Materials laboratories of the future for alloys, amorphous, and composite materials

Sarbajit Banerjee; Y. Shirley Meng; Andrew M. Minor; Minghao Zhang; Nestor J. Zaluzec; Maria K.Y. Chan; Gerald Seidler; David W. McComb; Joshua Agar; Partha P. Mukherjee; Brent Melot; Karena Chapman; Beth S. Guiton; Robert F. Klie; Ian D. McCue; Paul M. Voyles; Ian Robertson; Ling Li; Miaofang Chi; Joel F. Destino; Arun Devaraj; Emmanuelle A. Marquis; Carlo U. Segre; Huinan H. Liu; Judith C. Yang; Kasra Momeni; Amit Misra; Niaz Abdolrahim; Julia E. Medvedeva; Wenjun Cai; Alp Sehirlioglu; Melike Dizbay-Onat; Apurva Mehta; Lori Graham-Brady; Benji Maruyama; Krishna Rajan; Jamie H. Warner; Mitra L. Taheri; Sergei V. Kalinin; B. Reeja-Jayan; Udo D. Schwarz; Sindee L. Simon; Craig M. Brown

doi:10.1557/s43577-024-00846-y

Materials laboratories of the future for alloys, amorphous, and composite materials

Sarbajit Banerjee
, Y. Shirley Meng
, Andrew M. Minor
, Minghao Zhang
, Nestor J. Zaluzec
, Maria K.Y. Chan
, Gerald Seidler
, David W. McComb
, Joshua Agar
, Partha P. Mukherjee
, Brent Melot
, Karena Chapman
, Beth S. Guiton
, Robert F. Klie
, Ian D. McCue
, Paul M. Voyles
, Ian Robertson
, Ling Li
, Miaofang Chi
, Joel F. Destino

Arun Devaraj, Emmanuelle A. Marquis, Carlo U. Segre, Huinan H. Liu, Judith C. Yang, Kasra Momeni, Amit Misra, Niaz Abdolrahim, Julia E. Medvedeva, Wenjun Cai, Alp Sehirlioglu, Melike Dizbay-Onat, Apurva Mehta, Lori Graham-Brady, Benji Maruyama, Krishna Rajan, Jamie H. Warner, Mitra L. Taheri, Sergei V. Kalinin, B. Reeja-Jayan, Udo D. Schwarz, Sindee L. Simon, Craig M. Brown

Chemistry

Texas A&M University
The University of Chicago
Argonne National Laboratory
University of California at Berkeley
Lawrence Berkeley National Laboratory
University of Washington
Ohio State University
Drexel University
Purdue University
University of Southern California
University of Kentucky
University of Illinois at Chicago
Northwestern University
University of Wisconsin-Madison
University of Pennsylvania
Duke University
Creighton University
Pacific Northwest National Laboratory
University of Michigan, Ann Arbor
Illinois Institute of Technology
University of California at Riverside
University of Pittsburgh
Brookhaven National Laboratory
University of Alabama
University of Rochester
Missouri University of Science and Technology
Virginia Polytechnic Institute and State University
Case Western Reserve University
University of South Alabama
SLAC National Accelerator Laboratory
Johns Hopkins University
Air Force Research Laboratory
SUNY Buffalo
University of Texas at Austin
University of Tennessee
Carnegie Mellon University
Yale University
North Carolina State University
National Institute of Standards and Technology

Research output: Contribution to journal › Review article › peer-review

5 Scopus citations

Abstract

In alignment with the Materials Genome Initiative and as the product of a workshop sponsored by the US National Science Foundation, we define a vision for materials laboratories of the future in alloys, amorphous materials, and composite materials; chart a roadmap for realizing this vision; identify technical bottlenecks and barriers to access; and propose pathways to equitable and democratic access to integrated toolsets in a manner that addresses urgent societal needs, accelerates technological innovation, and enhances manufacturing competitiveness. Spanning three important materials classes, this article summarizes the areas of alignment and unifying themes, distinctive needs of different materials research communities, key science drivers that cannot be accomplished within the capabilities of current materials laboratories, and open questions that need further community input. Here, we provide a broader context for the workshop, synopsize the salient findings, outline a shared vision for democratizing access and accelerating materials discovery, highlight some case studies across the three different materials classes, and identify significant issues that need further discussion.

