Publications

I. Book/Book Chapter:

  1. N. Liu, M. Zebarjadi, Charge Transfer and Interface Design in Thermoelectric Materials, invited book chapter, in Thermoelectric Materials, 161-180, De Gruyter 2020
  2.   Md. Golam Rosul, Md. Sabbir Akhande, M. Zebarjadi, Thermionic Energy Conversion, invited book chapter, in Nanoscale Energy Transport, B. Liao Ed., IOP publications, ISBN: 978-0-7503-1736-8, March 2020
  3. M. Zebarjadi, Power Generation Using Solid State Heat Engines, Women in Engineering, Springer, ISBN 978-3-030-19951-7, 2020
  4. Contributed to: Section 7-Power Generation, Mark's Standard Handbook for Mechanical Engineers, 12th Edition, McGraw Hill Professional, Nov 10, 2017
  5. Y. Lan, X. Wang, C. Wang, and M. Zebarjadi, Organic / Inorganic Hybrid Nanostructured Materials for Thermoelectric Energy Conversion, in Functional Organic and Hybrid Nanostructured Materials: Fabrication, Properties, and Applications, Editor: Quan Li, Wiley, Mar 2018, ISBN: 978-3-527-34254-9
  6. M. Zebarjadi, G. Chen, Z. Ren, Thermoelectric Materials with modulation doping, invited book chapter, in Advanced Thermoelectrics: Materials, Contacts, Modules, and Systems, CRC Press / Taylor & Francis, ISBN 9781498765725 - CAT# K29106. (2017)
  7. M. Zebarjadi, Ed., Topics on Energy Challenges and Solar Energy Conversion, Linus Learning, Textbook, 2014.
  8.  Shakouri, A. and Zebarjadi, M., : In: Thermal Nanosystems and Nanomaterials, ed. by Volz, S.,  Springer Berlin / Heidelberg (2009) DOI: 10.1007/978-3-642-04258-4

II.  Journals:

  1. Sree Sourav Das, Safoura Nayeb Sadeghi, Keivan Esfarjani, and Mona Zebarjadi, The Interplay of Chemical Bonding and Thermoelectric Properties in Doped Cubic GeTe, Journal of Materials Chemistry A, 2024
  2. Md. Sabbir Akhanda, Katherine Schlaak, Eleanor Scott, Md. Nasim Afroj Taj, Sarah Watzman, and Mona Zebarjadi, Thermomagnetic responses of semimetals, Invited Review Article, Featured Article, Journal of Applied Physics, 2024 
  3. Mona Zebarjadi, Omid Akbari, A Model for Material Metrics in Thermoelectric Thomson Coolers, Entropy 25 (11), 10.3390/e25111540, 2023 
  4. Farjana Ferdous Tonni, K. Yazawa, A. Shakouri, M Zebarjadi, Materials Today Physics, 101204, 2023. https://doi.org/10.1016/j.mtphys.2023.101204  
  5. S.E. Rezaei, M. Zebarjadi*, K. Esfarjani*, First-Principles aided evaluation of the Nernst Coefficient beyond the Constant Relaxation Time approximation, Computational Materials Science, 225, 112193, 2023. 
  6. Md. Bin Hoque, M. Milich, M. Qin, Md Sabbir Akhanda, K. F. Quiambao-Tomko, E.R. Hoglund, J.A. Tomko, J.L. Braun, J. Gild, D. H. Olson, K. Aryana, Y. R. Koh, R. Galib, J. T. Gaskins, W. G. Fahrenholtz, M. Zebarjadi, J. Luo, and Patrick E. Hopkins, Thermal and ablation properties of a high-entropy metal diboride: (Hf0.2Zr0.2Ti0.2Ta0.2Nb0.2)B2. Journal of the European Ceramic Society, 2023, https://doi.org/10.1016/j.jeurceramsoc.2023.03.065 
  7. Sree Sourav Das, Md. Golam Rosuland Mona Zebarjadi, Optimization of the thermoelectric properties of SnSe2 using first-principles calculations, The Journal of Physical Chemistry, 127, 14, 6916, 2023 
  8. Tianhui Zhu, Yunhui Wu, Shuai Li, Farjana F. Tonni, Masahiro Nomura, Mona Zebarjadi, Enhanced thermoelectric performance of holey silicon thin films using F4TCNQ surface doping, Materials Today Physics, 100942, 2023. 
