9 |
[Joule, IF: 27.054]Monolayer Perovskite Bridges Enable Strong Quantum Dot Coupling for Efficient Solar Cells
| admin | 2020.11.01 | 622 |
8 |
[Advanced Energy Materials, IF: 29.368] Mediating colloidal quantum dot/organic semiconductor interfaces for efficient hybrid solar cells
| admin | 2022.05.11 | 582 |
7 |
[Nat. Commun. IF: 11.880] Enhanced Optical Path and Electron Diffusion Length Enable High-Efficiency Perovskite Tandems
| admin | 2020.06.06 | 541 |
6 |
[Advanced Materials, IF: 30.8, Top 2%] Fast Near-Infrared Photodetection using III-V Colloidal Quantum Dots
| NECO | 2022.12.06 | 518 |
5 |
[Nat. Nanotech. IF: 31.538] Bipolar Shell Resurfacing Enables Blue LEDs based on Strongly-Confined Perovskite Quantum Dots
| admin | 2020.06.06 | 511 |
4 |
[Applied Surface Science, IF: 6.8, Top 5%] Surface tailoring enables colloidal quantum dot:metal-oxide nanocrystal hybrid ink for broadband photon energy conversion
| NECO | 2022.12.06 | 489 |
3 |
[Joule, IF: 27.054] Monolayer Perovskite Bridges Enable Strong Quantum Dot Coupling for Efficient Solar Cells
| admin | 2020.07.13 | 385 |
» |
[ACS Energy letters, IF: 23.9, Top 5%] Near-Unity Broadband Quantum Efficiency Enabled by Colloidal Quantum Dot/Mixed-Organic Heterojunction
| NECO | 2023.04.24 | 121 |
1 |
[Nat. Commun. IF: 11.880] Orthogonal colloidal quantum dot inks enable efficient multilayer optoelectronic devices
| admin | 2020.09.24 | 107 |