Entangled spintronic modulated high-performance Ce2O3 small polaron surface state-based water splitting cells

High-performance spintronic water-splitting devices with high applied power, spintronic population under room temperature have been demonstrated by the Ce2O3 small polaron surface state-based spintronic injection system. Spintronic entanglement tomography decrypts the information about ultrahigh-energy conversion efficiency as high as 140% and the optimal applied voltage 0.682 V. Ce+3 ions demonstrate unpaired d orbital for achieving spin-orbital coupling by accepting the quantum information of angular momentum, spin, and orbital from incident laser light which modulated by h + h (up arrow up arrow), h + (- h) (down arrow up arrow), h - (-h) (up arrow down arrow) and (-h) + (-h) (down arrow down arrow) angular momentum. A practical way is been provided for achieving the spintronic entanglement in water splitting devices by describing the correlations between spintronic that interact and then separate. Thus, the quantum computing algorithm is encrypted and well decrypted by spin-orbital coupling. Besides, in this research, we demonstrated an ultra-high energy conversion water splitting cells with spintronic injection and spintronic entanglement. Comparing with theory power for water splitting, the spintronic entanglement water splitting devices in our research saved 30% power to achieve water splitting and hydrogen generation.

Automated summary

In this study, high-performance spintronic water-splitting devices with high applied power operating at room temperature were demonstrated using the Ce2O3 small polaron surface state-based spintronic injection system. The spintronic entanglement tomography decrypted information about ultrahigh-energy conversion efficiency and optimal applied voltage. Ce+3 ions exhibited unpaired d orbitals for achieving spin-orbital coupling by accepting quantum information from incident laser light.