Publications of Christian Carbogno
All genres
Talk (91)
2024
Talk
Carbogno, Christian: Efficient All-Electron Hybrid Density Functionals for Atomistic Simulations Beyond 10,000 Atoms.
(CECAM Workshop, Perspectives and challenges of future HPC installations
for atomistic and molecular simulations, Berlin, Germany, Feb 2024).
Talk
Carbogno, Christian: Electronic Structure Theory: Basic Concepts & Relevant Applications.
(IMPRS Spring Block Course, Advanced Methods in Physical Chemistry, Berlin, Germany, Apr 2024).
Talk
Carbogno, Christian: Impurities, Vacancies, and Polarons in Energy Materials: A First-Principles Perspective.
(Seminar, Max-Planck-Institute for Solid State Research, Stuttgart, Germany, Sep 2024).
Talk
Carbogno, Christian: A Challenge Across Scales: Accurate Heat & Charge Transport From First Principles.
(MOANSI 2024 Annual Meeting, International Association of Applied Mathematics and Mechanics, Berlin, Germany, Nov 2024).
Talk
Carbogno, Christian: The Key Role of Lattice Anharmonicity for Heat and Charge Transport in Solids: Fundamental Concepts, Novel Methods, and Relevant Applications.
(FHI-aims Webinar Series, Online Event, Dec 2024).
2023
Talk
Carbogno, Christian: Anharmonic Effects in Heat and Charge Transport: Fundamental Concepts, Novel Methods, and Relevant Applications.
(Seminar Physical and Theoretical Chemistry, Institute of Chemistry, University of Graz, Graz, Austria, Oct 2023).
Talk
Carbogno, Christian: Anharmonic Effects in Heat and Charge Transport: Fundamental Concepts, Novel Methods, And Relevant Applications.
(Seminar, Warwick Centre for Predictive Modelling, University of Warwick, Coventry, UK, Jun 2023).
Talk
Carbogno, Christian: Electronic Transport.
(FHI-aims Developers' and Users' Meeting 2023, Electronic Structure Theory with Numeric Atom-Centered Basis Functions, Hamburg, Germany, Aug 2023).
Talk
Carbogno, Christian: Lessons Learned in Heat and Charge Transport Over the Last Couple of Years.
(FHI-aims Developers' and Users' Meeting 2023, Hamburg, Germany, Aug 2023).
Talk
Carbogno, Christian: The Key Role of Lattice Anharmonicity for Heat and Charge Transport in Solids.
(Seminar Physical and Theoretical Chemistry, University of Graz, Graz, Austria, Oct 2023).
2022
Talk
Carbogno, Christian: Phonons, Electron-Phonon Coupling, Heat and Charge Transport.
(FHI-aims Tutorial Series, Online Event, Mar 2022).
Talk
Carbogno, Christian: Lattice Vibrations and Transport Phenomena in Solids.
(IMPRS Block Course 2022, Elementary Process in Physical Chemistry, Berlin, Germany, Apr 2022).
Talk
Carbogno, Christian: Computational Materials Science Challenges: Towards in Silico Materials’ Design in the Exascale Era.
(International HPC Summer School 2022, Athens, Greece, Jun 2022).
Talk
Carbogno, Christian: Fast and Accurate High-Throughput Thermal Insulator Discovery: A Fully Anharmonic Ab Initio Workflow Accelerated by Machine Learning.
(Psi-k Conference 2022, Lausanne, Switzerland, Aug 2022).
Talk
Carbogno, Christian: Heat and Charge Transport: Past, Present, and Future Developments.
(NOMAD Meeting, Revealing New and Novel Materials, Mechanisms, and Insights (a Perspective), Potsdam, Germany, Oct 2022).
2021
Talk
Carbogno, Christian: The Role of Anharmonic Effects for Temperature-Dependent Electronic Structures.
(GraFOx 4th Semi-Annual Meeting, Online Event, May 2021).
Talk
Carbogno, Christian: Phonon-Phonon and Electron-Phonon Interactions: From Fundamental Developments Towards Predictions.
(Seminar, GraFOx, Online Event, Oct 2021).
Talk
Carbogno, Christian: Precise yet Fast High-Throughput Search for Thermal Insulators.
(Duke-CAMD/MURI/AFLOW Seminar, Center for Autonomous Materials Design, Duke University, Online Event, Aug 2021).
Talk
Carbogno, Christian: The Key Role of Lattice Anharmonicity for Heat and Charge Transport in Solids: Fundamental Concepts, Novel Methods, and Relevant Applications.
(Seminar, Theory Department, Fritz Haber Institute, Online Event, Jun 2021).
Talk
Carbogno, Christian: Where Are We Now? And Where Do We Need to Go? Capturing Anharmonic Vibrational Motion.
(CECAM Workshop, Capturing Anharmonic Vibrational Motion in First-Principles Simulations, Online Event, Dec 2021).