Lithium-ion batteries (LIBs) have raised increasing interest due to their high potential for efficient energy storage and environmental sustainability. Conventional polymer (polyurethane, PU) binders used in PU-based LIBs offer high flexibility and mechanical strength, making them effective in accommodating the volumetric changes of electrodes and ensuring structural stability. However, these polymer-based binders exhibit low electrical conductivity and presents environmental challenges during both its production and disposal. Therefore, in order to address the limitations of polymer-based binders, this study has developed a novel petroleum pitch (SM 260)/polymer (polyurethane, PU) composite binder to enhance the electrochemical performance and stability of the LIBs compared to conventional polymer (polyurethane, PU) binder based LIBs. Especially, the PU binder base LIBs were maintained a reversible capacity of 80 mAh/g and retention value of 25% after 100 cycles. In contrast, he SM260/PU composite binder base LIBs were maintained a reversible capacity of 208 mAh/g and retention value of 68% after 100 cycles.