BOOK PUBLICATION
- Zito, R. and Ardebili, H., Energy Storage: New Approach, Second Edition, Scrivener Willey, 2019.
- Ardebili, H., and Pecht, M., Encapsulation Technologies for Electronic Applications, Second Edition, Elsevier, 2018
- Ardebili, H., and Pecht, M., Encapsulation Technologies for Electronic Applications, Elsevier, 2009 Elsevier Link Amazon Link
PATENTS
1- Ardebili, H., Moradi. B., “Stretchable fabric based electrode-polymer electrolyte battery” Attorney Docket No. 109293.00099 (UHID 2017-38), Provisianal Patent Application, 2017 View patent
2- Ardebili, H., Dizon, T., Kammoun, M., “Stretchable and multifunctional batteries”, US Patent App. 14/671,812, 2015. View patent
3- Baumgartner, C.E., Fobare, D.F., DeJule, M.C., Wei, C.Y., Hennessy, W.A., Wojnarowski, R.J., Ardebili, H., Burdick, Jr., W.E. “Direct CsI scintillator coating for improved digital X-ray detector assembly longevity”, Patent No. 6,720,561, April 13, 2004. View patent
JOURNAL PUBLICATIONS
29- Ghadi B.M. ,Hekmatnia B. ,Fu Q. ,Ardebili H. “Stretchable fabric-based lithium-ion battery”. Extreme Mechanics Letters, 2023
28- Aderyani S, Shah SA, Masoudi A, Green MJ, Lutkenhaus JL, Ardebili H. “Comparison of Nanoarchitecture to Porous Media Diffusion Models in Reduced Graphene Oxide/Aramid Nanofiber Electrodes for Supercapacitors.” ACS nano. 2020
27- (Invited) Ardebili, H. ” A perspective on the mechanics issues in soft solid electrolytes and the development of the next-generation batteries”. Journal of Applied Mechanics, 2019
26- Moradi, B., Yuan, M., Kammoun, M., and Ardebili, H. ” Stretchable fabric based electrodes for lithium ion batteries”. Extreme Mechanics Letters, 2019
25- (Editor’s pick) Kelly, T.D., Yuan, M., Kammoun, M., and Ardebili, H. ” In situ strain dependent electrochemical characterization of stretchable-sliding battery”. accepted for publication AIP Advance ADV19-AR-02015-TR 2019
24- Shi, Y., Chen, Y., Liang, Y., Andrews J., Dong, H., Yuan, M., Ding, W., Banerjee, S., Ardebili, H., Robertson, M., Cui, X., and Yao, Y.”Chemically Inert Covalently Networked Triazole-based Solid Polymer Electrolytes for Stable All-solid-state Lithium Batteries”. accepted for publication in Journal of Materials Chemistry A, 2019
23- Aderyani, S., Flouda, P., Lutkenhaus, J., and Ardebili, H.,”The effect of nanoscale architecture on ionic diffusion in rGo/Aramid nanofiber Structural Electrodes” Journal of Applied Physics, 125, 185106- 2019
22- Truong PV, Shingleton S , Kammoun M , Black RL, Charendoff M, Willis C, Ardebili H. and Stein GE., “Structure and properties of sulfonated pentablock terpolymer films as a function of wet–dry cycles” Macromolecules 51 (6), 2203-2215. 2018
21- Berg, S., A. Akturk, M. Kammoun, and H. Ardebili. “Flexible batteries under extreme bending: Interfacial contact pressure and conductance.” Extreme Mechanics Letters 13 (2017): 108-115. View Article
20- Zhu, B., M. G. Barnes, H. Kim, M. Yuan, H. Ardebili, and R. Verduzco. “Molecular Engineering of Step-growth Liquid Crystal Elastomers.” Sensors and Actuators B: Chemical (2017). View Article
19- Yayathi, Sandeep, William Walker, Daniel Doughty, and Haleh Ardebili. “Energy distributions exhibited during thermal runaway of commercial lithium ion batteries used for human spaceflight applications.” Journal of Power Sources 329 (2016): 197-206. View Article
18- Kammoun, M., Sean B., and Haleh Ardebili. “Stretchable spiral thin-film battery capable of out-of-plane deformation.” Journal of Power Sources 332 (2016): 406-412. View Article
