9 |
[Nano Letters, IF: 12.340]Micron Thick Colloidal Quantum Dot Solids
| admin | 2020.11.01 | 139538 |
8 |
[Adv Mater, IF: 27.398] A Tuned Alternating D-A Copolymer Hole-Transport Layer Enables Colloidal Quantum Dot Solar Cells with Superior Fill Factor and Efficiency
| admin | 2020.11.01 | 846 |
7 |
[Nat. Commun. IF: 11.880] Orthogonal colloidal quantum dot inks enable efficient multilayer optoelectronic devices
| admin | 2020.09.24 | 113 |
6 |
[Joule, IF: 27.054] Monolayer Perovskite Bridges Enable Strong Quantum Dot Coupling for Efficient Solar Cells
| admin | 2020.07.13 | 469 |
5 |
[Nano Lett. IF:12.340] Micron Thick Colloidal Quantum Dot Solids
| admin | 2020.06.06 | 973 |
4 |
[Adv. Sci. IF: 15.804] Colloidal Quantum Dot Bulk Heterojunction Solids with Near-Unity Charge Extraction Efficiency
| admin | 2020.06.06 | 27135 |
3 |
[Nat. Nanotech. IF: 31.538] Bipolar Shell Resurfacing Enables Blue LEDs based on Strongly-Confined Perovskite Quantum Dots
| admin | 2020.06.06 | 559 |
2 |
[Science, IF: 41.063] Efficient Tandem Solar Cells with Solution-Processed Perovskite on Textured Crystalline Silicon
| admin | 2020.06.06 | 1254 |
1 |
[Nat. Commun. IF: 11.880] Enhanced Optical Path and Electron Diffusion Length Enable High-Efficiency Perovskite Tandems
| admin | 2020.06.06 | 592 |