Name:	Professor JJL Morton
Organisation:	UCL
Department:	London Centre for Nanotechnology
Current EPSRC-Supported Research Topics:	Analytical Science Catalysis & Applied Catalysis Chemical Biology Condensed Matter Physics Electrochemical Science & Eng. Quantum Optics & Information

Current EPSRC Support

EP/Y035046/1 EPSRC Centre for Doctoral Training in Quantum Computation and Quantum Communications (QC2) (C) EP/W005794/1 Spins and superconducting circuits for advanced spectroscopy (SpinSUPER) (C) EP/W032627/1 Empowering Practical Interfacing of Quantum Computing (EPIQC) (C) EP/T031425/1 PEPR - A centre for Pulse Electron Paramagnetic Resonance spectroscopy at Imperial College (C) EP/T001062/1 EPSRC Hub in Quantum Computing and Simulation (C) EP/S021582/1 EPSRC Centre for Doctoral Training in Delivering Quantum Technologies (C)

Previous EPSRC Support

EP/S516090/1 Prosperity Partnership Call 2 Strategic Students-Google and UCL (P) EP/T006749/1 Spin physics in Two-Dimensional Layered Ferromagnets (C) EP/S005021/1 Prosperity Partnership in Quantum Software for Modeling and Simulation (P) EP/N015118/1 Quantum technology capital: QUES2T (Quantum Engineering of Solid-state Technologies) (P) EP/P510270/1 Training & Skills Hub in Quantum Systems Engineering: innovation in Quantum Business - Applications, Technology and Engineering (InQuBATE) (C) EP/L015242/1 EPSRC Centre for Doctoral Training in Delivering Quantum Technologies (C) EP/K025945/1 Entangling dopant nuclear spins using double quantum dots (P) EP/J015067/1 Molecular quantum devices (C) EP/H025952/2 Quantum spintronics using donors in isotopically engineered silicon (P) EP/I035536/2 Materials World Network: Spin entanglement using transient electrons in C and Si-based materials (P) EP/I035536/1 Materials World Network: Spin entanglement using transient electrons in C and Si-based materials (P) EP/H001972/1 Putting spin into carbon nanoelectronics (C) EP/H025952/1 Quantum spintronics using donors in isotopically engineered silicon (P) EP/F028806/1 NSF: Templated Ordered Endohedral Fullerenes as Building Blocks for Quantum Computing (C)

Key: (P)=Principal Investigator, (C)=Co-Investigator, (R)=Researcher Co-Investigator