Rashed Rihani
Affiliations: | 2016-2020 | Bioengineering | University of Texas at Dallas, Richardson, TX, United States |
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Parents
Sign in to add mentor| Joseph J. Pancrazio | grad student | 2016-2020 | UT Dallas | |
| (earned PhD in Biomedical Engineering) | ||||
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| Garcia-Sandoval A, Guerrero E, Hosseini SM, et al. (2021) Stable softening bioelectronics: A paradigm for chronically viable ester-free neural interfaces such as spinal cord stimulation implants. Biomaterials. 277: 121073 |
| Rihani R, Tasnim N, Javed M, et al. (2021) Liquid Crystalline Polymers: Opportunities to Shape Neural Interfaces. Neuromodulation : Journal of the International Neuromodulation Society |
| Rihani RT, Stiller AM, Usoro JO, et al. (2020) Deployable, liquid crystal elastomer-based intracortical probes. Acta Biomaterialia |
| Maeng J, Rihani RT, Javed M, et al. (2020) Liquid crystal elastomers as substrates for 3D, robust, implantable electronics. Journal of Materials Chemistry. B |
| Atmaramani R, Chakraborty B, Rihani RT, et al. (2019) Ruthenium oxide based microelectrode arrays for in vitro and in vivo neural recording and stimulation. Acta Biomaterialia |
| Kim H, Gibson J, Maeng J, et al. (2019) Responsive, 3D Electronics Enabled by Liquid Crystal Elastomer Substrates. Acs Applied Materials & Interfaces |
| Joshi-Imre A, Black BJ, Abbott J, et al. (2019) Chronic recording and electrochemical performance of amorphous silicon carbide-coated Utah electrode arrays implanted in rat motor cortex. Journal of Neural Engineering |
| Usoro JO, Shih E, Black BJ, et al. (2019) Chronic stability of local field potentials from standard and modified Blackrock microelectrode arrays implanted in the rat motor cortex Biomedical Physics & Engineering Express. 5: 065017 |
| Rihani RT, Kim H, Black BJ, et al. (2018) Liquid Crystal Elastomer-Based Microelectrode Array for In Vitro Neuronal Recordings. Micromachines. 9 |
| Black BJ, Ecker M, Stiller A, et al. (2018) In vitro compatibility testing of thiol-ene/acrylate-based shape memory polymers for use in implantable neural interfaces. Journal of Biomedical Materials Research. Part A |