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Patents and Disclosures

(3) L.H. Hoang, A.I. Khan, R.K.A. Bennett, A.J. Mannix, E. Pop, “Topological Weyl Semimetals for P-Type Contacts to Atomically Thin Two-Dimensional Materials and Methods of Integrating the Same” US Utility Patent, Application Number: 63/572048 (2024)

(2)  A.I. Khan, H. Kwon, R. Islam, H.-S. P. Wong, K. E. Goodson, M. Asheghi, E. Pop, “Low-Power Phase Change Memory Technology with Interfacial Thermoelectric Heating Enhancement” US Utility Patent, Application Number: 17/498369 (2021)

(1) Z. Fang, A. Majumdar, R. Chen, J. Zheng, A.I. Khan, K. Neilson, S. Geiger, D. Callahan, M. Moebius, A. Saxena, M. Chen, C. Rios, J. Hu, E. Pop, “Ultra-low-energy non-volatile phase shifters” Provisional Patent, Application Number: 63/365135 (2022)

Journal Publications

(30) A.I. Khan*, J. Kim*, U. Sikder*, K. Das, T. Rodriguez, R. Soman, S. Chowdhury, S. Salahuddin, “Negative capacitance overcomes the Schottky-gate limit in GaN high-electron-mobility-transistor,” Science (Accepted), in Press, (2025).

(29) A.I. Khan, A. Ramdas, E. Lindgren, H. Kim, B. Won, X. Wu, H. Kwon, K. E. Goodson, K. Saraswat, H.-S. P. Wong, C-T. Chen, Y. Suzuki, F. H. Jornada, I-K. Oh, E. Pop, “Surface Conduction and Reduced Electrical Resistivity in Ultrathin Non-Crystalline NbP Semimetal,” Science 387, 62-67 (2025); DOI:10.1126/science.adq7096

(28) S.B. Hamid*, A.I. Khan*, H. Zhang, A.V. Davydov, E. Pop, “Low-Energy Spiking Neural Network using Ge4Sb6Te7 Phase Change Memory Synapses”, IEEE Electron Device Letters 45, 1819-1822 (2024); DOI: 10.1109/LED.2024.3439532 

(27) M. Noshin*, H. Kwon*, A.I. Khan*, S. P. Alaei, C. Meng, M. Asheghi, Y. Suzuki, S. Salahuddin, K.E. Goodson, S. Chowdhury, “Probing the Thermal and Electrical Properties of Ultrawide Bandgap Nitrogen-polar AlGaN Heterostructure,” Advanced Functional Materials 2403474 (2024). DOI: 10.1002/adfm.202403474

(26) Z. Fang, R. Chen, J.E. Fröch, Q.A.A. Tanguy, A.I. Khan, X. Wu, V. Tara, A. Manna, D. Sharp, C. Munley, F. Miller, Y. Zhao, S.J. Geiger, K. Böhringer, M. Reynolds, E. Pop, A. Majumdar, “Nonvolatile Phase-only Transmissive Spatial Light Modulator with Electrical Addressability of Individual Pixels, ACS Nano 18, 17, 11245–11256 (2024).

(25) X. Wu*, A.I. Khan*, H. Lee, C-F Hsu, H. Yu, N. Roy, I. Takeuchi, X. Bao, H.-S. P. Wong, E. Pop, “Novel Nanocomposite-Superlattices for Low Energy and High Stability Nanoscale Phase-Change Memory,” Nature Communications 15, 13 (2024) [Highlighted in Stanford Engineering News, IEEE Spectrum, MRS Bulletin Podcast, Semiconductor Engineering, Yahoo! News]

(24) I. M. Datye, S. Vaziri, E. Ambrosi, A.I. Khan, H. Kwon, C-H. Wu, C.-F. Hsu, J. Guy, T.-Y. Li, H.-S.P. Wong, X. Bao, "Forming-Free Selectors Based on Te in an Insulating SiOx Matrix," IEEE Transactions on Electron Devices 71, 1, 530-535, (2024).