  9. Md. Sabbir Akhanda, Sergiy Krylyuk, Diane A. Dickiec, Albert V. Davydovb, Fei Hand, Mingda Lid, M. Zebarjadi, 1T' to Td phase-transition-induced thermal hysteresis in type-II Weyl semimetal Mo1-xWxTe2 , Materials Today Physics, 100918, 2022 
  10. Mousumi Mitra, Allen Benton, Md. Sabbir Akhanda, Jie Qi, Mona Zebarjadi, David J. Singh, Joseph Poon, Ordinary Half-Heusler Alloys Advance State-of-the-Art Thermoelectric Properties , Materials Today Physics, 100900,  2022 
  11. Qi Feng, Tianhui Zhu, Wei Yuan, Yu Jian, Huimin Peng, Jinrui Zhong, Junxi Duan, Mona Zebarjadi, Yugui Yao, Nernst coefficient measurements in two-dimensional materials,  Journal of Physics D: Applied Physics, 2022 
  12. Md. Golam Rosul, Mona Zebarjadi, The effect of electron-phonon interaction on thermoelectric Transport in MoSe2, The Journal of Physical Chemistry, , 126 (35), 15011-15018  2022 
  13. Tianhui Zhu, Peter M. Litwin, Md. Golam Rosul, Devin Jessup, Md. Sabbir Akhanda,  Farjana F. Tonni,  Sergiy Krylyuk, Albert Davydov, Petra Reinke, Stephen J. McDonnell, Mona Zebarjadi, Transport Properties of Few-Layer Epitaxial NbSe2: from Electronic Structure to Thermoelectric Properties, Materials Today Physics, 27, 100789 2022,https://doi.org/10.1016/j.mtphys.2022.100789
  14. Shuai Li, Kyle Snyder, Md Sabbir Akhanda, Richard Martukanitz, Mousumi Mitra, Joseph Poon, and M. Zebarjadi, Cost-effective copper-nickel alloys for active cooling applications, Int. J. of heat transfer, 195, 123181, 2022.
  15. S.E. Rezaei, M. Zebarjadi*, K. Esfarjani*, Calculation of Thermomagnetic Properties Using First-principles Density Functional Theory, Computational Materials Science, 210, 111412 2022. * Corresponding authors
  16. Md. Golam Rosul, Xiaoming Wang, Keivan Esfarjani, Mona Zebarjadi, Low-resistance contact in MoSe2-based solid-state thermionic devices, Physical Review B, 105, 115412, 2022.
  17. Emad Rezaei, M. Zebarjadi, K. Esfarjani, Effect of exchange-correlation functional type and spin-orbit coupling on thermoelectric properties of ZrTe2, Journal of Solid State Chemistry, 122414, 2021.
  18. M. Zebarjadi, Emad Rezaei, Md. Sabbir Akhanda, K. Esfarjani, Nernst coefficient in within relaxation time approximation, Physical Review B, 103, 144404, 2021.
  19. Md. Sabbir Akhanda, Emad Rezaei, K. Esfarjani, Albert Davydov, M. Zebarjadi, Thermomagnetic properties of Bi2Te3 single crystal in the temperature range from 55 K to 380 K, Physical Review Materials 5, 015403, 2020
  20. Rasin Ahmed*, Md. Golam Rosul*, Yin Xu, Mona Zebarjadi, Giovanni Zangari, Study of Seebeck Coefficients of Electrodeposited Bi2Se3 films onto Au(111)/Si Substrates. * authors with equal contribution, Electrochimica Acta, 137554, 2020S.
