYes\tPrinceton \tNew Jersey\t8544\tUSA\tPrinceton University\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t40.357298\t-74.667223\nS0033\tDomain wall between quantum anomalous Hall insulator and axion insulator\tDavid Goldhaber-Gordon\tYes\tStanford\tCalifornia\t94305\tUSA\tStanford University\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t37.413576\t-122.168928\nS0034\tHe Ion Based Defect Engineering of MoS2 Monolayers\tShyam Aravamudhan\tYes\tGreensboro\tNorth Carolina\t27401\tUSA\tNorth Carolina A&T State University\tNon-R1\/Sample\tSample\tNon-R1\tAPPROXIMATE\t36.067604\t-79.756811\nS0035\tRequest for Single-Layer Fims for Studies of Reactivity of Contacts to Transition Metal Dichalcogenides\tSuzanne Mohney\tYes\tUniversity Park\tPennsylvania\t16802\tUSA\tPenn State University\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t40.808408\t-77.863883\nS0036\tMid-infrared Optoelectronics Based on Graphene Metasurfaces\tYu Yao\tYes\tTempe\tArizona\t85287\tUSA\tArizona State University\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t33.418294\t-111.931192\nS0037\tGeneration of Spin Current and Spin-orbit Torques from Topological Surface States by Applying Thermal Gradient\tArnab Bose\tYes\tIthaca\tNew York\t14853\tUSA\tCornell University\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t42.446705\t-76.483058\nS0038\tNonlinear Optical Crystal\tVenkatraman Gopalan\tYes\tUniversity Park\tPennsylvania\t16802\tUSA\tPenn State University\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t40.808408\t-77.863883\nS0039\t2D Ferroelectric Transport\tYing Liu\tYes\tUniversity Park\tPennsylvania\t16802\tUSA\tPenn State University\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t40.808408\t-77.863883\nS0040\tPlasmonic Strong Coupling Between WSe2 Monolayer and Gold Nanorods in Arrays\tJae Yong Suh\tYes\tHoughton\tMichigan\t49931\tUSA\tMichigan Technological University\tNon-R1\/Sample\tSample\tNon-R1\tAPPROXIMATE\t47.121133\t-88.569418\nS0041\tDeterministic Defect Emission from Epitaxial TMD Thin Films\tMichael Pettes\tNo\tLos Alamos\tNew Mexico\t87545\tUSA\tLos Alamos National Laboratory\tGov\/Sample\tSample\tGov\tAPPROXIMATE\t35.890000\t-106.310000\nS0042\tLarge area p-type WSe2 FETs for RF applications\tHuili Grace Xing\tYes\tIthaca\tNew York\t14853\tUSA\tCornell University\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t42.446705\t-76.483058\nS0043\tDynamics of the antiferromagnetic topological insulator MnBi2Te4\tNuh Gedik\tYes\tCambridge\tMassachusetts\t2139\tUSA\tMIT\tR1\/Sample\tSample\tR1\tRANGE_INTERPOLATED\t42.392272\t-71.123846\nS0044\tIn Situ Characterizations of Intercalation Dynamics in 2D Transition Metal Dichalcogenides\tJudy Cha\tYes\tNew Haven \tConnecticut\t6511\tUSA\tYale University\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t41.321291\t-72.928339\nS0045\tIntegration of Large-Area 2D TMD Electronics in SUNY Poly\u2019s Advanced 300mm Fabrication Facility\tJi Ung Lee\tYes\tAlbany\tNew York\t12203\tUSA\tSUNY Polytechnic Institute\tNon-R1\/Sample\tSample\tNon-R1\tAPPROXIMATE\t42.682318\t-73.847787\nS0046\tOptoelectronic Modulation in Transition Metal Dichalcogenides Bulk Crystals\tZakaria Al Balushi\tYes\tBerkeley\tCalifornia\t94720\tUSA\tUniversity of California, Berkeley\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t37.870151\t-122.259461\nS0047\t2D Memory\tDeji Akinwande\tYes\tAustin\tTexas\t78758\tUSA\tUniversity of Texas at Austin\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t30.387069\t-97.703656\nS0048\tUnveiling