Original language	English
Article number	100843
Pages (from-to)	190-207
Number of pages	18
Journal	MRS Bulletin
Volume	50
Issue number	2
DOIs	https://doi.org/10.1557/s43577-024-00846-y
State	Published - Feb 2025

Keywords

Alloy
Amorphous
Artificial intelligence
Autonomous
Composite

Access to Document

10.1557/s43577-024-00846-y

Cite this

Banerjee, S., Meng, Y. S., Minor, A. M., Zhang, M., Zaluzec, N. J., Chan, M. K. Y., Seidler, G., McComb, D. W., Agar, J., Mukherjee, P. P., Melot, B., Chapman, K., Guiton, B. S., Klie, R. F., McCue, I. D., Voyles, P. M., Robertson, I., Li, L., Chi, M., ... Brown, C. M. (2025). Materials laboratories of the future for alloys, amorphous, and composite materials. MRS Bulletin, 50(2), 190-207. Article 100843. https://doi.org/10.1557/s43577-024-00846-y

@article{6347dd4e706a4a60adcd53459aeafac5,

title = "Materials laboratories of the future for alloys, amorphous, and composite materials",

abstract = "In alignment with the Materials Genome Initiative and as the product of a workshop sponsored by the US National Science Foundation, we define a vision for materials laboratories of the future in alloys, amorphous materials, and composite materials; chart a roadmap for realizing this vision; identify technical bottlenecks and barriers to access; and propose pathways to equitable and democratic access to integrated toolsets in a manner that addresses urgent societal needs, accelerates technological innovation, and enhances manufacturing competitiveness. Spanning three important materials classes, this article summarizes the areas of alignment and unifying themes, distinctive needs of different materials research communities, key science drivers that cannot be accomplished within the capabilities of current materials laboratories, and open questions that need further community input. Here, we provide a broader context for the workshop, synopsize the salient findings, outline a shared vision for democratizing access and accelerating materials discovery, highlight some case studies across the three different materials classes, and identify significant issues that need further discussion.",

keywords = "Alloy, Amorphous, Artificial intelligence, Autonomous, Composite",

author = "Sarbajit Banerjee and Meng, \{Y. Shirley\} and Minor, \{Andrew M.\} and Minghao Zhang and Zaluzec, \{Nestor J.\} and Chan, \{Maria K.Y.\} and Gerald Seidler and McComb, \{David W.\} and Joshua Agar and Mukherjee, \{Partha P.\} and Brent Melot and Karena Chapman and Guiton, \{Beth S.\} and Klie, \{Robert F.\} and McCue, \{Ian D.\} and Voyles, \{Paul M.\} and Ian Robertson and Ling Li and Miaofang Chi and Destino, \{Joel F.\} and Arun Devaraj and Marquis, \{Emmanuelle A.\} and Segre, \{Carlo U.\} and Liu, \{Huinan H.\} and Yang, \{Judith C.\} and Kasra Momeni and Amit Misra and Niaz Abdolrahim and Medvedeva, \{Julia E.\} and Wenjun Cai and Alp Sehirlioglu and Melike Dizbay-Onat and Apurva Mehta and Lori Graham-Brady and Benji Maruyama and Krishna Rajan and Warner, \{Jamie H.\} and Taheri, \{Mitra L.\} and Kalinin, \{Sergei V.\} and B. Reeja-Jayan and Schwarz, \{Udo D.\} and Simon, \{Sindee L.\} and Brown, \{Craig M.\}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

month = feb,

doi = "10.1557/s43577-024-00846-y",

language = "English",

volume = "50",

pages = "190--207",

journal = "MRS Bulletin",

issn = "0883-7694",

number = "2",

}

Banerjee, S, Meng, YS, Minor, AM, Zhang, M, Zaluzec, NJ, Chan, MKY, Seidler, G, McComb, DW, Agar, J, Mukherjee, PP, Melot, B, Chapman, K, Guiton, BS, Klie, RF, McCue, ID, Voyles, PM, Robertson, I, Li, L, Chi, M, Destino, JF, Devaraj, A, Marquis, EA, Segre, CU, Liu, HH, Yang, JC, Momeni, K, Misra, A, Abdolrahim, N, Medvedeva, JE, Cai, W, Sehirlioglu, A, Dizbay-Onat, M, Mehta, A, Graham-Brady, L, Maruyama, B, Rajan, K, Warner, JH, Taheri, ML, Kalinin, SV, Reeja-Jayan, B, Schwarz, UD, Simon, SL & Brown, CM 2025, 'Materials laboratories of the future for alloys, amorphous, and composite materials', MRS Bulletin, vol. 50, no. 2, 100843, pp. 190-207. https://doi.org/10.1557/s43577-024-00846-y

TY - JOUR

T1 - Materials laboratories of the future for alloys, amorphous, and composite materials

AU - Banerjee, Sarbajit

AU - Meng, Y. Shirley

AU - Minor, Andrew M.

