High efficiency solar panel

What is claimed is: 1. A solar panel, comprising: a plurality of solar cell strips arranged into m subsets, wherein m is an integer greater than one; wherein a respective solar cell strip has a rectangular shape with a long edge and a short edge, and wherein a length of the long edge is substantially m times that of the short edge, wherein solar cell strips in a respective subset are electrically coupled in series; and wherein the m subsets of solar cell strips are electrically coupled in parallel. 2. The solar panel of claim 1 , wherein the solar cell strip is obtained by dividing a substantially square shaped solar cell into three pieces. 3. The solar panel of claim 1 , wherein a respective subset comprises solar cell strips obtained by dividing n substantially square shaped solar cells into m×n strips, with each substantially square shaped solar cell being divided into m strips. 4. The solar panel of claim 1 , wherein the solar cell strip is a double-sided tunneling heterojunction photovoltaic structure, which includes: a base layer; first and second quantum tunneling barrier (QTB) layers deposited on both surfaces of the base layer; an amorphous silicon emitter layer; and an amorphous silicon surface field layer; wherein the solar cell can absorb light from both surfaces. 5. The solar panel of claim 1 , wherein the solar cell strip comprises a first metal grid on a first side and a second metal grid on a second side, wherein the first metal grid comprises a first edge busbar located at an edge on the first side, and wherein the second metal grid comprises a second edge busbar located at an opposite edge on the second side of the solar cell. 6. The solar panel of claim 5 , wherein the first metal grid and the second metal grid comprises an electroplated Cu layer. 7. The solar panel of claim 5 , wherein two adjacent solar cell strips in a subset are positioned such that a first edge busbar of one solar cell strip is in direct contact with a second edge busbar of the other solar cell strip, thereby facilitating a serial connection between the two adjacent solar cell strips and eliminating uncovered space there between. 8. The solar panel of claim 1 , wherein the solar cell strips in a respective subset form a U-shaped string. 9. The solar panel of claim 1 , wherein the solar cell strips in the respective subset are physically coupled.