Precision Synthesis of Magnetic Graphenoids as Room Temperature Two-Qubit Systems

Quantum computing technologies face a fundamental challenge of scalability, primarily due to the lack of materials capable of performing error-free quantum operations at room temperature.

Molecular graphenoids (MGs) have displayed superior quantum properties at room temperature, making them an attractive alternative.This project will bring novel magnetic graphenoids with atomic precision through scalable solution (wet) chemistry and study them as two-qubit systems at room temperature.

This proposal will also uncover the suitability of the spin arrangement (ferromagnetic or antiferromagnetic) in MGs as qubit systems with implications for future developments in the field of molecular quantum materials.

In the second part, the project focuses on increasing the spin coherence time, one of the key parameters for quantum operations at room temperature. This will be achieved through structural tuning of MGs to minimize the spin decoherence channels.

The overarching goal of the proposed work is to introduce new graphenoids as two-qubit systems, answer a fundamental question, and use the new knowledge generated to tune the respective MGs to achieve a spin coherence time (~100 s) at room temperature, bringing a major advancement in the field.The proposed study will be of critical fundamental and practical significance by providing novel graphenoids with potential applications in future quantum technologies.

The nature of the proposed project is highly interdisciplinary, involving chemistry, physics, molecular magnetism, and material science.

The project is in line with the European objectives of sustainable industrial growth and climate change mitigation.My supervisors, Prof. Feng and Prof. Bogani, have the experience and resources to effectively supervise me and ensure the success of the MSCA action.

The fellow will get substantial career enhancement opportunities for future leadership roles through skills development and extensive training.