Big solar panels in structures may soon become something of this past. A new project seeks to produce new solar technologies for tapping the sunlight's bountiful energy straight through building construction materials on their own. Looks appears to be one of the forces that are driving extensive deployment of building-integrated photovoltaics (BIPV). This tantalising energy that is sustainable supplies the chance of generating electricity and changing main-stream construction materials. The demand for diverse shapes, sizes, colours and transparency amounts is high; nonetheless, these products are lacking. Current PV modules are derived from fixed shapes and electric production. Even though this can be ideal for large solar plants, it really is costly and inefficient for building designs or other products that are solar-powered. Addressing the need for customised PV cells which can be flexible and simple to integrate, the project centers around developing unique cell that is solar and manufacturing processes. A first aim is to build up brand new scribing and printing technologies which will enable monolithically interconnected versatile solar modules. The newest monolithic interconnection procedures should simplify the manufacturing of thin-film modules, permitting modification of this electrical properties of a PV module along with its decoration. Another main part of focus is on identifying novel materials for the front surface grid make it possible for various habits and colours. Significant progress in creating the BIPV while the product-integrated PV prototypes happens to be already achieved. A significant part regarding the work happens to be intended for developing the solar cell fabrication processes. Another task happens to be to produce custom-made copper-indium-gallium-selenide materials to be deposited in the flexible substrates. Focus was placed on attaining selective ablation by laser regarding the solar mobile movies that is important for producing thin-film solar modules. Other project activities consist of growth of high-precision, large-scale publishing technologies that enable exact publishing of interconnection levels in to the laser-scribed microgrooves. With the exception of buildings, thin-film, lightweight and versatile high-performance solar modules are attractive for many applications such as for instance electronic devices and vehicles that are electric.