(23) I-K. Oh*, A.I. Khan*, S. Qin, Y. Lee, H.-S. P. Wong, E. Pop, and S. F. Bent, “Area-Selective Atomic Layer Deposition for Resistive Random-Access Memory Devices,” ACS Applied Materials, and Interfaces 15, 36, 43087–43093 (2023)

(22) J. Zhao*, A.I. Khan*, M. Y. Efremov, Z. Ye, X. Wu, K. Kim, Z. Lee, H.-S. P. Wong, E. Pop, L. H. Allen, “Probing the Melting Transitions in Phase-change Superlattices via Thin Film Nano-calorimetry,” Nano Letters 23, 4587-4594 (2023)

(21) A.I. Khan, H. Yu, H. Zhang, J. Goggin, H. Kwon, X. Wu, C. Perez, K. Neilson, M. Asheghi, K.E. Goodson, P. Vora, A. Davydov, I. Takeuchi, and E. Pop, “Energy efficient neuro-inspired phase change memory based on Ge4Sb6Te7 as a novel epitaxial nanocomposite,” Advanced Materials, 35, 2300107 (2023).

(20) X. Wu*, A.I. Khan*, P. Ramesh, C. Perez, K. Kim, Z. Lee, K. Saraswat, K. E. Goodson, H.-S. P. Wong, and E. Pop, “Understanding Interface-Controlled Resistance Drift in Superlattice Phase Change Memory,” IEEE Electron Device Letters, 43, 15, 1669-1672 (2022). [Featured as Editors’ Pick]

(19) A.I. Khan, X. Wu, C. Perez, B. Won, K. Kim, P. Ramesh, H. Kwon, M. C. Tung, Z. Lee, I.K. Oh, K. Saraswat, M. Asheghi, K. E. Goodson, H.-S. P Wong, and E. Pop, “Unveiling the Effect of Superlattice Interfaces and Intermixing on Phase Change Memory Performance,” Nano Letters 22, 15, 6285–6291 (2022).

(18) A. Daus, M. Jaikissoon, A.I. Khan, A. Kumar, R. Grady, K. Saraswat, and E. Pop, “Fast-Response Flexible Temperature Sensors with Atomically Thin Molybdenum Disulfide,” Nano Letters 22, 15, 6135–6140 (2022).

(17) R. Islam, S. Qin, S. Deshmukh, Z. Yu, Ç. Köroğlu, A.I. Khan, K. Schauble, K.C. Saraswat, E. Pop, and H.-S.P. Wong, “Improved Gradual Resistive Switching Range and 1000x On/Off Ratio in HfOx RRAM Achieved with a Ge2Sb2Te5 Thermal Barrier,” Applied Physics Letters, 121, 082103 (2022).

(16) Z. Fang, R. Chen, J. Zheng, A.I. Khan, K.M. Neilson, S.J. Geiger, D.M. Callahan, M.G. Moebius, A. Saxena, M.E. Chen, C. Rios, J. Hu, E. Pop, and A. Majumdar, “Ultra-Low-Energy Programmable Non-volatile Silicon Photonics Based on Phase Change Materials with Graphene Heaters,” Nature Nanotechnology, 17, 842–848 (2022).

(15) A.I. Khan, H. Kwon, M.E. Chen, M. Asheghi, H.-S.P Wong, K.E. Goodson, E. Pop, “Electro-Thermal Confinement Enables Improved Superlattice Phase Change Memory,” IEEE Electron Device Letters, 43, 204-207 (2022).

(14)  A.I. Khan*, A. Daus*, R. Islam, K. M. Neilson, H.-S.P Wong, and E. Pop "Ultralow–switching current density multilevel phase-change memory on a flexible substrate,” Science, 373 (6560), 1243-1247 (2021). [Highlighted in Forbes, Stanford/Precourt Press Release, Stanford EE, IEEE Spectrum, EE Times, Physics World, C&EN, ars TECHNICA, tom'sHARDWARE, ScienceLine, EurekAlert!, SCIENMAG]

(13) S. Wahid, A. Daus, A.I. Khan, V. Chen, K.M. Neilson, M. Islam, E. Pop, “Lateral Electrical Transport and Field-Effect Characteristics of Sputtered P-Type Chalcogenide Thin Films,” Applied Physics Letters 119, 232106 (2021).

(12) H. Kwon, A.I. Khan, C. Perez, M. Asheghi, E. Pop, K.E. Goodson, “Uncovering Thermal and Electrical Properties of Sb2Te3/GeTe Superlattice Films,” Nano Letters 21, 5984–5990 (2021).

(11) M. Noshin*, A.I. Khan*, R. Chakraborty and S. Subrina, “Modeling and Computation of Thermal and Optical Properties in Silicene Supported Honeycomb Bilayer and Heterobilayer Nanostructures,” Materials Science in Semiconductor Processing, 129, 105776 (2021).