the wafer scale perfection of 2D TMDC materials using 2D reciprocal space mapping with electron diffraction\tGwo-Ching Wang\tNo\tTroy\tNew York\t12189\tUSA\tRensselaer Polytechnic Institute\tNon-R1\/Sample\tSample\tNon-R1\tAPPROXIMATE\t42.739782\t-73.718364\nS0049\tElectron-Photon Coupling in Quasi-One-Dimensional va der Waals Materials\tYaqiong Xu\tYes\tNashville\tTennessee\t37212\tUSA\tVanderbilt University\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t36.139016\t-86.796924\nS0050\tTopologically-Protected Weyl Semimetals for Low Temperature Transport Studies\tVikram Deshpande\tYes\tSalt Lake City\tUtah\t84112\tUSA\tUniversity of Utah\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t40.765220\t-111.841954\nS0052\tStudy on FeTe1-xSex based Josephson Junctions\tKin Fai Mak\tYes\tIthaca\tNew York\t14853\tUSA\tCornell University\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t42.446705\t-76.483058\nS0053\tDevelopment of an Electronic Microchip for Real-time Label-free Quantification of Conjugation\tAida Ebrahimi\tNo\tUniversity Park\tPennsylvania\t16802\tUSA\tPenn State University\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t40.808408\t-77.863883\nS0055\tScanning Probe Spectroscopy of 2D Electronic Materials\tWilliam Willson\tYes\tCambridge\tMassachusetts\t02138\tUSA\tHarvard University\tR1\/Sample\tSample\tR1\tOSM\t42.375100\t-71.105616\nS0056\tWeyl Superconductivity in MoSTe2\tVidya Madhavan\tYes\tChampaign\tIllinois\t61822\tUSA\tUniversity of Illinois, Urbana-Champaign\tR1\/Sample\tSample\tR1\tOSM\t40.116420\t-88.243383\nS0057\tHeterostructures for Studies of Axion Insulators\tMingzhong Wu\tNo\tFort Collins\tColorado\t80523\tUSA\tColorado State University\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t40.570270\t-105.090356\nS0058\tExploration of Topological Magnet MnBi2Te4\tXiaodong Xu\tYes\tSeattle\tWashington\t98195\tUSA\tUniversity of Washington\tR1\/Sample\tSample\tR1\tOSM\t47.603832\t-122.330062\nS0059\tNano-imaging of the insulator-metal transition in Ti-doped Ca3Ru2O7 crystals\tDimitri Basov\tYes\tNew York\tNew York\t10027\tUSA\tColumbia University\tR1\/Sample\tSample\tR1\tOSM\t40.712728\t-74.006015\nS0060\tMicrowave Imaging of Metal-Insulator Transition in Ti-doped Ca3Ru2O7\tKeji Lai\tYes\tAustin\tTexas\t78712\tUSA\tUniversity of Texas at Austin\tR1\/Sample\tSample\tR1\tOSM\t30.271129\t-97.743700\nS0061\tThermal transport in NbSe3 Nanowires\tDeyu Li\tYes\tNashville\tTennessee\t37212\tUSA\tVanderbilt University\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t36.139016\t-86.796924\nS0062\tUltrafast optical characterization of MnBi2Te4\tVenkatraman Gopalan\tNo\tUniversity Park\tPennsylvania\t16802\tUSA\tPenn State University\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t40.808408\t-77.863883\nS0063\tDeveloping 2D Processing Capabilities for the NNCI User Community\tSteven Koester\tYes\tMinneapolis\tMinnesota\t55455\tUSA\tUniversity of Minnesota\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t44.974156\t-93.234200\nS0064\tModulation of Valley Dynamics in a Monolayer Semiconductor through Chiral Purcell Effects\tYuebing Zheng\tYes\tAustin\tTexas\t78712\tUSA\tThe University of Texas at Austin\tR1\/Sample\tSample\tR1\tOSM\t30.271129\t-97.743700\nS0065\tLarge-Area TMDC Absorbers and Metasurfaces\tDeep Jariwala\tYes\tPhiladelphia\tPennsylvania\t19104\tUSA\tUniversity of Pennsylvania\tR1\/Sample\tSample\tR1\tOSM\t39.952724\t-75.163526\nS0066\tOptically-active spin qubits in two-dimensional materials\tDavid