AU - Zhang, Minghao

AU - Zaluzec, Nestor J.

AU - Chan, Maria K.Y.

AU - Seidler, Gerald

AU - McComb, David W.

AU - Agar, Joshua

AU - Mukherjee, Partha P.

AU - Melot, Brent

AU - Chapman, Karena

AU - Guiton, Beth S.

AU - Klie, Robert F.

AU - McCue, Ian D.

AU - Voyles, Paul M.

AU - Robertson, Ian

AU - Li, Ling

AU - Chi, Miaofang

AU - Destino, Joel F.

AU - Devaraj, Arun

AU - Marquis, Emmanuelle A.

AU - Segre, Carlo U.

AU - Liu, Huinan H.

AU - Yang, Judith C.

AU - Momeni, Kasra

AU - Misra, Amit

AU - Abdolrahim, Niaz

AU - Medvedeva, Julia E.

AU - Cai, Wenjun

AU - Sehirlioglu, Alp

AU - Dizbay-Onat, Melike

AU - Mehta, Apurva

AU - Graham-Brady, Lori

AU - Maruyama, Benji

AU - Rajan, Krishna

AU - Warner, Jamie H.

AU - Taheri, Mitra L.

AU - Kalinin, Sergei V.

AU - Reeja-Jayan, B.

AU - Schwarz, Udo D.

AU - Simon, Sindee L.

AU - Brown, Craig M.

PY - 2025/2

Y1 - 2025/2

N2 - In alignment with the Materials Genome Initiative and as the product of a workshop sponsored by the US National Science Foundation, we define a vision for materials laboratories of the future in alloys, amorphous materials, and composite materials; chart a roadmap for realizing this vision; identify technical bottlenecks and barriers to access; and propose pathways to equitable and democratic access to integrated toolsets in a manner that addresses urgent societal needs, accelerates technological innovation, and enhances manufacturing competitiveness. Spanning three important materials classes, this article summarizes the areas of alignment and unifying themes, distinctive needs of different materials research communities, key science drivers that cannot be accomplished within the capabilities of current materials laboratories, and open questions that need further community input. Here, we provide a broader context for the workshop, synopsize the salient findings, outline a shared vision for democratizing access and accelerating materials discovery, highlight some case studies across the three different materials classes, and identify significant issues that need further discussion.

AB - In alignment with the Materials Genome Initiative and as the product of a workshop sponsored by the US National Science Foundation, we define a vision for materials laboratories of the future in alloys, amorphous materials, and composite materials; chart a roadmap for realizing this vision; identify technical bottlenecks and barriers to access; and propose pathways to equitable and democratic access to integrated toolsets in a manner that addresses urgent societal needs, accelerates technological innovation, and enhances manufacturing competitiveness. Spanning three important materials classes, this article summarizes the areas of alignment and unifying themes, distinctive needs of different materials research communities, key science drivers that cannot be accomplished within the capabilities of current materials laboratories, and open questions that need further community input. Here, we provide a broader context for the workshop, synopsize the salient findings, outline a shared vision for democratizing access and accelerating materials discovery, highlight some case studies across the three different materials classes, and identify significant issues that need further discussion.

KW - Alloy

KW - Amorphous

KW - Artificial intelligence

KW - Autonomous

KW - Composite

UR - https://www.scopus.com/pages/publications/85217162913

U2 - 10.1557/s43577-024-00846-y

DO - 10.1557/s43577-024-00846-y

M3 - Review article

AN - SCOPUS:85217162913

SN - 0883-7694

VL - 50

SP - 190

EP - 207

JO - MRS Bulletin

JF - MRS Bulletin

IS - 2

M1 - 100843

ER -

Materials laboratories of the future for alloys, amorphous, and composite materials

Abstract

Keywords

Access to Document

Other files and links

Fingerprint

Cite this