Featuring over 190 oral/poster presentations, NDNC 2018 offered a strong program with 29 technical sessions focused on the following topics:
A: Diamond and Related Materials
Synthesis, Growth, Interfaces, Doping, Defects, Processing, Electrical Properties and Electronic Devices, Impurities, N-V and Other Quantized States, Quantum Electronics and Optics, Sensors and Detectors, Electron Emission, Electrochemical and Biochemical Properties, Electrodes for Neural Stimulation, Energy Applications, Optical Properties and Applications, Thermal Properties and Materials Integration, and Novel Properties and Applications
A1: Growth, Characterization, Surfaces, Interfaces, Properties, and Processing
A2: New Science and Applications
A3: Theory and Simulations from Fundamental Properties to Devices
A4: Defects, Impurities, Structure, Surfaces, Interfaces and Fundamental Properties
A5: Electronic Structure, Interfaces and Devices (High Power, High Frequency, Digital and Novel)
A6: Phonons, Thermal Properties and Barriers, Materials Integration and MEMS
A7: Bio and Chemical Sensors, Photo-Electro Chemistry, Neural Interfaces, Biomedical Interfaces
A8: Quantum Effects, Structures and Devices
A9: Photonics, Nanophotonics and Optoelectronics
A10: Energy and Charge Transfer Materials and Devices
B: Nanocarbons, Nanodiamonds, Diamond Scaffolds, Nanocrystalline, and Diamondlike Carbon Films
Synthesis, Growth, Composites, Nanostructure, Properties, Characterization and Modelling, Surface Structures and Chemistry, Electronic and Optical Properties, N-V Centers, Quantum Sensors, Low Friction, Micromechanical, and Novel Properties and Applications
B1: Growth, Characterization, Surfaces, Interfaces, Properties, and Processing
B2: New Science and Applications
B3: Theory and Simulations from Fundamental Properties to Devices
B4: Defects, Impurities, Structure, Surfaces, Interfaces and Fundamental Properties
B5: Electronic Structure, Interfaces and Devices (High Power, High Frequency, Digital and Novel)
B6: Phonons, Thermal Properties and Barriers, Materials Integration and MEMS
B7: Bio and Chemical Sensors, Photo-Electro Chemistry, Neural Interfaces, Biomedical Interfaces
B8: Quantum Effects, Structures and Devices
B9: Photonics, Nanophotonics and Optoelectronics
B10: Energy and Charge Transfer Materials and Devices
C: Graphene and 2D Materials
Synthesis, Growth, Nanostructure and 2D Properties, Characterization and Modelling, Surface Structures and Chemistry, Electronic and Optical Properties, Quantum Sensors, Micromechanical, and Novel Properties and Applications
C1: Growth, Characterization, Surfaces, Interfaces, Properties, and Processing
C2: New Science and Applications
C3: Theory and Simulations from Fundamental Properties to Devices
C4: Defects, Impurities, Structure, Surfaces, Interfaces and Fundamental Properties
C5: Electronic Structure, Interfaces and Devices (High Power, High Frequency, Digital and Novel)
C6: Phonons, Thermal Properties and Barriers, Materials Integration and MEMS
C7: Bio and Chemical Sensors, Photo-Electro Chemistry, Neural Interfaces, Biomedical Interfaces
C8: Quantum Effects, Structures and Devices
C9: Photonics, Nanophotonics and Optoelectronics
C10: Energy and Charge Transfer Materials and Devices
D: New Diamond and Nanocarbons Technology
Materials and Substrates, Technology Supply Chain, Scale-Up, Entrepreneurial Advances, and Opportunities
D1: Growth, Characterization, Surfaces, Interfaces, Properties, and Processing
D2: New Science and Applications
D3: Theory and Simulations from Fundamental Properties to Devices
D4: Defects, Impurities, Structure, Surfaces, Interfaces and Fundamental Properties
D5: Electronic Structure, Interfaces and Devices (High Power, High Frequency, Digital and Novel)
D6: Phonons, Thermal Properties and Barriers, Materials Integration and MEMS
D7: Bio and Chemical Sensors, Photo-Electro Chemistry, Neural Interfaces, Biomedical Interfaces
D8: Quantum Effects, Structures and Devices
D9: Photonics, Nanophotonics and Optoelectronics
D10: Energy and Charge Transfer Materials and Devices