Awschalom\tYes\tChicago\tIllinois\t60637\tUSA\tUniversity of Chicago\tR1\/Sample\tSample\tR1\tOSM\t41.875562\t-87.624421\nS0067\tStabilizing Metastable 2D Structures and Superlattices at Epitaxial Graphene Interface\tZakaria Al Balushi\tNo\tBerkeley\tCalifornia\t94720\tUSA\tUniversity of California, Berkeley\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t37.870151\t-122.259461\nS0068\tPassivation of Silicon by Graphene for Photoelectrochemical Applications\tGiovanni Zangari\tYes\tCharlottesville\tVirginia\t22903\tUSA\tUniversity of Virginia\tR1\/Sample\tSample\tR1\tOSM\t38.029306\t-78.476678\nS0069\tManipulating the valley pseudospin by proximity effect in monolayer TMD\/Fe3GeTe2 heterostructure\tXiaotian Zhang\tYes\tBerkeley\tCalifornia\t94720\tUSA\tLawrence Berkeley National Laboratory\tGov\/Sample\tSample\tGov\tAPPROXIMATE\t37.870151\t-122.259461\nS0070\tAtomically thin solar cells for future lightweight, mobile and space applications\tArtur Davoyan\tYes\tLos Angeles\tCalifornia\t90095\tUSA\tUniversity of California, Los Angeles\tR1\/Sample\tSample\tR1\tOSM\t34.053691\t-118.242767\nS0071\tIsing Model Analysis of (W,Mo)Chalcogenide Thin Films\tSteve Durbin\tYes\tKalamazoo\tMichigan\t49008\tUSA\tWestern Michigan University\tNon-R1\/Sample\tSample\tNon-R1\tOSM\t42.291707\t-85.587229\nS0072\tARPES study of FeTe1-xSex\tDonghui Lu\tYes\tMenlo Park\tCalifornia\t94025\tUSA\tStanford University\tR1\/Sample\tSample\tR1\tOSM\t37.451967\t-122.177993\nS0073\tData-Driven Assessment of MOCVD Grown 2D Transition Metal Dichalcogenides\tPrasanna Balachandran\tYes\tCharlottesville\tVirginia\t22904\tUSA\tUniversity of Virginia\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t38.034028\t-78.510016\nS0074\tProbing topological electronic properties of MnBi2-xSbxTe4 via thermal transport studies\tXanglin Ke\tYes\tEast Lansing\tMichigan\t48824\tUSA\tMichigan State University\tR1\/Sample\tSample\tR1\tOSM\t42.735542\t-84.485247\nS0075\tMBE growth of PdTe2\/(BixSb1-x)2Te3 heterostructures for topological superconductivity\tDavid Goldhaber-Gordon\tNo\tStanford\tCalifornia\t94305\tUSA\tStanford University\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t37.413576\t-122.168928\nS0076\tUltrafast studies of charge density wave dynamics in TaTe2\tDaniele Filippetto\tYes\tBerkeley\tCalifornia\t94720\tUSA\tLawrence Berkeley National Laboratory\tGov\/Sample\tSample\tGov\tAPPROXIMATE\t37.870151\t-122.259461\nS0077\tCollaboration to Grow 2D Materials on Large Scale Industrial MOCVD Reactors\tOliver Whear\tYes\tCambridge\t\tCB24 4FQ\tUnited Kingdom\tAIXTRON LTD\tIndustry\/Sample\tSample\tIndustry\tOSM\t52.246997\t0.080544\nS0078\tNMR studies of quantum behavior in topological nodal-line semimetals\tJoseph Ross\tYes\tCollege Station\tTexas\t77843\tUSA\tTexas A&M University\tR1\/Sample\tSample\tR1\tOSM\t30.595529\t-96.307104\nS0079\tTopologically Enabled Devices\tBerend Jonker\tYes\tWashington\tDistrict of Columbia\t20375\tUSA\tNaval Research Laboratory\tGov\/Sample\tSample\tGov\tAPPROXIMATE\t38.826107\t-77.017223\nS0081\tQuasi-2D Nanostructured Sulvanites\tDaniela Radu\tYes\tMiami \tFlorida\t33174\tUSA\tFlorida International University\tR1\/Sample\tSample\tR1\tOSM\t25.774266\t-80.193659\nS0082\tMagneto-infrared study of novel quantum materials\tDmitri Basov\tNo\tNew York\tNew York\t10027\tUSA\tColumbia University\tR1\/Sample\tSample\tR1\tOSM\t40.712728\t-74.006015\nS0083\tLow Temperature Deposition of Magnetic Material on Topological Materials\tNian-Xiang Sun\tYes\tBoston\tMassachusetts\t02115\tUSA\tNortheastern