A unique collaboration between Accelrys and partners in industry and academia, the NanoTechnology Consortium has developed a new Density Functional Based Tight Binding ( DFTB+) module in Materials Studio 6.0 that accelerates the study of the structure and dynamics of large molecular systems. Materials Studio 6.0 is extending Accelrys’ leadership in predictive materials science through the NanoTechnology Consortium and the European Commission’s FP7 NanoInterface Project. Improved virtual screening of candidate materials and faster property predictions accelerate the development of better performing, cost-effective, environmentally friendly and sustainable materials, minimizing redesign cycles and speeding products to market. State-of the-art modeling and simulation with Materials Studio 6.0 combines the accuracy of quantum methods with the speed of atomistic methodologies. Supporting today’s increasing reliance on micro- and nanoscale engineering, Materials Studio 6.0 enables scientists to relate product performance with material properties and behavior at the molecular and atomic scales.
MATERIALS STUDIO AND MATERIALS SCIENCE SOFTWARE
(NASDAQ: ACCL), a leading scientific enterprise R&D software and services company, has announced a new release of the Materials Studio ® modeling and simulation environment.