This paper explores the effectiveness of molecular verbal exchange in network Coding (NC) for enhancing community overall performance in Wi-Fi applications. Molecular communique (MC) is an emerging nanoscale verbal exchange approach that allows efficient and dependable transmission of information and indicators over Wi-Fi. By utilizing the variety of molecules, the performance of molecular communique can be appreciably multiplied. This paper examines how network Coding with molecular communication may be applied to improve network performance. Using a case evaluates the efficacy of this approach by looking at a wireless sensor community deployed in a temperate indoor environment. Consequences display growth in facts fee of as much as 30%, indicating a potential development in network performance via using network Coding with molecular conversation. The paper additionally discusses how network Coding can improve community safety, records accuracy, and general latency. Those potential upgrades are promising and future studies are needed to prove the effectiveness of community Coding with molecular verbal exchange in wireless applications. Molecular communique in community coding has emerged as a critical studies place due to its potential to enhance the bodily-layer overall performance of wireless networks. This paper evaluates the community and gadget's overall performance with molecular conversation in community coding for Wi-Fi packages. A theoretical evaluation, pc simulations, and experiments examine the gadget's performance. Moreover, the consequences of diverse parameters such as channel length, range of relay nodes, number of symbols transmitted, and coding fee are evaluated. The results imply that the overall performance of molecular conversation in network coding is superior to regular bodily-layer coding strategies, providing improved community throughput and conversation reliability. Additionally, the power efficiency of the proposed gadget is likewise tested. Additionally, the performance and complexity tradeoff of the proposed approach is evaluated within the context of different community topologies. Normal, our consequences reveal that molecular communique in network coding can offer an appealing answer..