University\tR1\/Sample\tSample\tR1\tOSM\t42.360253\t-71.058291\nS0084\tUltra low power optical sensors based on stochastic resonance\tSaptarshi Das\tYes\tUniversity Park\tPennsylvania\t16802\tUSA\tPenn State University\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t40.808408\t-77.863883\nS0085\tUnderstanding the topology of MnBi2Te4 using non-equilibrium photoemission spectroscopy\tShuolong Yang\tYes\tChicago\tIllinois\t60637\tUSA\tThe University of Chiacago\tR1\/Sample\tSample\tR1\tOSM\t41.875562\t-87.624421\nS0086\tTopological and Weyl Superconductos for Spintronics\tKang L. Wang\tYes\tLos Angeles\tCalifornia\t90095\tUSA\tUniversity of California, Los Angeles\tR1\/Sample\tSample\tR1\tOSM\t34.053691\t-118.242767\nS0087\tEpitaxial growth of WSe2 on hexagonal boron nitride single crystals\tJames Edgar\tYes\tManhattan\tKansas\t66506\tUSA\tKansas State University\tR1\/Sample\tSample\tR1\tOSM\t39.183608\t-96.571669\nS0088\t2D Material \/ CMOS Integration\tAnand Chamarthy\tYes\tAustin\tTexas\t78703\tUSA\tLab 91\tIndustry\/Sample\tSample\tIndustry\tOSM\t30.271129\t-97.743700\nS0089\tDynamic Tuning of Thermal Transport\tDaryoosh Vashaee\tYes\tRaleigh\tNorth Carolina\t27606\tUSA\tNorth Carolina State University\tR1\/Sample\tSample\tR1\tOSM\t35.780398\t-78.639099\nS0090\tSamples for a beta-NMR Study of Topological Surface States in Fe1+y(Te1-xSex)\tOscar Bernal\tYes\tLos Angeles\tCalifornia\t90032\tUSA\tCal State University, Los Angeles\tNon-R1\/Sample\tSample\tNon-R1\tOSM\t34.053691\t-118.242766\nS0091\tInvestigating the role of dark excitons in quantum emitters in 2D semiconductors\tNick Borys\tYes\tBozeman\tMontana\t59717\tUSA\tMontana State University\tNon-R1\/Sample\tSample\tNon-R1\tOSM\t45.679429\t-111.044047\nS0092\tPEEM Studies of Intercalated Graphene Systems\tSujitra Pookpanratana\tYes\tGaithersburg\tMaryland\t20899\tUSA\tNational Institute of Standards and Technology\tGov\/Sample\tSample\tGov\tOSM\t39.143441\t-77.201370\nS0093\tObservation of the Quantum Confined Stark Effect in Two-Dimensional Transition Metal Dichalcogenides\tAshwani Sharma\tYes\tAlbuquerque\tNew Mexico\t87131\tUSA\tAir Force Research Laboratory\tGov\/Sample\tSample\tGov\tOSM\t35.084103\t-106.650985\nS0094\tImaging Majorana Modes in WTe2 Josephson Junctions\tMonica Allen\tYes\tLa Jolla\tCalifornia\t92093\tUSA\tUniversity of California San Diego\tR1\/Sample\tSample\tR1\tOSM\t32.832590\t-117.271684\nS0095\tSample Request: Monolayer 2D Materials on Sapphire for Remote Epitaxy of Heusler Membranes\tJason Kawasaki\tYes\tMadison\tWisconsin\t53706\tUSA\tUniversity of Wisconsin - Madison\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t43.105433\t-89.426929\nS0096\tNative Oxides of Layered and Two-dimensional Semiconductors\tRafael Jaramillo\tNo\tCambridge\tMassachusetts\t02139\tUSA\tMIT\tR1\/Sample\tSample\tR1\tOSM\t42.375100\t-71.105616\nS0097\t2D-material Enabled Synthesis of Complex-oxide Membranes\tJeehwan Kim\tYes\tCambridge\tMassachusetts\t02139\tUSA\tMIT\tR1\/Sample\tSample\tR1\tOSM\t42.375100\t-71.105616\nS0098\tOptical Study of 2D Magnetism in Magnetic van der Waals Crystals\tCheng Gong\tYes\tCollege Park\tMaryland\t20742\tUSA\tUniversity of Maryland College Park\tR1\/Sample\tSample\tR1\tOSM\t38.980666\t-76.936919\nS0099\tExploring Transport Properties of Ultra-thin MnBi2Te4\tShengxi Huang\tNo\tUniversity Park\tPennsylvania\t16802\tUSA\tPenn State University\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t40.808408\t-77.863883\nS0100\tMonolayer MoS2 Photoelectrodes for Hot Carrier Photoelectrochemistry