This abstract is written with consideration of current problems affecting the efficiency of electric bike batteries. Pollution has an impact on changing the environment in daily life; to avoid this, eco-bikes have been introduced to the market. This electric bike is electricallypowered with a high eco system contribution and uses an alternate source of fuel. In comparison to current electric bikes, the amount of energy used is very small, making it a more eco-friendly mode of transportation. E-bikes use rechargeable batteries, and the lighter ones can travel up to 45 km/h depending on local laws. We consider the present scenario of the electric bikes available on the market, which have a battery to supply the motor connected to the bike. This battery will be drained on gradient surfaces, and current electric bikes also fail to deliver an equivalent amount of efficiency to a fuel-based motorbike. Due to this drawback found through the customary method, this proposed system incorporates solutions for the electric bike's efficiency as well as its battery drainage conditions on gradient surfaces. It is designed in such a way as to provide higher efficiency than the current E-bikes available on the market. For this efficient process, a highly powered battery has been newly designed. In addition to this, a Global Positioning System, a theft alarm system, and an IoT-based locking system have been installed in this eco-bike. This bike also provides safety measures to the person who is driving it. It also avoids accidents while driving by using sensors. If this design model is successful, a reduction in the power drainage of the battery on a gradient surface can be achieved. In the future, we will also update the solar mode of energy with a Smart Mobility System.