Solar cells based on inkjet-printed layer polymer

Abstract

In recent years, based on organic–inorganic hybrid solar cells the p-type conducting polymer poly (3,4-ethylenedioxythiophene): poly styrene sulfonate (PEDOT: PSS) and n-type silicon (Si) have attracted a lot of attention. We describe an efficient hybrid solar cell based on PEDOT from this perspective: The simplest and most cost-effective method is to use PSS and a planar Si substrate (1 0 0) fabrication method effective techniques for experimentation Drop casting was used to construct PSS at temperatures, solar cells based on a heterojunction between crystalline silicon and the organic polymer PEDOT: below 100 degrees Celsius. The Si/PEDOT interface prevents electrons from migrating to the anode in n-type silicon and serves diffused p-n junctions as a low-temperature alternative The devices take the consequence of silicon’s absorption and transfer of light capabilities while combining them with organics’ ease of manufacture. PEDOT: PSS and PEDOT: PSS interface properties hermetic Psi were studied. The structural, optical and morphological properties in addition to electrical PSS is a property of PEDOT. were studied, the effectiveness of The flawlessly matching contact between the PEDOT: PSS film and the tight silicon can be attributed to conversion. Obtaining Silver pave efficiency is a glowing future approach in order to attain maximum efficiency, low-cost solar cells.