Journal papers


Mukherjee, S.; Dutta, D.; Gosh, A.; Koren, E.; ” Graphene-In2Se3 van-der-Waals Heterojunction for optical in-memory Neuromorphic devices”, ACS Nano, in-press, 2023. Link.

Kexiu, R.; Xiaoyang, D.; Bo, W.; Dror, R.; Assael, C.; Liu, C.; Mohapatra, P.; Avinash, P.; Vladi, G.; Mukherjee, S.; Vladimir, K.; Ismach, A.; Koren, E.; Hasman, E.; “Spin-Valley Rashba monolayer laser”, Nature materials, 22, 1085-1093, 2023. Link.

Xiaoyang, D.; Bo, W.; Kexiu, R.; Liu, C.; Vladi, G.; Vladimir, K.; Mukherjee, S.; Koren, E.; Hasman, E.; “Valley-addressable monolayer lasing through spin-controlled berry phase photonic cavities”, Science, 381, 1429-1432, 2023. Link.

Uzhanski, M.; Mukherjee, S.; Vijayan, G.; Koren, E.; ” Non-volatile reconfigurable p-n junction utilizing in-plane ferroelectricity in 2D WSe2/α-In2Se3 asymmetric heterostructures”, Advanced functional materials, 2023. Link.

Debopriya, D.; Mukherjee, S.; Uzhanski, M.; Mohapatra, P.; Ismach, A.;Koren, E.; “Edge-           based 2D In2Se3-MoS2 ferroelectric field effect device”, ACS applied materials & interfaces, 15, 14, 2023Link.


Katznelson, S.; Cohn, B.; Kleiner, V.; Sufrin, S.; Mukherjee, S.; Mohapatra, P.; Ismach, A.;      Hasman, E.; Koren, E.;Bright excitonic multiplexing mediated by dark exciton elevator in two- dimensional TMDCs at room temperature”. Materials Horizons, 9, 3, 1089, 2022. Link.

Oz, I.; Debopriya, D.; Abraham N.; Hod, O.; Koren, E.; “Edge State Quantum Interference in          Sheared Twisted Graphitic Interfaces”, Advanced Science, 9, 2102261, 2022. Link.

Mukherjee, S.; Debopriya, D.; Uzhanski, M.; Koren, E.; “Monolithic In2Se3-In2O3 Heterojunction    for multibit non-volatile memory and logic operations using optoelectronic inputs”, npj 2D        Materials & applications, 6, 37, 2022. Link.

Mukherjee, S.; Koren, E.; Indium Selenide (In2Se3) – An Emerging Van-der-Waals Material          for Photodetection and Non-Volatile Memory Applications”. Israel Journal of Chemistry, 62, e202100112, 2022. Link.


Kafri, A.; Debopriya, D.; Ismach, A.; Koren, E.;Mask-less device fabrication and laser induced doping in MoS2 field effect transistors using thermally activated c-PPA resist” ACS applied materials & interfaces, 13, 04, 5399, 2021. Link.

Brill, A.; Santu B, Maytal C. T.; Ruiter, G.; Koren, E.; “Dipole-Induced Raman Enhancement Using Non-covalent Azobenzene Functionalized Self-Assembled Monolayers on Graphene Terraces”, ACS applied materials & interfaces, 13, 08, 10271, 2021. Link.

Brill, A.; Kafri, A.; Mohapatra, P.; Ismach A.; Ruiter, G.; Koren, E.; “Modulating the Optoelectronic Properties of MoS2 by Highly Oriented Dipole-Generating Monolayers”, ACS applied materials & interfaces, 13, 27, 32590, 2021. Link.

Brill, A.; Koren, E.; Ruiter, G.; “Molecular Functionalization of 2D-Materials: From Atomically Planar 2D Architectures to Off-Plane 3D Functional Materials”, Journal of materials chemistry C, 9, 11569, 2021. Link.

Hui, F.; Liu, P.; Stephan, H.; Tian, C.; Chao, W.; Felice, T.; Flavia, T.; Yue, L.; Enrique, M.; Juan, R.; Koren, E.; Ferrari, A.; Lanza, M.; “In Situ observation of low power nano-synaptic response in graphene oxide using conductive atomic force microscopy”, Small, 17, 2101100, 2021. Link.

Debopriya, D.; Mukherjee, S.; Uzhanski, M.; Koren, E.; “Cross-field optoelectronic modulation via inter-coupled ferroelectricity in 2D In2Se3”, npg 2D Materials & applications, 5, 81, 2021. Link.


Mukherjee, S.; Debopriya, D.; Mohapatra, P.; Dezanashvili, L.; Ismach, A.; Koren, E.; “Scalable Integration of Coplanar Heterojunction Monolithic Devices on Two-DimensionalIn2Se3”, ACS Nano, in press,, 2020. Link.

Debopriya, D.; Oz, I.; Hod, O.; Koren, E.; “The Scaling Laws of Edge vs. Bulk Interlayer  Conduction in Mesoscale Twisted Graphitic Interfaces”, Nature Comm., in press, 2020Link.

