Taking Experimentation Digital: Materials Innovation using Atomistic Simulation and Machine Learning At-Scale

DATE
May 29, 2024
TIME
10:00 a.m. PDT, 1:00 p.m. EDT, 18:00 BST, 19:00 CEST - Duration: 60 Minutes

Overview

Our world is evolving rapidly, and with it comes a wide range of challenges, including the need for sustainable and energy-efficient solutions, advanced electronic devices, and durable, lightweight materials for transportation, aerospace, and construction. Traditional methods for materials discovery or selection are no longer viable for keeping pace with demands.

In this talk, we will introduce a modern approach to materials R&D using a digital chemistry platform for in silico analysis, optimization and discovery. The platform enables materials design at-scale across a wide range of applications, including organic electronics, catalysis, energy capture and storage, polymeric materials, consumer packaged goods, pharmaceutical formulation and delivery, and thin film processing.

By combining both physics-based modeling approaches (e.g. DFT, molecular dynamics, coarse-graining) and machine learning, researchers can easily incorporate in silico methods into their day-to-day workflows to expedite R&D timelines. Moreover, automated solutions enable scaling from simple molecular property predictions on a local device to high-throughput calculations on the cloud.

We will present real-world case studies that were performed by both experienced modelers as well as novice experimentalists who are new to digital chemistry approaches.

Key Learning Objectives:
  • Learn to leverage data from physics-based simulations and machine learning to accelerate materials R&D
  • Hear practical case studies and customer stories across materials industries including organic electronics, catalysis, energy capture and storage, polymeric materials, consumer packaged goods, pharmaceutical formulation and delivery, and thin film processing
  • Identify key areas in your R&D where physics-based simulation and machine learning can provide value
Who Should Attend:
  • R&D Leaders (VP of R&D, Director of R&D) interested in accelerating R&D timeline
  • Innovation Managers
  • Digitization Managers
  • Synthetic Chemists
  • Materials Scientists
  • Chemical Engineers
  • Materials Research Engineers
  • Computational Chemists
  • Computational Materials Scientists

Brought to you by:
Schrödinger

Speakers

Dr. Michael Rauch
Associate Director of Materials Science,
Schrödinger
Ann Thayer
Contributing Editor,
C&EN Media Group

Registration

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