Here high-efficiency (above 21%) large-area silicon heterojunction solar cells with atomic layer deposited ZnO:Al as front-or back-side transparent conducting oxide are demonstrated. Photoconductance decay measurements indicate that the excellent chemical passivation provided by the a-Si:H(i,p) and a-Si:H(i,n) stacks is preserved upon deposition of ZnO:Al, and that field-effect passivation losses for the a-Si:H(i,p)/ZnO:Al contact can be mitigated by lowering the Al dopinglevel. Use of low Al-doping is enabled by the rear-emitter configuration which, in addition to facilitating the a-Si:H(i,p)/ZnO:Al contact engineering, enables a higher photo-current due to the decrease in free-carrier absorption in ZnO:Al. The results encourage the use of...
Transparent conductive oxide TCO layers of aluminum doped zinc oxide ZnO Al were investigated a...
Transparent conductive oxide TCO layers of aluminum doped zinc oxide ZnO Al were investigated a...
A key factor to improve the performance of silicon heterojunction solar cells (SHJ) is increasing th...
Here high-efficiency (above 21%) large-area silicon heterojunction solar cells with atomic layer dep...
Here high-efficiency (above 21%) large-area silicon heterojunction solar cells with atomic layer dep...
Here high-efficiency (above 21%) large-area silicon heterojunction solar cells with atomic layer dep...
Here high-efficiency (above 21%) large-area silicon heterojunction solar cells with atomic layer dep...
Here high-efficiency (above 21%) large-area silicon heterojunction solar cells with atomic layer dep...
Here high-efficiency (above 21%) large-area silicon heterojunction solar cells with atomic layer dep...
In silicon heterojunction solar cells, the main opportunities for efficiency gain lie in improvement...
In silicon heterojunction solar cells, the main opportunities for efficiency gain lie in improvement...
In silicon heterojunction solar cells, the main opportunities for efficiency gain lie in improvement...
Transparent conductive oxide (TCO) layers of aluminum-doped zinc oxide (ZnO:Al) were investigated as...
In silicon heterojunction solar cells, the main opportunities for efficiency gain lie in improvement...
In silicon heterojunction solar cells, the main opportunities for efficiency gain lie in improvement...
Transparent conductive oxide TCO layers of aluminum doped zinc oxide ZnO Al were investigated a...
Transparent conductive oxide TCO layers of aluminum doped zinc oxide ZnO Al were investigated a...
A key factor to improve the performance of silicon heterojunction solar cells (SHJ) is increasing th...
Here high-efficiency (above 21%) large-area silicon heterojunction solar cells with atomic layer dep...
Here high-efficiency (above 21%) large-area silicon heterojunction solar cells with atomic layer dep...
Here high-efficiency (above 21%) large-area silicon heterojunction solar cells with atomic layer dep...
Here high-efficiency (above 21%) large-area silicon heterojunction solar cells with atomic layer dep...
Here high-efficiency (above 21%) large-area silicon heterojunction solar cells with atomic layer dep...
Here high-efficiency (above 21%) large-area silicon heterojunction solar cells with atomic layer dep...
In silicon heterojunction solar cells, the main opportunities for efficiency gain lie in improvement...
In silicon heterojunction solar cells, the main opportunities for efficiency gain lie in improvement...
In silicon heterojunction solar cells, the main opportunities for efficiency gain lie in improvement...
Transparent conductive oxide (TCO) layers of aluminum-doped zinc oxide (ZnO:Al) were investigated as...
In silicon heterojunction solar cells, the main opportunities for efficiency gain lie in improvement...
In silicon heterojunction solar cells, the main opportunities for efficiency gain lie in improvement...
Transparent conductive oxide TCO layers of aluminum doped zinc oxide ZnO Al were investigated a...
Transparent conductive oxide TCO layers of aluminum doped zinc oxide ZnO Al were investigated a...
A key factor to improve the performance of silicon heterojunction solar cells (SHJ) is increasing th...