(10) A.I. Khan, H. Kwon, R. Islam, C. Perez, M. Chen, M. Asheghi, K.E. Goodson, H.-S. P Wong, and E. Pop, “Two-fold Reduction of Switching Current Density in Phase Change Memory Using Bi2Te3 Thermoelectric Interfacial Layer,” IEEE Electron Device Letters, 41, 11, 1657-1660 (2020).

(9)  A.I. Khan, P. Khakbaz, K. Brenner, K.K.H. Smithe, M. Mleczko, D. Esseni, and E. Pop, “Large Temperature Coefficient of Resistance in Atomically Thin Two-Dimensional Semiconductors,” Applied Physics Letters, 116, 203105 (2020).

(8)  M. Noshin, A.I. Khan, and S. Subrina, “Thermal transport characterization of stanene/silicene heterobilayer and stanene bilayer nanostructures,” Nanotechnology 29, 185706 (2018).

(7)  I. A. Navid, A.I. Khan, and S. Subrina, “Impact of tensile strain on the thermal transport of zigzag hexagonal boron nitride nanoribbon: An equilibrium molecular dynamics study,” Materials Research Express 5, 025015 (2018).

(6)  A.I. Khan, T. Chakraborty, N. Acharjee, and S. Subrina, “Stanene-hexagonal boron nitride heterobilayer:  Structure and characterization of electronic property,” Scientific Reports 7, 16347 (2017).

(5)  A.I. Khan, R. Paul, and S. Subrina, “Characterization of thermal and mechanical properties of stanene nanoribbons: A molecular dynamics study,” RSC Advances 7, 50485-50495 (2017).

(4)  A.I. Khan, I. A. Navid, M. Noshin, and S. Subrina, “Thermal Transport Characterization of Hexagonal Boron Nitride Nanoribbons Using Molecular Dynamics Simulation,” AIP Advances 7, 105110 (2017).

(3)  A.I. Khan, R. Paul, and S. Subrina, “Thermal transport in graphene/stanene hetero-bilayer nanostructures with vacancies: An equilibrium molecular dynamics study,” RSC Advances 7, 44780-44787 (2017).

(2)  M. Noshin*, A.I. Khan*, I. A. Navid, H. M. A. Uddin, and S. Subrina, “Impact of vacancies on the thermal conductivity of graphene nanoribbons: A molecular dynamics simulation study,” AIP Advances 7, 015112 (2017).

(1)  A.I. Khan*, I. A. Navid*, M. Noshin, H. M. A. Uddin, F. F. Hossain, and S. Subrina, “Equilibrium Molecular Dynamics (MD) Simulation Study of Thermal Conductivity of Graphene Nanoribbon: A Comparative Study on MD Potentials,” Electronics: Special issue Two-Dimensional Electronics- Prospects and Challenges 4, 1109-1124 (2015).

Conference Proceedings and Abstracts

(34) R.K.A. Bennett, H.F. Gault, A.I. Khan, L. Hoang, T. Peña, K. Neilson, Y.S. Song, Z. Zhang, A.J. Mannix, E. Pop, “Deep Learning to Automate Fitting and Parameter Extraction of 2D Transistors,” IEEE SNW (Silicon Nanoelectronics Workshop), Jun 2025, Kyoto, Japan

(33) M. Song, A.I. Khan, S. Yu, S. Salahuddin, “Ferroelectric-Dielectric Superlattice Engineering Enabling Ultra-High-Density Capacitors for On-Chip Adaptive Voltage Conversion,” MRS Spring Meeting, Apr 2025, Seattle, WA

(32) R.K.A. Bennett, H.F. Gault, A.I. Khan, K. Neilson, L. Hoang, T. Peña, Z. Zhang, A.J.Mannix, E. Pop, “Machine Learning to Extract Two-dimensional Semiconductor Material Properties from Transistor Measurements,” MRS Spring Meeting, Apr 2025, Seattle, WA

(31) S.B. Hamid*, A.I. Khan*, H. Zhang, X. Wu, A.V. Davydov, E. Pop, “Energy-Efficient Spiking Neural Network Based on Ge4Sb6Te7 Phase-Change Memory Synapses,” IEEE Device Research Conference (DRC), Jun 2024, College Park MD (Nomination for Best Paper Award)

(30) X. Wu, A.I. Khan, H. Zhang, H. Yu, A.V. Davydov, I. Takeuchi, H.-S.P. Wong, E. Pop, "Ultrathin Sb2Te3/Ge4Sb6Te7 Superlattices for Low-Power and High-Speed Phase Change Memory," MRS Spring Meeting, Apr 2024, Seattle WA.

