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Intro; Supervisor's Foreword; Preface; Acknowledgements; Contents; 1 Introduction: 2d-Based Quantum Technologies; 1.1 Semiconducting Group-VI Transition Metal Dichalcogenides; 1.1.1 Excitons in 2d-TMDs; 1.1.2 Spin-Dark and Momentum-Dark Excitons; 1.1.3 Strain-Related Effects; 1.2 Van der Waals Materials and Heterostructures; 1.3 Quantum Information Technologies Using Single-Photons; 1.3.1 Single-Photons in 2d; 1.3.2 Characteristics of 2d-Based Quantum Emitting Sites; References; 2 Experimental Techniques; 2.1 Single-Photon Optics; 2.1.1 Confocal Microscopy; 2.1.2 Photon-Photon Correlation
2.1.3 Tailored Spectral Filtering2.2 Processing of 2d Materials and Devices; 2.2.1 Fabrication of 2d-Heterostructures; 2.2.2 All-Dry Viscoelastic Transfer; References; 3 Deterministic Arrays of Single-Photon Sources; 3.1 Motivation: Scalable Quantum Technologies; 3.2 Results: Achieving Quantum Confinement; 3.2.1 Nanopillar-TMD Sample Fabrication; 3.2.2 Deterministic 1L-WSe2-QDs: Optical Measurements; 3.2.3 Deterministic 1L-WS2-QDs: Optical Measurements; 3.3 Discussion; 3.4 Impact; 3.5 Conclusions and Outlook; References; 4 Atomically-Thin Quantum Light Emitting Diodes
4.1 Motivation: Electrically-Triggered Single Photons and Next-Generation Devices4.2 Results: Atomically Thin Quantum Light Emitting Diodes; 4.2.1 Design of a TMD-Based QLED Device; 4.2.2 Electrically Triggered Quantum Light in a WSe2-Based QLED; 4.2.3 All-Electrical Generation of Single-Photon Emission in WS2; 4.3 Discussion and Impact; 4.4 Conclusions and Outlook; References; 5 2d Quantum Light-Matter Interfaces; 5.1 Motivation: Hybrid Light-Matter Quantum Networks; 5.1.1 Charge-Trapping in InGaAs-QDs: Selection Rules and Devices; 5.1.2 TMD-Based Spin-Valley Qubits
5.2 Results: Capturing Single-Charges in TMD-QDs5.2.1 Heterostructure Design and Fabrication; 5.2.2 Voltage-Dependent Photoluminescence Spectra; 5.2.3 Polarisation Conservation Effect in Charged Dots; 5.3 Discussion; 5.4 Conclusions and Outlook; References; 6 Conclusions and Outlook; References; Appendix Curriculum Vitae
2.1.3 Tailored Spectral Filtering2.2 Processing of 2d Materials and Devices; 2.2.1 Fabrication of 2d-Heterostructures; 2.2.2 All-Dry Viscoelastic Transfer; References; 3 Deterministic Arrays of Single-Photon Sources; 3.1 Motivation: Scalable Quantum Technologies; 3.2 Results: Achieving Quantum Confinement; 3.2.1 Nanopillar-TMD Sample Fabrication; 3.2.2 Deterministic 1L-WSe2-QDs: Optical Measurements; 3.2.3 Deterministic 1L-WS2-QDs: Optical Measurements; 3.3 Discussion; 3.4 Impact; 3.5 Conclusions and Outlook; References; 4 Atomically-Thin Quantum Light Emitting Diodes
4.1 Motivation: Electrically-Triggered Single Photons and Next-Generation Devices4.2 Results: Atomically Thin Quantum Light Emitting Diodes; 4.2.1 Design of a TMD-Based QLED Device; 4.2.2 Electrically Triggered Quantum Light in a WSe2-Based QLED; 4.2.3 All-Electrical Generation of Single-Photon Emission in WS2; 4.3 Discussion and Impact; 4.4 Conclusions and Outlook; References; 5 2d Quantum Light-Matter Interfaces; 5.1 Motivation: Hybrid Light-Matter Quantum Networks; 5.1.1 Charge-Trapping in InGaAs-QDs: Selection Rules and Devices; 5.1.2 TMD-Based Spin-Valley Qubits
5.2 Results: Capturing Single-Charges in TMD-QDs5.2.1 Heterostructure Design and Fabrication; 5.2.2 Voltage-Dependent Photoluminescence Spectra; 5.2.3 Polarisation Conservation Effect in Charged Dots; 5.3 Discussion; 5.4 Conclusions and Outlook; References; 6 Conclusions and Outlook; References; Appendix Curriculum Vitae