  21. QY. Li, Q. Hao, T. Zhu, M. Zebarjadi, K. Takahashi, Nanostructured and Heterostructured 2D Materials for Thermoelectrics, Engineered Science, 2020
  22. S.N. Sadeghi, S. Allaei, M. Zebarjadi, K. Esfarjani, Ultra-high lattice thermal conductivity and the effect of pressure in superhard hexagonal BC2N,  J. Materials Chemistry C, 2020 DOI: 10.1039/d0tc01615b (arXiv preprint arXiv:2003.12484).
  23. Z. Ding, M. Ridley, J. Deijkers, Naiming Liu, Md Shafkat, Bin Hoque, John Gaskins, M. Zebarjadi, P.E. Hopkins, Haydn Wadley, Elizabeth Opila, Keivan Esfarjani, A comprehensive study on mechanical, thermodynamic and thermal transport properties of HfSiO4: experiments and first-principles calculations. Materialia. 100793, 2020  (arXiv preprint arXiv:2003.07546)
  24. T. Zhu, D.H Olsen, PE. Hopkins, M. Zebarjadi, Heat Diffusion Imaging:  In-Plane Thermal Conductivity Measurement of Thin Films in a Broad Temperature Range, Rev. Scientific Instruments 91, 113701, 2020 (arXiv preprint arXiv:2004.07428)
  25. Y. Pang, E. Rezaei, D. Chen, Y. Jian, Q. Wang, Z. Wang, J. Duan, M. Zebarjadi, Y. Yao, Thermoelectric properties of layered ternary telluride Nb3SiTe6, Physical Review Materials. 4 (9), 094205, 2020
  26. N. Liu, T. Zhu, Md. Golam Rosul, M. Zebarjadi, Thermoelectric Properties of Holely Silicon at High Temperatures, Materials Physics Today, 100224, 2020.
  27. K. Freedy, T. Zhu, D. Olson, P. Hopkins, M.Zebarjadi, SJ McDonnell, Interface Chemistry and Thermoelectric Characterization of Ti and TiOx Contacts to MBE-Grown WSe2, 2D Materials,  7, 045033, 2020
  28. Md. G. Rosul, Doene Lee, DH Olson, N. Liu, Kyusang Lee, PE Hopkins, M. Zebarjadi, Thermionic Transport Across Gold-Graphene-WSe2 van der Waals Heterostructures, invited paper, Science Advances, 5, eaax7827, 2019. 
  29. M. Markov, E. Rezaei, K Esfarjani, M. Zebarjadi, Thermoelectric Properties of Semimetals, Physical Review Materials, 3, 095401,2019.
  30. N. Liu, E. Rezaei, Wade A. Jensen, Shaowei Song, Zhifeng Ren, Keivan Esfarjani, Mona Zebarjadi, Jerrold A. Floro, Improved Thermoelectric Performance of Eco-friendly β-FeSi2 – SiGe Nanocomposite via Synergistic Hierarchical Structuring, Phase Percolation, and Selective Doping, Advanced Functional Materials. 1903157, 2019. 
  31. S. N. Sadeghi, M. Zebarjadi, K. Esfarjani, Biaxial tensile strain-induced enhancement of thermoelectric performance of TiSe2 monolayer based on first-principles calculation, Journal of Materials Chemistry C, 24, 2019.
  32. M. J. Adams, M. Verosky, M. Zebarjadi*, J. Heremans*, Active Peltier coolers based on correlated and magnon-drag metals, *corresponding authors, Physical Review Applied 11, 054008, 2019. Editor’s choice, Physics Focus Story, Highlighted in Nature nanoelectronics
  33. N. Liu, J. Peters, A. Ramu, J.A. Floro, J. E. Bowers, M. Zebarjadi, Thermoelectric Transport at F4TCNQ-Silicon interface, invited paper, APL Materials, 7, 021104, 2019 
  34. M. J. Adams, M. Verosky, M. Zebarjadi*, J. Heremans*, High switching ratio variable-temperature Thermal Switch, International J. of Heat and Mass Transfer 134, 114 2019, *corresponding authors 
  35. S. Nadri, C. M. Moore, N.D. Sauber, L. Xie, M.E. Cyberey, J.T. Gaskins, A. W. Lichtenberger, N.S. Barker, P.E. Hopkins, M. Zebarjadi, and R.M. Weikle, Thermal Characterization of Quasi-Vertical GaAs Schottky Diodes Integrated on Silicon, IEEE Transactions on Electron Devices, 2018, DOI: 10.1109/TED.2018.2880915 
  36. M. Markov, M. Zebarjadi, invited paper, Thermoelectric transport in graphene and 2D layered Materials, Nanoscale and Microscale Thermophysical Engineering, 2018  https://doi.org/10.1080/15567265.2018.1520762
  37. M. Markov, X. Hu, HC Liu, N. Liu, J. Poon, K. Esfarjani, and M. Zebarjadi, Semi-metals as potential thermoelectric materials: case of HgTe, scientific reports 8, 9876, 2018.
