Global Warming Issues

Former Vice President Al Gore on Thursday urged the United States to wean the nation from its entire electricity grid to carbon-free energy within 10 years, warning that drastic steps were needed to avoid a global economic and ecological cataclysm.

Like a modern Jeremiah, Mr. Gore called down thunder to justify the spending of trillions of dollars to remake the American power system, a plan fraught with technological and political challenges that goes far beyond the changes recently debated in Congress and by world leaders.

Read more…

Scientists from the British Antarctic Survey (BAS) show how the rate of iceberg scouring on the West Antarctic Peninsula seabed is affected by the duration of winter sea ice, which has dramatically declined (in space and time) in the region over the last few decades due to climate warming. This increase in iceberg disturbance on the seabed, where the majority of all Antarctic life occurs (80%), could have severe effects on the marine creatures living as deep as 500m underwater.

Read more…

Adding an ultra-thin wafer or foil of active silicon on top of a low-cost substrate is a promising solution to reduce the amount of high-grade silicon used in solar cells. IMEC is pursuing different paths to produce such foils of crystalline Si at an acceptable cost. One of the promising methods is a lift-off process that only requires the use of a screen printer and a belt furnace; no ion-implanted or porous layer is needed.

A metallic layer is screenprinted on top of a thick crystalline Si wafer, which is then annealed in a belt furnace at a high temperature. When the wafer cools, the mismatch of the thermal expansion coefficient between the metal and the silicon induces a stress field in the substrate.

The stress field grows, initiating and propagating a crack in the silicon, close to and parallel with the surface. Next, the top layer of the silicon and the attached metal layer snap off from the parent substrate. The metal layer is removed from the silicon foil in a metal-etching solution, resulting in a clean and stress-free ultra-thin silicon foil. The substrate can be re-used to peel off further layers.

The process was demonstrated on both single- and multi-crystalline silicon, as well as on Cz (Czochralski or a method of crystal growth used to obtain single crystals of semiconductors) material with different orientations. IMEC already produced foils with an area of 25cm² and a thickness of 30-50µm.

One of the resulting thin Cz foils was further processed into a solar cell using a heterojunction emitter process. The 1cm² cell reached an efficiency of 10.0%, without back-surface passivation or intentional surface texturing. These preliminary results indicate that the quality of the material is largely preserved during the lift-off process, in spite of the large stresses involved. IMEC expects to reach much higher efficiencies with added surface passivation and texturing.