Lithium-ion batteries have dominated the consumer electronics market as a power source for decades, thanks to their advantageous features such as high energy density, high efficiency, light weight, portability and safety. In the application of lithium-ion batteries with liquid electrolytes, it has been reported that some serious problems such as leakage, flames and explosions occur due to the presence of highly flammable organic liquid electrolytes. The use of solvent-free solid electrolytes is the ideal way to solve the current safety issue of liquid electrolytes, but this advantage comes with significantly reduced conductivity. In order to combine the positive properties of liquid and solid polymer electrolytes, respectively gel polymer electrolytes with higher ionic conductivity and greater stability have been introduced. Polyurethane acrylate (PUA) based polymer electrolytes have been investigated for use in electrochemical energy storage applications due to their. high ionic conductivity, excellent mechanical strength, and easily controllable physical properties and high curing rate. Aliphatic Polyurethane acrylate and polyurethane methacrylate based films were prepared using ionic monomers such as Pentaerythritol tetrakis (3-mercaptopropionate) and 3-mercaptopropyl trimethoxysilane using photoinitiator and thiol-ene with solgel method. The preparation step of the bendable flexible polymer electrolytes was carried out with UV curing technology. UV curing technology, which has been used as a method in gel film preparation, has received great attention due to its various advantages such as high efficiency, light curing conditions, low capital expenditure, low energy consumption.