Bio-Solar Cells – Researchers have found ways to connect nine biological-solar cells into bio-solar panels. This will help in continuously generating electricity from the panel. This was achieved by connecting nine identical bio-solar cells in a 3×3 pattern. This is to make it a scalable & stackable bio-solar panel. This panel will be able to continuously generate electricity from photosynthesis & respiratory activity of the bacteria in 12 day-night cycles. This is the latest step in using cyanobacteria as a source for generating clean & green solar energy. Cyanobacteria are found in almost every aquatic & terrestrial habitat on earth. These findings are currently available online & published in the June edition of Sensors & Actuators B: Chemical.

Reshaping Solar Spectrum to Turn Light into Electricity – Bulk of the expenses incurred during installing solar panels account for land & labor. Therefore, it could be made cheaper if less land was required to accommodate solar panels. The idea is to generate more power with each solar cell. Researchers at the University of California have found that combining inorganic semiconductor nanocrystals with organic molecules can succeed in up-converting two low energy photons into a single high-energy photon in the visible & near infrared region of the solar spectrum. This passes through the photovoltaic materials making up the solar system. Up-converted photons are readily absorbed by photovoltaic cells generating electricity from which was normally wasted. Infrared portion of the solar system can boost photovoltaic efficiency by over thirty percent.

Squeezing More Out of the Sun – Without any doubt, the sun is the best sustainable energy source on earth. However, the low efficiency of PV cells is the problem. Almost 80% of PV panels that are installed have a performance of 15% or lower. Moreover, if the panels are not found to be tracking with the sun, annual tilt losses can add up to minus seventy percent. Architects have now found ways to ‘squeeze more juice out of the sun’. This is also possible in low-light regions by creating a spherical sun power generator. This technology combines spherical geometry principles with dual-axis tracking system. Within a much smaller surface area, it allows twice the yield of conventional solar panels. Futuristic designs can be fully rotational & most suitable for walls of buildings, inclined surfaces & anyplace with access to the sky.

Concentrated PV Cells – Researchers at IBM have found a way to make concentrated PV cells. These cells are more efficient in converting energy from the sun into electricity. With help of this, it is now possible to increase 10 times the concentration of light without melting them. Eventually, this makes it possible to boost five times the amount of usable electrical energy produced. This technology uses a large lens to focus light onto a relatively small portion of PV semiconductor material. This will also reduce costs as only a fraction of the semiconductor material is used. This is achieved by placing an ultrathin layer of gallium & indium between the two surfaces. These metals have a very high thermal conductivity since they are in liquid form. Moreover, they are extremely thin around 10 micrometers. This system concentrates solar radiation about 2000 times & converts 80% of this useful energy & is able to power several average homes.