17- Kelly, Taylor, Bahar Moradi Ghadi, Sean Berg, and Haleh Ardebili. “In Situ Study of Strain-Dependent Ion Conductivity of Stretchable Polyethylene Oxide Electrolyte.” Scientific reports 6 (2016). View Article
16- Li, Qin, and Haleh Ardebili. “Flexible thin-film battery based on solid-like ionic liquid-polymer electrolyte.” Journal of Power Sources 303 (2016): 17-21. View Article
15- Kammoun, M., S. Berg, and H. Ardebili. “Flexible thin-film battery based on graphene-oxide embedded in solid polymer electrolyte.” Nanoscale 7, no. 41 (2015): 17516-17522. View Article
14- Yuan, Mengying, Jeremy Erdman, Changyu Tang, and Haleh Ardebili. “High Performance Solid Polymer Electrolyte with Graphene Oxide Nanosheets” RSC Advances 4 (2014): 59637-59642. View Article
13- Li, Qin, and Haleh Ardebili. “Atomistic investigation of the nanoparticle size and shape effects on ionic conductivity of solid polymer electrolytes” Solid State Ionics 268 (2014): 156-161. View Article
12- Mejdi Kammoun, Lauren Lundquist and Haleh Ardebili, “High Proton Conductivity Membrane With Coconut Shell Activated Carbon” Ionics 21(2015):1665-1674. View Article
11- Walker, W., and H. Ardebili. “Thermo-electrochemical analysis of lithium ion batteries for space applications using Thermal Desktop” Journal of Power Sources 269 (2014): 486-497. View Article
10- Adhikari, Ananta R., Irene Rusakova, Ardebili Haleh, Jonathan Luisi, Neli I. Panova, Fernanda Laezza, and Wei-Kan Chu. “Thermal property and assessment of biocompatibility of poly (lactic-co-glycolic) acid/graphene nanocomposites” Journal of Applied Physics 115, no. 5 (2014): 054701. View Article
9- Li, Q., Wood, E. and Ardebili, H., “Elucidating the mechanisms of ion conductivity enhancement in polymer nanocomposite electrolytes for lithium ion batteries”, Applied Physics Letters 102 (2013): 243903. View Article
8- Tang, C.*, Hackenberg, K.*, Fu, Q., Ajayan, P.M. and Ardebili, H., “High ion conducting polymer nanocomposite electrolytes using hybrid nanofillers”, Nano Letters 12 (2012): 1152–1156. View Article
7- (Invited) Li, Q.*, Patel, C.*, and Ardebili, H., “Mitigating the dead-layer effect in nanocapacitors using graded dielectric film”, International Journal of Smart and Nano Materials 3 (2012): 23-32. View Article
6- Tabatabaei, S.*, Kumar, A., Ardebili, H., Loos, P.J., and Ajayan, P.M., “Synthesis of Au-Sn alloy nanoparticles for lead-free electronics with unique combination of low and high melting temperatures”, Microelectronics Reliability, 52(2012):2685-2689. View Article
5- Sharma, P., Ganti, S., Ardebili, H., and Alizadeh, A., “On the Scaling of Thermal Stresses in Passivated Nano-interconnects”, Journal of Applied Physics 95 (2004): 2763. View Article
4- Ardebili, H., Wong, E.H., and Pecht, M., “Hygroscopic swelling and sorption characteristics of epoxy molding compounds used in electronic packaging”, IEEE Transactions on Components and Packaging Technologies 26 (2003): 206-214. View Article
3- Ardebili, H., Hillman, C., Natishan, M., McCluskey, Pecht, M., and Peterson, D., “A comparison of the theory of moisture diffusion in plastic encapsulated microelectronics with moisture sensor chip and weight-gain measurements”, IEEE Transactions on Components and Packaging Technologies 25 (2002): 132-139. View Article
2- Sharma, P., Ardebili, H. and Loman, J., “A Note on the Thermal Stresses in Passivated Metal Interconnects”, Applied Physics Letters 79 (2001): 1706. View Article
1- Pecht, M., Ardebili, H., Shukla, A.A., Hagge, J.K., and Jennings, D., “Moisture ingress into organic laminates”, IEEE Transactions on Components and Packaging Technologies 22 (1999): 104-110. View Article