 M-zines are promising two-dimensional materials that have been applied in various areas due to their unique properties. These materials have attracted significant attention within the scientific community due to their multifunctionality, resulting in increasing demands for wearable electronics, green energy, and miniaturization. Additionally, these materials have been used to create a flexible, transparent, and conductive electrode, FTC, that can be applied to realize an inverted organic solar cell, OSC, with memory and learning functionalities. This optimized FTC exhibits high transmittance, 84 percent, low sheet resistance, 9.7 omega sq1, and reliable operation, even after 2,000 bending cycles. Moreover, the OSC using this FTC achieves a power conversion efficiency of 13.86 percent and sustained photovoltaic performance, even after hundreds of switching cycles. The fabricated members of OSC, MEMOSC, device also exhibits reliable resistive switching behavior at low operating voltages of 0.60 and minus 0.33V, similar to biological synapses, and excellent on off-ratio 103 stable endurance performance. This article was authored by Kiran A. Nirmal, Wanchiren, Atul C. Kott, and others. We are article.tv, links in the description below.