  38. X. Wang, M. Zebarjadi, K. Esfarjani, High-Performance Solid-State Thermionic Energy Conversion Based on 2D van der Waals Heterostructures: A First-Principles Study, Scientific Reports 8, 9303, 2018.
  39. N. Liu, M. Zebarjadi, J. Floro, Tunable FeSi2 - Si1-yGey Nanocomposites by a Novel React/Transform Spark Plasma Sintering Approach for Thermoelectric Applications, Materials Today Physics, 2018, 4, 19-27.
  40. M. Yao, S Wilson, M Zebarjadi, C Opeil, Experimental determination of phonon thermal conductivity and Lorenz ratio of single crystal bismuth telluride, MRS Communications,1-6, 2017; also available on: arXiv:1704.03029
  41. M. Yao, M. Zebarjadi, C. Opeil, Experimental determination of phonon thermal conductivity and Lorenz ratio of single crystal metals: Al, Cu and Zn, Journal of Applied Physics, 2017, 135, 111, 2017; preprint arXiv:1702.07923
  42. M. Zebarjadi, Solid State Thermionic Power Generators: an analytical analysis in the nonlinear regime, Physical Review Applied, 8, 014008 (2017)
  43. Y He, X Pang, B Jiang, C. Feng, YW Harn, Y. Chen, YJ Yoon, S Pan, CH Lu, Y Chang, M. Zebarjadi, Z. Kang, N. Thadhani, J Peng, Z. Lin, Unconventional Route to Uniform Hollow Semiconducting Nanoparticles with Tailorable Dimensions, Compositions, Surface Chemistry and Near-Infrared Absorption, Angewandte Chemie International Edition, 10, 1002, (2017), inside cover
  44. X Wang, K Esfarjani, M Zebarjadi, First-Principles Calculation of Charge-Transfer at Silicon-Organic Interface, The Journal of Physical Chemistry, 121, 29, (2017) also on: arXiv:1610.06247
  45. J. Duan, X. Wang, X. Lai, G. Li, K. Watanabe, T. Taniguchi, M. Zebarjadi*, E. Andrei* High Thermoelectric power factor in G/hBN devices, * corresponding authors, PNAS 13, 50, 14272-14276, 2016. Also available: arXiv:1607.00583, (2016)
  46. M. Zebarjadi, G. Chen, Preface to Special Topic: Thermoelectric Materials, APL Materials 4(10),104401, (2016)
  47. A. Ziabari, M. Zebarjadi, D. Vashaee, and A. Shakouri, Solid-State Cooling, Progress In Phys. Rev., Invited paper, 79, 9, (2016).
