Abstract

Water, the ubiquitous yet enigmatic molecule of life, harbors within its structure a realm of quantum mysteries that are increasingly captivating the attention of scientists in the burgeoning field of quantum computing. In this review, we embark on a journey through the fluid landscapes of quantum mechanics, where water molecules emerge as pivotal players in the quest for computational supremacy. From unraveling the intricate dance of hydrogen bonds to probing the delicate interplay of quantum coherence and entanglement, we explore the fundamental principles underlying water's quantum behavior and its profound implications for computing. As researchers navigate the uncharted waters of quantum hydrology, they uncover new vistas of opportunity, from harnessing water's quantum properties for computing advances to envisioning innovative applications in environmental monitoring and beyond. Through this synthesis of theoretical insights and experimental endeavors, we glimpse the promise of a future where quantum water computing stands poised to revolutionize our understanding of nature and reshape the technological landscape. Join us as we dive deep into the quantum symphony of water molecules and chart a course toward unprecedented frontiers in computation and discovery.