(29) A. I. Khan, E.R. Lindgren, A. Ramdas, B. Won, X. Wu, H. Kim, H.-S.P. Wong, F. Jornada, I.-K. Oh, Y. Suzuki, E. Pop, “Probing the Low-Resistivity in Sub-5 nm Thin Nanocrystalline NbP and TaP Semimetals,” MRS Spring Meeting, Apr 2024, Seattle WA

(28) J. Zhao, A. I. Khan, M. Efremov, Z. Ye, X. Wu, H.-S.P. Wong, E. Pop, L. Allen, “Thin-film Nanocalorimetry study of the Melting Transitions in 2D Phase-Change Superlattices,”  MRS Spring Meeting, Apr 2024, Seattle WA

(27) A.I. Khan, E.R. Lindgren, X. Wu, H. Kim, A. Ramdas, B. Won, F. Jornada, K.E. Goodson, I.-K. Oh, H.-S.P. Wong, Y. Suzuki, E. Pop, “Unconventional Resistivity Scaling in Nanocrystalline NbP and TaP sub-5 nm Thin Film,” MRS Fall Meeting, Nov 2023, Boston MA

(26) A.I. Khan, X. Wu, A. Daus, H. Kwon, K.E. Goodson, H.-S.P. Wong, E. Pop, “Novel Chalcogenide Superlattice-Based Energy-Efficient Phase-Change Memory for 3D Heterogeneous Integration,” AVS 69th International Symposium & Exhibition, Nov 2023, Portland, OR (Best Presenter Award)

(25) A.I. Khan, X. Wu, H. Kwon, H. Yu, A. Daus, K. Saraswat, I. Takeuchi, K.E. Goodson, H.-S.P. Wong, E. Pop, “Novel Epitaxial Nanocomposite and Superlattices Enabling Energy Efficient Neuro-inspired Phase Change Memory,” SRC TECHCON, Sep 2023, Austin TX (Top 10 Best Presentation Award)

(24) J. Zhao, A.I. Khan, M. Efremov, Z. Ye, X. Wu, H.-S.P. Wong, E. Pop, L. Allen, "Preliminary Study of Phase-change Superlattices via Thin Film Nanocalorimetry," MRS Spring Meeting, San Francisco, CA (2023)

(23) A.I. Khan, X. Wu, B. Won, E.R. Lindgren, C. Perez, K.E. Goodson, Y. Suzuki, I.-K. Oh, H.-S.P. Wong, E.  Pop, “Unconventional Resistivity Scaling in Polycrystalline NbP Thin Films,” APS March Meeting, Las Vegas NV (2023).

(22) C-T Chen, C. Lavoie, N. Lanzillo, U. Bajpai, O. Gunawan, A. I. Khan, G. Cohen, T. Todorov, J. Bruley, V. Stanic, H. Lin, I. Garate, S.-W. Lien, Y.-H. Tu, C.-Y. Huang, A. Bansil, S. Kumar, R. Sundararaman, J. J.-Sweet, P. Kerns, N. Marchack, T.-R. Chang, “Exploring Unconventional Resistivity Scaling in Topological Semimetals for Interconnects Beyond Copper,” APS March Meeting, Las Vegas NV (2023).

(21) X. Wu, A.I. Khan, K. Kim, Z. Lee, H.-S.P. Wong, E. Pop, “Understanding Low Structural Relaxation in Phase-Change Chalcogenide Superlattices,” APS March Meeting, Las Vegas NV (2023)

(20) C. Perez, A.I. Khan, X. Wu, E. Fuller, H.-S.P. Wong, M. Asheghi, E. Pop, A. Talin, S. Kumar, K.E Goodson, “Probing Phonon-Dominated Transport in Sb2Se3 Thin Films,” APS March Meeting, Las Vegas NV (2023)

(19) H. Yu, A.I. Khan, C. Wu, H. Zhang, A. Davydov, A. Mehta, M. Li, A.G. Kusne, E. Pop, I. Takeuchi, “Combinatorial Exploration of New Phase-Change Memory Materials for Neuromorphic Computing Applications,” MRS Fall Meeting, Boston MA (2022)