  48. X. Wang, M. Zebarjadi and K. Esfarjani, First-principles calculations of solid-state thermionic transport in layered van der Waals Heterostructures, NanoScale 8, 14695-14704, (2016), DOI: 10.1039/C6NR02436J (available on arXiv:1510.03783), inside cover page
  49. M. Zebarjadi, Heat Management in Thermoelectric Power Generators, Scientific Reports 6, 20951, (2016).
  50. M. Ibnez, Z. Luo, A. Genc, L. Piveteau, S. Ortega, D. Cadavid, O. Dobrozhan, M. Nachtegaal, M. Zebarjadi, J. Arbiol, M.V. Kovalenko, A. Cabot, High-Performance Thermoelectric Nanocomposites from Nanocrystal Building Blocks, Nature Communications, 7, 10766, (2016)
  51. M. Zebarjadi, W. Shen, An algorithm to reduce combinatorial search in the design of invisible dopants,   Computational Materials Science, 113, Pages 171-177, 2016. Editor Choice (available also on arXiv :1509.02515)
  52. A. Mehdizadeh Dehkordi, M. Zebarjadi, J. He, T. M. Tritt, Thermoelectric Power Factor: Enhancement Mechanisms and Strategies for Higher Performance Thermoelectric Materials, Materials Science and Engineering: R. 97, 1-22, 2015.
  53. M. Zebarjadi, Thermomagnetic transport theory in anisotropic composite samples, J. Electronic Mat. 6, 2015.
  54. M. Zebarjadi, Electronic Cooling Using Thermoelectric Devices, APL. 106 (20), 203506, 2015.
  55. Shen W., Tian T., Liao B., and Zebarjadi M., Combinatorial approach to identify electronically cloaked hollow nanoparticles, PRB 90, 075301, 2014.
  56. Liao B., Zebarjadi M., Esfarjani K., and Chen G., Isotropic and energy-selective electron cloaks on graphene, Physical Review B 88 (15), 155432, 2013.  
  57. Zebarjadi M., Liao B., Esfarjani K., Dresselhaus MS., and Chen G., Enhancement of thermoelectric power factor by invisible dopants, Adv. Mat. 15, 2013.  Highlighted in MIT NEWS, PhysOrg, Mission-tomorrow as well as many scientific websites
  58. Liao B.*, Zebarjadi M.*, Esfarjani K. and Chen G., Cloaking Core-Shell Nanoparticles from Conducting Electrons in Solids, Physical Review Letters, 109, 126806 (2012),*equal contribution. Highlighted in PRL synopsis, Nature materials as well as many scientific websites
  59. Zebarjadi M., Yang J., Kozinsky B., Dresselhaus M.S., Ren Z.F., and Chen G., Studying phonon mean free path in skutterudites, Journal of Applied Physics 112, 044305 (2012).
  60. Lukas K., Liu WS., Joshi G., Zebarjadi M.,  Z. F. Ren, G. Chen, C. P. Opeil, Experimental determination of the Lorentz number, Physical Review B 85, 205410, 2012. DOI: 10.1103/PhysRevB.85.205410.
  61. Yu B.*, Zebarjadi M.*, Lukas K., Wang H., Wang H., Opeil C., Dresselhaus M.S., Chen G. and Ren Z.F., Enhancement of thermoelectric properties by modulation doping in silicon germanium alloy nanocomposites, NanoLetters. 12, 2077 (2012) * equal contribution. Highlighted in News.
  62. Zebarjadi M., Esfarjani K., Dresselhaus M.S., Ren Z.F., and Chen G., Perspectives on Thermoelectrics :  from fundamentals to device applications, invited Review Paper, Energy and Environmental Science 5, 5147-5162 (2012). Top 10 most downloaded paper of January 2012.
  63. Bahk J. H., Bian Z. X., Zebarjadi M., Santhanam P., Ram R., and Shakouri A., Thermoelectric power factor enhancement by ionized nanoparticle scattering, Appl. Phys. Lett. 99, 072118 (2011). Selected for publication in Vir. J. Nan. Sci. & Tech, Volume 24, Issue 10. 
  64. Zebarjadi M., Joshi G.,  Zhu G.H., Yu B., Minnich A., Lan Y.C., Wang X.W., Dresselhaus M.,  Ren Z.F. and Chen G., Power Factor Enhancement by Modulation Doping in Bulk Nanocomposites, Nanoletters, 11, 2225-2230 (2011). Highlighted in News.
