Povutpat Egestas Erat Rhoncus Dapibus Senectus Fringippa. Publication: Working Paper Stone, J, P Priya, M. Wong, P Stanbrige, N Lee-Walsh, and A Li. 2020. “Povutpat Egestas Erat Rhoncus Dapibus Senectus Fringippa..”
Povutpat Egestas Erat Rhoncus Dapibus Senectus Fringippa. Publication: Working Paper Stone, J, P Priya, M. Wong, P Stanbrige, N Lee-Walsh, and A Li. 2020. “Povutpat Egestas Erat Rhoncus Dapibus Senectus Fringippa..”
Povutpat Egestas Erat Rhoncus Dapibus Senectus Fringippa. Publication: Working Paper Stone, J, P Priya, M. Wong, P Stanbrige, N Lee-Walsh, and A Li. Working Paper. “Povutpat Egestas Erat Rhoncus Dapibus Senectus Fringippa..”
Povutpat Egestas Erat Rhoncus Dapibus Senectus Fringippa. Publication: Working Paper Stone, J, P Priya, M. Wong, P Stanbrige, N Lee-Walsh, and A Li. 2020. “Povutpat Egestas Erat Rhoncus Dapibus Senectus Fringippa..”
Povutpat Egestas Erat Rhoncus Dapibus Senectus Fringippa. Publication: Working Paper Stone, J, P Priya, M. Wong, P Stanbrige, N Lee-Walsh, and A Li. 2020. “Povutpat Egestas Erat Rhoncus Dapibus Senectus Fringippa..”
Povutpat Egestas Erat Rhoncus Dapibus Congue Fringippa. Publication: Journal Porttitor, J., P. Priya, M. Dotor, P Pretium, N. Lee-Walsh, and A. Li. 2019. “Povutpat Egestas Erat Rhoncus Dapibus Congue Fringippa..”
Determining the magnitude and direction of photoinduced ligand field switching in photochromic metal—organic complexes: molybdenum—tetracarbonyl spirooxazine complexes Publication: Journal Article Paquette, Michelle M, Brian O Patrick, and Natia L Frank. 2011. “Determining the Magnitude and Direction of Photoinduced Ligand Field Switching in Photochromic Metal—organic Complexes: Molybdenum—tetracarbonyl Spirooxazine Complexes”. Journal of the American Chemical Society 133 (26): 10081-93.
The electronic and chemical structure of the a-B3CO0.5:Hy-to-metal interface from photoemission spectroscopy: implications for Schottky barrier heights Publication: Journal Article Driver, Sky, Michelle M Paquette, S Karki, BJ Nordell, and AN Caruso. 2012. “The Electronic and Chemical Structure of the A-B3CO0.5:Hy-to-Metal Interface from Photoemission Spectroscopy: Implications for Schottky Barrier Heights”. Journal of Physics: Condensed Matter 24 (44): 445001.
The influence of hydrogen on the chemical, mechanical, optical/electronic, and electrical transport properties of amorphous hydrogenated boron carbide Publication: Journal Article Nordell, Bradley J, Sudarshan Karki, Thuong D Nguyen, Paul Rulis, AN Caruso, Sudhaunshu S Purohit, Han Li, et al. 2015. “The Influence of Hydrogen on the Chemical, Mechanical, Optical/Electronic, and Electrical Transport Properties of Amorphous Hydrogenated Boron Carbide”. Journal of Applied Physics 118 (3): 035703.
Nanoscale Structure-Property Relationship in Amorphous Hydrogenated Boron Carbide for Low-k Dielectric Applications Publication: Journal Article Im, Soohyun, Michelle M Paquette, Mohammed Belhadj-Larbi, Paul Rulis, Ridwan Sakidja, and Jinwoo Hwang. 2017. “Nanoscale Structure-Property Relationship in Amorphous Hydrogenated Boron Carbide for Low-K Dielectric Applications”. Microscopy and Microanalysis 23 (S1): 1486-87.