(18) J. Zhao, J. Hui, A.I. Khan, Z. Ye, X. Wu, T. Lai, M. Efremov, H. Wang, E. Pop, L. Allen, “Revealing the crystallization kinetic in thin-film phase change material via 1,0000,000 K/s Nanocalorimetry,” MRS Fall Meeting, Boston MA (2022)

(17) A.I. Khan, X. Wu, C. Perez, B. Won, I.-K. Oh, M. Asheghi, K.E. Goodson, H.-S.P. Wong, E. Pop, “Chalcogenide-Superlattice Interfaces and Intermixing Modulating Phase-Change Memory Performance,” MRS Fall Meeting, Boston MA (2022)

(16) X. Wu, A.I. Khan, P. Ramesh, K. Saraswat, H.-S.P. Wong, E. Pop, “Engineering Superlattice Materials and Interfaces for Improved Resistance-Drift and Retention in Phase-Change Memory,” MRS Fall Meeting, Boston MA (2022) (Best Presenter Award)

(15) C. Perez, A. I. Khan, X. Wu, T.D. Brown, H. Kwon, M. Asheghi, A.A. Talin, H.-S.P. Wong, S. Kumar, E. Pop, K.E. Goodson, “Revealing Interface-Controlled Transport Effects in GST-Based Superlattice Materials,” SRC TECHCON, Austin TX (2022).

(14) A. I. Khan, C. Perez, X. Wu, B. Won, K. Kim, H. Kwon, P. Ramesh, K.M. Neilson, M. Asheghi, K. Saraswat, Z. Lee, I.K. Oh, H.-S.P. Wong, K.E. Goodson, E. Pop “First Demonstration of Ge2Sb2Te5-Based Superlattice Phase Change Memory with Low Reset Current Density (~3 MA/cm2) and Low Resistance Drift (~0.002 at 105oC),” 2022 IEEE Symposium on VLSI Technology and Circuits, pp. 310-311, Honolulu HI. DOI: 10.1109/VLSITechnologyandCir46769.2022.9830348 (2022). [Best Student Presenter Award, Selected as a Conference Highlight]

(13) S. Vaziri, I.M. Datye, E. Ambrosi, A. I. Khan, H. Kwon, C.H. Wu, C.F. Hsu, J. Guy, T.Y. Lee, H-S. P. Wong, X.Y. Bao, “First Fire-free, Low-voltage (~1.2 V), and Low Off-current (~3 nA) SiOxTey Selectors,” 2022 IEEE Symposium on VLSI Technology and Circuits, pp. 324-325, Honolulu HI (2022).

(12) M. C Tung, A. I. Khan, H. Kwon, M. Asheghi, K. E. Goodson, E. Pop, and H-S P. Wong, “Nanoscale phase change memory arrays patterned by block copolymer directed self-assembly,” Novel Patterning Technologies 2022, SPIE, 12054, 39-46 (2022).

(11) X. Wu*, A. I. Khan*, P. Ramesh, C. Perez, K. Kim, Z. Lee, K.E. Goodson, K. Saraswat, H.-S.P. Wong, E. Pop, “Interface-Controlled Ultralow Resistance Drift and Its Origin in Superlattice Phase Change Memory,” IEEE Device Research Conference (DRC), Columbus OH (2022).

(10) A. I. Khan, H. Yu, H. Kwon, A. Daus, C. Perez, M. Asheghi, H.-S. P. Wong, K. E. Goodson, I. Takeuchi, E. Pop, “Novel Nanocomposite and Superlattice Materials Enabling Energy-Efficient Neuro-Inspired Phase Change Memory,” MRS Spring Meeting, Honolulu HI (2022).

(9)  C. Perez, A. I. Khan, K. Neilson, X. Wu, H.-S.P. Wong, M. Asheghi, A.A. Talin, S. Kumar, E. Pop, and K.E. Goodson. “Exposing Dynamical Phase Transitions and Electro-Thermal Transport in TiTe2 Thin Films,” MRS Spring Meeting, Honolulu HI (2022).

(8)  A. M. Chen, C. Perez, S. Ueda, A. Mcleod, V. Chen, Z. Sobell, C. Koroglu, A.I. Khan, S. George, A. C. Kummel, K. E. Goodson, E. Pop, “Thermal and Electrical Properties of Wide Bandgap Nitride Thin Films Deposited at Low Temperatures for Heterogeneous Integration,” MRS Spring Meeting, Honolulu HI (2022).

