Kaitlin Luedecke

In the high temperature regime, spin-lattice relaxation (_T_1) often represents the dominant contributor to decoherence in molecular electron spin quantum bits (qubits)…

The second quantum revolution has generated wide interest in the development of quantum bits (qubits), the fundamental unit of quantum information, with focus toward the realization of molecular quantum technologies…

In the high temperature regime, spin-lattice relaxation (_T_1) often represents the dominant contributor to decoherence in molecular electron spin quantum bits (qubits)…

The second quantum revolution has generated wide interest in the development of quantum bits (qubits), the fundamental unit of quantum information, with focus toward the realization of molecular quantum technologies…

Molecular quantum information science calls for the design of paramagnetic compounds with slow electron spin relaxation, enabling coherent quantum bit (qubit) operations at elevated temperatures…

Fe-_p_-TMA is a versatile porphyrin-based molecular catalyst that has demonstrated ability to convert CO2 into highly reduced products photochemically. However, the overall mechanism to achieve such products is widely unknown…

Pinpointing vibrational mode contributions to electron spin relaxation (_T_1) constitutes a key goal for developing molecular quantum bits (qubits) with long room temperature coherence times…