Studies\tJustin Sambur\tYes\tFort Collins\tColorado\t80528\tUSA\tColorado State University\tR1\/Sample\tSample\tR1\tOSM\t40.550853\t-105.066808\nS0101\tCryo-optical Spectroscopy of Gas-infused Two-dimensional MoS2\tAssel Aitkaliyeva\tYes\tGainesville\tFlorida\t32611\tUSA\tUniversity of Florida\tR1\/Sample\tSample\tR1\tOSM\t29.651968\t-82.324985\nS0102\tMonolayer MoS2 on (0001) Sapphire to Fabricate Broadband Optoelectronic Synapse for Image Identification\tTania Roy\tYes\tOrlando\tFlorida\t32816\tUSA\tUniversity of Central Florida\tR1\/Sample\tSample\tR1\tOSM\t28.542111\t-81.379030\nS0105\tGraphene: 2D Quantum Material Fabrication Platform\tChih-Kang Shih\tYes\tAustin\tTexas\t78712\tUSA\tUniversity of Texas at Austin\tR1\/Sample\tSample\tR1\tOSM\t30.271129\t-97.743700\nS0110\tUncovering Many Body Physics and its Polaritonic Applications in CVD-grown TMD Microcavities\tBurcu Ozden\tYes\tElkins Park\tPennsylvania\t19207\tUSA\tPenn State University, Abington\tR1\/Sample\tSample\tR1\tOSM\t40.071214\t-75.127844\nS0111\tProbing the Raman Enhancement of TiSe2 and TiS2 vdW Heterostructures\tShengxi Huang\tNo \tUniversity Park\tPennsylvania\t16802\tUSA\tPenn State University\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t40.808408\t-77.863883\nS0112\tReactions at Defects in Transition Metal Dichalcogenide Materials for Energy Applications\tPetra Reinke\tYes\tCharlottesville\tVirginia\t22904\tUSA\tUniversity of Virginia\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t38.034028\t-78.510016\nS0113\tElectronic Structure Study of Transition Metal Diselenides Using High Energy Resolution Fluorescence\tJordi Cabana\tYes\tChicago \tIllinois\t60607\tUSA\tUniversity of Illinois at Chicago\tR1\/Sample\tSample\tR1\tOSM\t41.875562\t-87.624421\nS0114\tInelastic X-Ray Scattering for 2H-MoSe2\tZhiting Tian\tYes\tIthaca\tNew York\t14853\tUSA\tCornell University\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t42.446705\t-76.483058\nS0115\tTMD Wearable E-Tattoos for Biosensing Applications\tDeji Akinwande\tNo\tAustin\tTexas\t78758\tUSA\tUniversity of Texas at Austin\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t30.387069\t-97.703656\nS0116\tMajorana Bound States in Two Dimensions\tJoshua Island\tYes\tLas Vegas\tNevada\t89154\tUSA\tUniversity of Nevada, Las Vegas\tNon-R1\/Sample\tSample\tNon-R1\tOSM\t36.167256\t-115.137530\nS0117\tQuantum Sensing with Defects in Transition Metal Dichalcogenides\tBirol Ozturk\tYes\tBaltimore\tMaryland\t21251\tUSA\tMorgan State University\tNon-R1\/Sample\tSample\tNon-R1\tOSM\t39.290882\t-76.610759\nS0118\tOptical Limiting of High Energy Lasers by Reusable Multilayered Photonic Nanostructured Coatings\tDouglas Wolfe\tYes\tUniversity Park\tPennsylvania\t16802\tUSA\tPenn State University\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t40.808408\t-77.863883\nS0119\tQuantum Anomalous Hall Electrical Standards\tAlbert Rigosi\tYes\tGaithersburg\tMaryland\t20899\tUSA\tNational Institute of Standards and Technology\tGov\/Sample\tSample\tGov\tOSM\t39.143441\t-77.201370\nS0121\tRemote Epitaxy of Complex Oxides Using Dry Transferred Graphene\tBharat Jalan\tYes\tMinneapolis\tMinnesota\t55455\tUSA\tUniversity of Minnesota\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t44.974156\t-93.234200\nS0122\t2D Piezoelectric, Magnetic Materials and Their Heterostructures for Magnetoelectric (ME) Applications\tDhiren Pradhan\tYes\tKnoxville\tTennessee\t37996\tUSA\tThe University of Tennessee, Knoxville\tR1\/Sample\tSample\tR1\tOSM\t35.951635\t-83.930882\nS0123\tDomain imaging