| Carbon nanotube assembly and integration for applications A Venkataraman, EV Amadi, Y Chen, C Papadopoulos Nanoscale research letters 14, 1-47, 2019 | 336 | 2019 |
| Nanoscale self-assembly: concepts, applications and challenges EV Amadi, A Venkataraman, C Papadopoulos Nanotechnology 33 (13), 132001, 2022 | 59 | 2022 |
| Electronic transport in metal-molecular nanoelectronic networks: A density functional theory study A Venkataraman, P Zhang, C Papadopoulos AIP advances 9 (3), 2019 | 13 | 2019 |
| Thin Film Gas Sensors Based on Planetary Ball-Milled Zinc Oxide Nanoinks: Effect of Milling Parameters on Sensing Performance R Sapkota, P Duan, T Kumar, A Venkataraman, C Papadopoulos Applied Sciences 11 (20), 9676, 2021 | 11 | 2021 |
| Self‐assembled gold nanoparticle–molecular electronic networks P Zhang, A Venkataraman, C Papadopoulos physica status solidi (b) 254 (9), 1700061, 2017 | 9 | 2017 |
| Negative differential resistance and hysteresis in self‐assembled nanoscale networks with tunable molecule‐to‐nanoparticle ratios A Venkataraman, EV Amadi, TSM Zaborniak, P Zhang, C Papadopoulos physica status solidi (b) 257 (6), 2000019, 2020 | 8 | 2020 |
| Carbon Nanotube Assembly and Integration for Applications, Nanoscale Res. Lett. 14 (2019) A Venkataraman, EV Amadi, Y Chen, C Papadopoulos | 7 | |
| Carbon nanotube assembly and integration for applications, Nanoscale Res. Lett. 14 (2019) 220 A Venkataraman, EV Amadi, Y Chen, C Papadopoulos | 6 | |
| Nanoelectronic circuit elements based on nanoscale metal–molecular networks EV Amadi, A Venkataraman, T Zaborniak, C Papadopoulos Journal of Computational Electronics, 1-15, 2021 | 5 | 2021 |
| Molecular-scale hardware encryption using tunable self-assembled nanoelectronic networks A Venkataraman, E Amadi, C Papadopoulos Micro 2 (3), 361-368, 2022 | | 2022 |
| Self-assembled nanoelectronic networks with tunable molecule-nanoparticle ratios: experiment, modeling, and applications A Venkataraman | | 2021 |