Brill, A.; Kuntumalla, M.; Ruiter, G.; Koren, E.; “Formation of Highly Ordered Self-Assembled        Monolayers on 2D Materials via Non-Covalent Functionalization”, ACS applied materials & interfaces, 2020. 12,30, 33941. doi/10.1021/acsami.0c09722. Link.

Rong, K.; Wang, B.; Reuven, A.; Maguid, E.; Cohn, B.; Kleiner, V.; Katznelson, S.; Koren, E.;   Hasman, E.; “Photonic Rashba effect from non-coherent quantum emitters mediated by Berry phase defective photonic crystal”, Nature Nanotech., 2020. doi/10.1038/s41565-020-0758-6. Link.


Hui, F.; Wen, C.; Chen, S.; Koren, E.; Dechter, R.; Lewis, D.; Lanza, M.; “Emerging Scanning Probe-
Based Setups for Advanced Nanoelectronic Research”, Advanced Functional Materials,
2019, 1901138, DOI 10.1002/adfm.201902776. Link.


Yaniv, R.; Koren, E.; “Robust superlubricity of gold-graphite heterointerfaces”, Advanced Functional Materials, 2019, 1901138, DOI 10.1002/adfm.201901138. Link.

Bessler, R.; Duerig, D.; Koren, E.; “The dielectric constant of Bilayer graphene interfaces”,          Nanoscale Advances, 2019, DOI 10.1039/C8NA00350E. Link.


Koren, E.; Duerig, D.; “Moire scaling of the sliding force in twisted bi-layer graphene”, Phys. Rev. B, 2016, 94, 045401. Link.

Koren, E.; Duerig, D.; “Superlubricity in quasicrystalline twisted bilayer graphene”, Phys. Rev. B, 2016, 93, 201404 (R). Link

Koren, E.; Leven, Itai.; Knoll, A.; Loertscher, E.; Hod, Oded.; Duerig, D.; “Coherent commensurate electronic states at the interface between misoriented graphene layers”, Nature Nanotech., 2016, 11, 752. Link


Koren, E.; Knoll, A.; Loertscher, E.; Duerig, D.; “Adhesion and friction of mesoscopic graphite sliding contacts”, Science, 2015, 348, 679. Link

*perspective article: Liechti, K.; “Understanding friction in layered materials”, Science, 2015, 348, 632. Link


Koren, E.; Knoll, A.; Loertscher, E.; Duerig, D.; “Direct experimental observation of stacking fault scattering in HOPG meso-structures“, Nature Comm. 2014, 5, 5837. Link

Koren, E.; Knoll, A.; Loertscher, E.; Duerig, D.; “Measurement of the spreading resistance of meso-scale circular contacts on HOPG”, Applied Physics Letters 2014, 123112, (105). Link


Koren, E.; Sutter, E.; Bliznakov, S.; Ivars-Barcelo, F.; Sutter, P.; “Isolation of high quality graphene from Ru by solution phase intercalation”, Applied Physics Letters 2013, 121602, (103). Link


Koren, E.; Rosenwaks. Y; Hemesath, E.A  R.; Lauhon, L. J., “Direct measurement of nanowire Schottky junction depletion region”, Applied Physics Letters 2011, 99, (22), 3521. Link

Koren, E.; Elias, G.; Boag, A.; Hemesath, E., Lauhon, L.J; Rosenwaks, Y.; “Direct measurement of individual deep traps in single silicon nanowire”, Nano Letters 2011, 11, (6), 2499-2502. Link

Givan, U.; Hyun, J.K.; Koren, E.; Lauhon, L.J.; and Rosenwaks, Y.; “Direct measurement of inhomogeneous longitudinal dopant distribution in SiNWs using nano-probe scanning Auger microscopy”, MRS proceeding, 2011, 1349. Link

Koren, E.; Givan, U.; Hemesath, E. R.; Lauhon, L. J.; Rosenwaks, Y., “Obtaining uniform dopant distribution in VLS-grown Si nanowires”, Nano Letters 2011, 11, (1), 183-187. Link


Koren, E.; Berkovitch, N.; Rosenwaks, Y., “Measurement of active dopant distribution and diffusion in individual Silicon nanowires,” Nano Letters 2010, 10, (4), 1163-1167. Link


Koren, E.; Rosenwaks, Y.; Allen, J. E.; Hemesath, E. R.; Lauhon, L. J., “Nonuniform doping distribution along silicon nanowires measured by Kelvin probe force microscopy and scanning photocurrent microscopy,” Applied Physics Letters 2009, 95, (9). Link


Ruhle, S.; Greenwald, S.; Koren, E.; Zaban, A., “Optical waveguide enhanced photovoltaics,” Optics Express 2008, 16, (26), 21801-21806. Link

Pol, V. G.; Koren, E.; Zaban, A., “Fabrication of continuous conducting gold wires by electrospinning,” Chemistry of Materials 2008, 20, (9), 3055-3062. Link