  65. Zebarjadi M., Esfarjani K., Bian ZX. and Shakouri A., Low-Temperature Thermoelectric Power Factor Enhancement by Controlling Nanoparticle Size Distribution, Nanoletters, 11, 225-230 (2011)
  66. Zebarjadi M., Esfarjani K., Yang J., Ren ZF., and Chen, G., Effect of filler mass and binding on thermal conductivity of fully filled skutterudites, Phys. Rev. B 82, 195207 (2010) 
  67. Zide JMO., Bahk JH., Singh R., Zebarjadi M. et al, High efficiency semimetal/semiconductor nanocomposite thermoelectric materials, J. of Appl. Phys. 108, 123702 (2010). Selected for publication in Vir. J. Nan. Sci. & Tech, Volume 23, Issue 1; Top 10 most downloaded paper of Dec 2010 and Jan 2011.
  68. Bahk JH., Bian ZX, Zebarjadi M. , Zide JMO, Lu H, Xu D., Feser JP., Zeng G., Majumdar A., Shakouri A, Gossard AC and Bowers JE., Thermoelectric figure of merit of (In0.53Ga0.47As)0.8 ( In0.52Al0.48As)0.2 III-V semiconductor alloys, Phys. Rev. B 81, 235209 (2010)
  69. Zebarjadi M., Esfarjani K., Shakouri A., Bahk JH., Bian ZX., Zeng G., Bowers JE., Lu H., Zide JMO. and Gossard A., Effect of nano-particle scattering on thermoelectric power factor, App. Phys. Lett 94, 202105 (2009). Selected for publication in Vir. J. Nan. Sci. & Tech, Volume 19, Issue 22.
  70. Zeng G., Bahk JH, Bowers JE, Lu H, Gossard AC, Singer SL, Majumdar A, Bian ZH, Zebarjadi M, and Shakouri A., Thermoelectric power generator module of 16_16 Bi2Te3 and 0.6%  ErAs: (InGaAs)1_x(InAlAs)x segmented elements, Appl. Phys. Lett. 95, 083503 (2009) Selected for publication in Vir. J. Nan. Sci. & Tech, Volume 20, Issue 10.  
  71. Zebarjadi M., BianZX., Singh R., Shakouri A., Wortman R., Rawat V., and Sands T., Thermoelectric transport in a ZrN/ScN Superlattice, J. of Electronic Materials 38, 960 (2009)
  72. Zebarjadi M., Esfarjani K., Shakouri A., Bian ZX., Bahk JH., Zeng G., Bowers JE., Lu H., Zide JMO. and Gossard A., Effect of nano-particle scattering on electronic and thermoelectric transport, J. of Electronic Materials 38, 954 (2009)
  73. Wang X., Ezzahri Y., Bian Z., Zebarjadi M. , Shakouri A., Klem J., Patrizi G., Young EW., and Mukherjee SD., Characterization of Single Barrier Microrefrigerators at Cryogenic Temperatures, J. of Elect. Mat. 38, 1309  (2009)
  74. Bian Z, Zebarjadi M., Singh R., Ezzahri Y., Shakouri A., Zeng G., Bahk JH., Bowers JE., Zide JMO., Gossard AC.,  Cross-plane Seebeck Coefficient and Lorenz number in Superlattices, Phys. Rev. B 76, 205311 (2007)
  75. Zebarjadi M., Esfarjani K., and Shakouri A., Nonlinear Peltier effect in semiconductors, Appl. Phys. Lett. 91 2785154 (2007)
  76. Zebarjadi M., Bulutay C., Esfarjani K., and Shakouri A., Monte Carlo simulation of electron transport in degenerate and inhomogeneous semiconductors , Appl. Phys. Lett. 90 092111 (2007)
  77. Zebarjadi M., Shakouri A., and Esfarjani K., Thermoelectric transport perpendicular to thin-film heterostructures calculated using the Monte Carlo technique, Phys. Rev. B 74 195331 (2006)
  78. Esfarjani K., Zebarjadi M., and Kawazoe Y., Thermoelectric properties of a nanocontact made of two-capped single-wall carbon nanotubes calculated within the tight-binding approximation, Phys. Rev. B 73 085406 (2006). Selected for publication in Virtual J. Nan. Sci. & Tech.  Volume 13, Issue 7. 