(7)  A. Daus, K. Nassiri Nazif, S. Vaziri, A. I. Khan, R.W. Grady, V. Chen, C.S. Bailey, H.R. Lee, C. Koroglu, K. Brenner, K. Schauble, A. Kumar, K.C. Saraswat, E. Pop, “Flexible Transition Metal Dichalcogenide Devices for Environmental Sensors and Energy Harvesting,” AVS 67th International Symposium & Exhibition, Charlotte NC (2021).

(6)  A. I. Khan, A. Daus and E. Pop, “Flexible Low-Power Superlattice-Like Phase Change Memory,” IEEE Device Research Conference (DRC), Columbus OH, DOI: 10.1109/DRC50226.2020.9135166 (2020).

(5)  A. I. Khan, K. Brenner, K.K.H. Smithe, M.J. Mleczko and E. Pop, “Large Temperature Coefficient of Resistance in Atomically Thin 2D Devices”, IEEE Device Research Conference (DRC), pp. 125-126, Ann Arbor MI, DOI: 10.1109/DRC46940.2019.9046401. (2019).

(4) M. Noshin, A. I. Khan, I. A. Navid, and S. Subrina, “Thermal Transport in Defected Armchair Graphene Nanoribbon: A Molecular Dynamics Study”, 2017 IEEE Region 10 Conference (TENCON), Penang, Malaysia, pp. 2600-2603 (2017).

(3)  M. T. Shahed, M. R. I. Udoy, B.t Saha, A. I. Khan, Samia Subrina, “Automatic Bengali number plate reader”, TENCON 2017 - 2017 IEEE Region 10 Conference, Penang, Malaysia, (2017).

(2)  A. I. Khan, I. A. Navid, F. F. Hossain, M. Noshin, and S. Subrina, “A Molecular Dynamics Study on Thermal Conductivity of Armchair Graphene Nanoribbon”, 2016 IEEE Region 10 Conference (TENCON), Singapore, pp. 2775-2778 (2016).

(1)  A. Bhattacharjee*, A. I. Khan*, M. Z. Haider, S. A. Fattah, D. Chowdhury, M. Sarkar, and C. Shahnaz, “Bangla voice-controlled robot for rescue operation in noisy environment”, 2016 IEEE Region 10 Conference (TENCON), 3284-3288 (2016).

Preprints/Manuscript Under Review

(1) L. Hoang*, A.I. Khan*, R.K. Bennett, H. Kim, M. Hocking, Z. Zhang, A-R. Choi, I-K. Oh, A. J. Mannix, E. Pop, “Enabling P-type Conduction in Bilayer WS2 with NbP Topological Semimetal Contacts,” in Review (2025); (arXiv:2409.18926)

Invited Talks

(22) IEEE NANO, Washington DC, Jul 2025

(21) University of Liberal Arts Bangladesh, Distinguished Seminar, June 2025

(20) IEEE EDS Chapter, Bangladesh University of Engineering and Technology (BUET) Seminar, May 2025

(19) IEEE EDS Chapter, Dhaka University Seminar, May 2025

(18) Samsung Electronics Seminar, May 2025

(17) SK Hynix Seminar, May 2025

(16) ECE Seminar, Yale University, New Haven, Apr. 2025.

(15) EECS Seminar, University of California, Berkeley, Mar. 2025

(14) MSE Seminar, University of California, Los Angeles (UCLA), Mar. 2025

(13) ECE Seminar, University of Texas at Austin, Mar. 2025

(12) ECE Seminar, Princeton University, Feb. 2025

(11) ECE Seminar, Purdue University, Feb. 2025

(10) ECE Colloquium, University of Washington, Seattle, Feb. 2025

(9) Materials Research Society (MRS) Fall Meeting Boston MA, Dec. 2024

(8) University of Maryland Materials Science and Engineering Seminar, College Park MD, Oct. 2024

(7) Singapore University of Technology and Design, SMT PhD Seminar, Sept. 2024

(6) IBM Seminar, IBM Research Zurich, Switzerland, Sept. 2023

(5) The European Phase Change and Ovonics Symposium, Rome, Italy, Sept. 2023

(4) Physics & Astronomy colloquia at San Francisco State University, CA, Apr. 2023

(3) IEEE International Integrated Reliability Workshop (IIRW), CA, Oct. 2022

(2) UT Dallas Materials Science and Engineering Colloquium, Texas, Oct. 2022

(1) IBM Seminar, TJ Watson Research Center, NY, Aug. 2022