Published January 10, 2025 | Version v1
Journal article Open

Seamless Evolution of Molecular Machines to Quantum Coherence: A Unified Tribute to Sir Fraser Stoddart

Description

This work, titled "Seamless Evolution of Molecular Machines to Quantum Coherence: A Unified Tribute to Sir Fraser Stoddart", presents a novel framework bridging molecular nanotechnology and quantum coherence.

Building on Sir Fraser Stoddart’s groundbreaking contributions to molecular machines, the study integrates ATP-driven quantum-biological coherence models with the Unified Balanced Theory Formula (UBTF). 

A unified Hamiltonian, combining classical mechanical and quantum components, is derived to provide a robust mathematical foundation for understanding quantum-molecular interactions.

Through detailed simulation studies and proposed experimental protocols, we demonstrate the feasibility of validating quantum-controlled molecular devices, highlighting ATP-dependent coherence stability.

These findings offer significant implications for advancing quantum biology, molecular electronics, and the development of quantum-coherent molecular computing devices.

This manuscript honors Sir Fraser Stoddart’s legacy while opening new pathways in molecular-scale quantum technologies.

Files

Seamless Evolution of Molecular Machines to Quantum Coherence_ A Unified Tribute to Sir Fraser Stoddart - Google Docs.pdf

Additional details

Dates

Submitted
2025-01-10
2025-01-03

Software

Repository URL
https://doi.org/10.5281/zenodo.14625697
Programming language
Python
Development Status
Active

References