• Seiji Yunoki, “Theory of relativistic Mott insulator and superconductivity in transition metal oxides with a strong spin-orbit coupling”, 2018 KPS Spring Meeting, Daejeon, Korea (April, 2018)
• Seiji Yunoki, “Quantum criticality in the metal-insulator transition of two-dimensional interacting Dirac fermions”, The Italian National Conference on the Physics of Matter (FisMat), Trieste, Italy (October, 2017)
• Seiji Yunoki, “Quantum criticality of the metal-insulator transition and possible spin liquid in 2D Hubbard models”, 12th International Symposium on Crystalline Organic Metals, Superconductors, and Magnets (ISCOM), Sendai, Japan (September, 2017)
• Seiji Yunoki, “Emergence of massless Dirac dispersion in graphene on Ni(111) surface: A DFT+CPT study”, 9th Asian Consortium Computational Materials Science (ACCMS-9), Kuala Lumpur, Malaysia (August, 2017)
• Seiji Yunoki, “Exotic ground states of a multi-orbital Hubbard model with a strong spin-orbit coupling”, The International Conference on Strongly Correlated Electron Systems (SCES 2017), Prague, Czech Republic (July, 2017)
• Seiji Yunoki, “Relativistic Mott insulator, superconductivity, and other exotic states in transition metal oxides with a large spin-orbit coupling”, Moscow International Symposium on Magnetism (MISM 2017), Moscow, Russia (July, 2017)
• Seiji Yunoki, “Spin dynamics in two-dimensional S=1/2 antiferromagnets — fate of single magnon excitations —”, The 10th International Conference on Computational Physics (ICCP10), Macao, China (January, 2017)
• Seiji Yunoki, “Metal-insulator transition in 2D interacting Dirac electrons”Chiral Matter from Quarks to Dirac semimetals, Wako, Japan (December 5-8, 2016)
• Seiji Yunoki, “Emergence of massless Dirac quasiparticles in correlated hydrogenated graphene with broken sublattice symmetry”, The 11th Anniversary General Meeting of Asian Consortium on Computational Materials Science (ACCMS), Sendai, Japan (November, 2016)
• Seiji Yunoki, “Quantum criticality of the interaction driven metal-insulator transition and possible spin liquid in 2D Hubbard models”,第16回量子シミュレーション研究会, ImPACT「量子人工脳を量子ネットワークでつなぐ高度知識社会基盤の実現」Tokyo, Japan (August, 2016)