and controlling in MnBi2Te4 families via nonlinear optical techniques\tLiang Wu\tYes\tPhiladelphia\tPennsylvania\t19104\tUSA\tUniversity of Pennsylvania\tR1\/Sample\tSample\tR1\tOSM\t39.952724\t-75.163526\nS0125\tProbing quantum spin liquid phase in single-layer 1T-TaSe2\tMichael Crommiee\tYes\tBerkeley\tCalifornia\t94720\tUSA\tUniversity of California, Berkeley\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t37.870151\t-122.259461\nS0127\tAzimuthal RHEED study of TMDC monolayer on AlN film and vertically stacked TMDC monolayers heterostructure\tGwo-Ching Wang\tNo\tTroy\tNew York\t12189\tUSA\tRensselaer Polytechnic Institute\tNon-R1\/Sample\tSample\tNon-R1\tAPPROXIMATE\t42.739782\t-73.718364\nS0128\tStrain Engineering of Excitons in 2D TMD Heterobilayers\tZakaria Al Balushi\tNo \tBerkeley\tCalifornia\t94720\tUSA \tUniversity of California, Berkeley\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t37.870151\t-122.259461\nS0129\tStabilizing 2D Phosphorous Allotropes at Confined Heterointerfaces\tZakaria Al Balushi\tNo \tBerkeley\tCalifornia\t94720\tUSA \tUniversity of California, Berkeley\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t37.870151\t-122.259461\nS0132\tStrain Engineering in Quantum Anomalous Hall Insulators\tMortyeza Kayyalha\tYes\tUniversity Park\tPennsylvania\t16802\tUSA\tPenn State University\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t40.808408\t-77.863883\nS0133\tQuasi van der Waals Epitaxy on Phase Change Materials and Ordered Intermetallic Alloys\tSuzanne Mohney\tNo \tUniversity Park\tPennsylvania\t16802\tUSA\tPenn State University\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t40.808408\t-77.863883\nS0134\tPhotogalvanic Effects in Twinned Bi2Se3 Films \tArnold Kiefer\tYes\tWright-Patterson AFB\tOhio\t45433\tUSA\tAir Force Research Laboratory\tGov\/Sample\tSample\tGov\tOSM\t39.820405\t-84.050956\nS0135\tStudying and manipulating Interfacial Magnetism in Topological Insulator\/Ferromagnetic Insulator Heterostructures\tYuri Suzuki\tYes\tStanford\tCalifornia\t94305\tUSA\tStanford University\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t37.413576\t-122.168928\nS0138\tSingle Orientation 2D Semiconductors for Anomalous Bulk Photovoltaic Devices\tAndrew Mannix\tYes\tStanford\tCalifornia\t94305\tUSA\tStanford University\tR1\/Sample\tSample\tR1\tAPPROXIMATE\t37.413576\t-122.168928\nS0139\tEmergent Spin Texture in Metamagnetic Transitions in Antiferromagnetic Topological Insulators\tWeida Wu\tYes\tRutgers 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Wen\tYes\tLemont\tIllinois\t60439\tUSA\tArgonne National Laboratory\tGov\/Sample\tSample\tGov\tOSM\t41.673715\t-88.001626\nS0151\tEstablishment of structure-millimeter wave photoconductance property of Hafnium di-selenide thin films\tBiswadev Roy\tYes\tDurham\tNorth Carolina\t27707\tUSA\tNorth Carolina Central University\tNon-R1\/Sample\tSample\tNon-R1\tAPPROXIMATE\t35.953096\t-78.957107\nS0152\tTerahertz Spectroscopies of Transition Metal Dichalcogenides Moir\u00e9 Heterostructures\tLiang Wu\tNo\tPhiladelphia\tPennsylvania\t19104\tUSA\tUniversity of Pennsylvania\tR1\/Sample\tSample\tR1\tOSM\t39.952724\t-75.163526\nS0153\tApplication of TMDCs in Various Fields\tSachin Shinde\tYes\tSomersham\t\tPE28 3EB\tUnited Kingdom\tParagraf Limited\tIndustry\/Sample\tSample\tIndustry\tOSM\t52.396395\t0.011380\nS0154\tElectrical Properties and Device Performance of MOCVD grown TMDCs\tDavid Estrada\tYes\tBoise \tIdaho\t83725\tUSA\tBoise State 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