Free learning resources
Quickly learn how to integrate Schrödinger technology into your research. From overviews to deep dives, you can find information about applications, workflows, and analysis here.
Quickly learn how to integrate Schrödinger technology into your research. From overviews to deep dives, you can find information about applications, workflows, and analysis here.
A free video series introducing the basics of using Materials Science Maestro.
An introduction to Materials Science Maestro, covering basic navigation, an intro to building models and several of the key functionalities of the graphical user interface.
Comprehensive reference documentation covering materials science panels and workflows.
Self-guided step-by-step introductions to various workflows with example files for getting comfortable with Schrödinger tools.
Short video overviews of specific introductory and scientific topics, including summaries of new release features.
A one-page PDF that visually describes the panel or workflow.
Learn to use the penetrant loading and viewer panels to place water molecules into a crosslinked polymer matrix using grand canonical Monte Carlo and molecular dynamics simulation.
Learn how to use the Droplet Contact Analysis Calculation and Viewer panels to determine the contact angle of water droplets on polymer surfaces.
Learn to use the Diffusion Coefficient Calculations and Results panels to study diffusion for a Li, TFSI and PEG system.
Learn to use the Solvation Builder to efficiently construct large systems in Materials Science Maestro.
Learn to build a bilayer surfactant system with the structured liquid builder and then calculate surfactant tilt and rotation angles as well as charge density and electrostatic potential.
Learn to use the electroporation calculations panel to apply an electric field to bacterial membranes to calculate pore formation using molecular dynamics simulations.
Learn to calculate surface tension of single phase, single component systems using the surface tension calculation and results panels.
Level up your skill set with hands-on, online molecular modeling courses. These self-paced courses cover a range of scientific topics and include access to Schrödinger software and support.
Connect your students to industry-leading molecular modeling software through a web-based platform. Incorporate molecular modeling in the classroom.