III - Conference Proceedings:

  1. Zhu T., Tonni F. F., Wu Y., Nomura M., and Zebarjadi M., Thermoreflectance-based in-plane thermal transport measurement on supported silicon thin films with nanostructures, proceedings of HEFAT, Heat Transfer, Fluid Mechanics and Thermodynamics, 2021. 
  2. Shui L., Akhanda S., Zebarjadi M., Improved effective thermal conductivity in copper-nickel alloy for active cooling applications, proceedings of HEFAT, Heat Transfer, Fluid Mechanics and Thermodynamics, 2021.
  3. Zebarjadi M., Enhancement of thermoelectric power factor at low temperatures, Proceedings of SPIE, 10121, Optical and Electronic Cooling of Solids II, 2017. 
  4. Zebarjadi M. Heat management in thermoelectric devices, ASME-PRTEC 14893, 2016. 
  5. Esfarjani K., Wang X., Zebarjadi M., Solid-state thermionic energy conversion in layered materials from first-principles, Proc. of the first Pacific Rim Thermal Engineering Conference PRTEC-14895, 2016.
  6. Zhang X, Jaluria Y., Zebarjadi M., Numerical simulation of a thermosyphon-based hybrid solar-thermoelectric power generator, International Center for Heat and Mass Transfer, DOI: 10.1615/ICHMT.2015.IntSympAdvComputHeatTransf.570
  7. Zebarjadi M., Yu B., Dresselhaus MS., Chen G., and Ren ZF., "Fabrication of low cost thermoelectric materials with improved properties using modulation-doping strategy", PROCEEDINGS OF THE ASME SUMMER HEAT TRANSFER CONFERENCE, 2012, VOL 1       Pages: 973-975   Published: 2012. 
  8. Zebarjadi M., and Chen G., "Recent advances in thermoelectrics," 2011 IEEE International Electron Devices Meeting (IEDM), invited paper, 10.1.1-10.1.4, 5-7 Dec. 2011 DOI: 10.1109/IEDM.2011.6131525.    
  9. Zebarjadi M., Esfarjani K., and Chen G., "Thermal transport in cage-like structures", Proceedings of the ASME/JSME conference, 8th Thermal Engineering joint conference, 2011, VOL 1 PTS A AND B   Pages: 275-279   Published: 2011
  10. Bahk JH, Bian ZX, Zebarjadi M, Santhanam P, Ram R and Shakouri A, “Thermoelectric power factor enhancement in metal/semiconductor nanocomposites by ionized nanoparticle scattering” MRS Proceedings, 1329, 2011, mrss11-1329-i05-05 doi:10.1557/opl.2011.1473. 
  11. Zeng GH., Bahk JH., Ramu AT., Bowers JE., Lu H., Gossard AC., Bian ZX., Zebarjadi M., and Shakouri A., "6 Watt Segmented Power Generator Modules using Bi2Te3 and (InGaAs)(1-x)(InAlAs)(x) Elements Embedded with ErAs Nanoparticles", in Materials and Devices for Smart Systems III, edited by Su J., Wang LP., Furuya Y., Trolier McKinstry S. and Leng J. (Book Series: Mater. Res. Soc. Symp. Proc. 1129, 97-102, 2009) 
  12. Zebarjadi M., Esfarjani K., and Shakouri A., “Enhanced Cooling Power Due to Nonlinear Peltier Effect”, in Thermoelectric Power Generation, edited by T.P. Hogan, J. Yang, R. Funahashi, and T. Tritt (Mater. Res. Soc. Symp. Proc. 1044, 427-434, 2008) 

IV – Other Publications:

  1. Zebarjadi M., Millie Dresselhaus Anecdotes: Interactions that I did not understand at the Time!, Celebrating Millie, https://millie.pubpub.org/pub/ar4r5ll8
  2. Zebarjadi M., An Overview of 2D Materials for Thermoelectric Applications, MRS proceedings, https://millie.pubpub.org/pub/b0fn884z

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