Journal Publications
18. J. Avendano Bolivar and K. Brenner. “Coherent Phonon Dynamics in Disordered Transition Metal Dichalcogenides.” in preparation.
17. J. Avendano Bolivar, S. Parker, P. Xu, S. Wallen, M. Haberman, and K. Brenner. “The propagation of acoustic pressure at two-dimensional material interfaces.” in preparation.
16. I. Datye, A. Daus, R. Grady, K. Brenner, S. Vaziri, and E. Pop. “Strain-Enhanced Mobility of Monolayer MoS2.” Nano Letters 22, 20, 8052-8059 (2022). PDF
15. A. Daus, S. Vaziri, V. Chen, C. Koroglu, R. Grady, C. Bailey, H. Lee, K. Schauble, K. Brenner, and E. Pop. “High-performance flexible nanoscale field-effect transistors based on transition metal dichalcogenides,” Nature Electronics (2021). PDF
14. A. Kahn, P. Khakbaz, K. Brenner, K. Smithe, M. Mleczko, D. Esseni, and E. Pop . “Large temperature coefficient of resistance in atomically-thin two-dimensional materials,” Applied Physics Letters, 116, 203105 (2020). PDF
13. B. Ma, K. Firouzi, K. Brenner, and B. Khuri-Yakub. “High bandwidth and low driving voltage CMUTs for airborne applications,” IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control 66, 11 (2019). PDF
12. K. Brenner, S. Ergun, K. Firouzi, M. Rasmussen, Q. Stedman, and B. Khuri-Yakub. “Advances in capacitive micromachined ultrasonic transducers,” Micromachines, 10, 152 (2019). PDF
11. J. Jang, C. Chang, M. Rasmussen, K. Brenner, Q. Stedman, A. Ergun, and B. Khuri-Yakub. “Dual-mode capacitive micromachined transducer arrays for high intensity focused ultrasound and imaging,” The Journal of the Acoustical Society of America, 144, 1698 (2018). PDF
10. R. Nashed, C. Pan, K. Brenner, and A. Naeemi. “Field emission from graphene sheets and its application in floating gate memories,” Semiconductor Science & Technology, 33, 125003 (2018). PDF
9. R. Nashed, C. Pan, K. Brenner, and A. Naeemi. “Ultra-high mobility in dielectrically pinned CVD graphene,” IEEE Journal of the Electron Device Society, (2016). PDF
8. K. Brenner, T. Beck, and J. Meindl. “Enhancing hysteresis in graphene devices using dielectric screening,” IEEE Electron Device Letters 33, 1195-1197 (2012). PDF
7. S. Bryan, K. Brenner, R. Murali, and J. Meindl. “P-type electrical transport of chemically doped epitaxial graphene nanoribbons,” IEEE Electron Device Letters 33, 866-868 (2012). PDF
6. Y. Yang, K. Brenner, and R. Murali. “The influence of atmosphere on the electrical transport of graphene,” Carbon 50, 1727-1733 (2012). PDF
5. K. Brenner, Y. Yang, and R. Murali. “Edge doping of graphene sheets,” Carbon 50, 637-645 (2012). PDF
4. K. Brenner and R. Murali. “In situ doping of graphene by exfoliation in a nitrogen ambient,” Applied Physics Letters 98, 113115 (2011). PDF
3. K. Brenner and R. Murali. “Single step, complimentary doping of graphene,” Applied Physics Letters 96, 063104 (2010). PDF
2. R. Murali, K. Brenner, Y. Yang, T. Beck, and J. Meindl. “Resistivity of graphene nanoribbon interconnects,” IEEE Electron Device Letters 30, 611-613 (2009). PDF
1. R. Murali, Y. Yang, K. Brenner, T. Beck, and J. Meindl. “Breakdown current density of graphene nanoribbons,” Applied Physics Letters 94, 243114 (2009). PDF
Conference Proceedings and Abstracts
1. J. Avendano Bolivar and K. Brenner. “A molecular dynamics investigation of coherent phonons in layered transition metal dichalcogenides.” MRS Spring Meeting 2023.