Colóquios da Nano | Machine Learning for 2D Materials Discovery: stability, topology, and moiré twistronics – Dr. Gabriel Ravanhani Schleder (Harvard University) | Eventos UFABC

Colóquios da Nano | Machine Learning for 2D Materials Discovery: stability, topology, and moiré twistronics – Dr. Gabriel Ravanhani Schleder (Harvard University)

Responsável: Pós-graduação em nanociências e materiais avançados
Câmpus: Evento Virtual
Local: nano.ufabc.edu.br/coloquios
Data: 21/06/2022
Horário: 16:30 às 18:00
Descrição:
Palestrante: Dr. Gabriel Ravanhani Schleder ( Harvard University)
Título: Machine Learning for 2D Materials Discovery: stability, topology, and moiré twistronics
Data: 21/06/2022

Resumo: One of the main goals and challenges of materials discovery is to find the best candidates for each interest property or application. Machine learning rises in this context to efficiently optimize this search, exploring the immense materials space, consisting of simultaneously the atomic, compositional, and structural spaces. This strategy is much more efficient than the Edisonian trial-and-error approach while a few orders of magnitude faster.
In this talk, I will present the use of machine learning for the discovery and design of two-dimensional (2D) materials, at three different levels: i) feasibility (stability); ii) properties (topology); and iii) design (twistronics).
Necessita inscrição: Não
Link de divulgação: nano.ufabc.edu.br/coloquios

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