TY - JOUR
T1 - New frontiers for the materials genome initiative
AU - de Pablo, Juan J.
AU - Jackson, Nicholas E.
AU - Webb, Michael A.
AU - Chen, Long Qing
AU - Moore, Joel E.
AU - Morgan, Dane
AU - Jacobs, Ryan
AU - Pollock, Tresa
AU - Schlom, Darrell G.
AU - Toberer, Eric S.
AU - Analytis, James
AU - Dabo, Ismaila
AU - DeLongchamp, Dean M.
AU - Fiete, Gregory A.
AU - Grason, Gregory M.
AU - Hautier, Geoffroy
AU - Mo, Yifei
AU - Rajan, Krishna
AU - Reed, Evan J.
AU - Rodriguez, Efrain
AU - Stevanovic, Vladan
AU - Suntivich, Jin
AU - Thornton, Katsuyo
AU - Zhao, Ji Cheng
N1 - Publisher Copyright:
© 2019, The Author(s).
PY - 2019/12/1
Y1 - 2019/12/1
N2 - The Materials Genome Initiative (MGI) advanced a new paradigm for materials discovery and design, namely that the pace of new materials deployment could be accelerated through complementary efforts in theory, computation, and experiment. Along with numerous successes, new challenges are inviting researchers to refocus the efforts and approaches that were originally inspired by the MGI. In May 2017, the National Science Foundation sponsored the workshop “Advancing and Accelerating Materials Innovation Through the Synergistic Interaction among Computation, Experiment, and Theory: Opening New Frontiers” to review accomplishments that emerged from investments in science and infrastructure under the MGI, identify scientific opportunities in this new environment, examine how to effectively utilize new materials innovation infrastructure, and discuss challenges in achieving accelerated materials research through the seamless integration of experiment, computation, and theory. This article summarizes key findings from the workshop and provides perspectives that aim to guide the direction of future materials research and its translation into societal impacts.
AB - The Materials Genome Initiative (MGI) advanced a new paradigm for materials discovery and design, namely that the pace of new materials deployment could be accelerated through complementary efforts in theory, computation, and experiment. Along with numerous successes, new challenges are inviting researchers to refocus the efforts and approaches that were originally inspired by the MGI. In May 2017, the National Science Foundation sponsored the workshop “Advancing and Accelerating Materials Innovation Through the Synergistic Interaction among Computation, Experiment, and Theory: Opening New Frontiers” to review accomplishments that emerged from investments in science and infrastructure under the MGI, identify scientific opportunities in this new environment, examine how to effectively utilize new materials innovation infrastructure, and discuss challenges in achieving accelerated materials research through the seamless integration of experiment, computation, and theory. This article summarizes key findings from the workshop and provides perspectives that aim to guide the direction of future materials research and its translation into societal impacts.
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U2 - 10.1038/s41524-019-0173-4
DO - 10.1038/s41524-019-0173-4
M3 - Review article
AN - SCOPUS:85064056781
SN - 2057-3960
VL - 5
JO - npj Computational Materials
JF - npj Computational Materials
IS - 1
M1 - 41
ER -