Accelerated chemical science with AI

Seoin Back; Alán Aspuru-Guzik; Michele Ceriotti; Ganna Gryn'ova; Bartosz Grzybowski; Geun Ho Gu; Jason Hein; Kedar Hippalgaonkar; Rodrigo Hormázabal; Yousung Jung; Seonah Kim; Woo Youn Kim; Seyed Mohamad Moosavi; Juhwan Noh; Changyoung Park; Joshua Schrier; Philippe Schwaller; Koji Tsuda; Tejs Vegge; O. Anatole von Lilienfeld; Aron Walsh

doi:10.1039/D3DD00213F

Accelerated chemical science with AI

Seoin Back^*, Alán Aspuru-Guzik, Michele Ceriotti, Ganna Gryn'ova, Bartosz Grzybowski, Geun Ho Gu, Jason Hein, Kedar Hippalgaonkar, Rodrigo Hormázabal, Yousung Jung, Seonah Kim, Woo Youn Kim, Seyed Mohamad Moosavi, Juhwan Noh, Changyoung Park, Joshua Schrier, Philippe Schwaller, Koji Tsuda, Tejs Vegge, O. Anatole von LilienfeldAron Walsh

^*Corresponding author for this work

Chemistry

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

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Abstract

In light of the pressing need for practical materials and molecular solutions to renewable energy and health problems, to name just two examples, one wonders how to accelerate research and development in the chemical sciences, so as to address the time it takes to bring materials from initial discovery to commercialization. Artificial intelligence (AI)-based techniques, in particular, are having a transformative and accelerating impact on many if not most, technological domains. To shed light on these questions, the authors and participants gathered in person for the ASLLA Symposium on the theme of ‘Accelerated Chemical Science with AI’ at Gangneung, Republic of Korea. We present the findings, ideas, comments, and often contentious opinions expressed during four panel discussions related to the respective general topics: ‘Data’, ‘New applications’, ‘Machine learning algorithms’, and ‘Education’. All discussions were recorded, transcribed into text using Open AI's Whisper, and summarized using LG AI Research's EXAONE LLM, followed by revision by all authors. For the broader benefit of current researchers, educators in higher education, and academic bodies such as associations, publishers, librarians, and companies, we provide chemistry-specific recommendations and summarize the resulting conclusions.

Original language	English
Pages (from-to)	23-33
Number of pages	11
Journal	Digital Discovery
Volume	3
Issue number	1
Early online date	6 Dec 2023
DOIs	https://doi.org/10.1039/D3DD00213F
Publication status	Published - 1 Jan 2024

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Back, S., Aspuru-Guzik, A., Ceriotti, M., Gryn'ova, G., Grzybowski, B., Gu, G. H., Hein, J., Hippalgaonkar, K., Hormázabal, R., Jung, Y., Kim, S., Kim, W. Y., Moosavi, S. M., Noh, J., Park, C., Schrier, J., Schwaller, P., Tsuda, K., Vegge, T., ... Walsh, A. (2024). Accelerated chemical science with AI. Digital Discovery, 3(1), 23-33. https://doi.org/10.1039/D3DD00213F

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title = "Accelerated chemical science with AI",

abstract = "In light of the pressing need for practical materials and molecular solutions to renewable energy and health problems, to name just two examples, one wonders how to accelerate research and development in the chemical sciences, so as to address the time it takes to bring materials from initial discovery to commercialization. Artificial intelligence (AI)-based techniques, in particular, are having a transformative and accelerating impact on many if not most, technological domains. To shed light on these questions, the authors and participants gathered in person for the ASLLA Symposium on the theme of {\textquoteleft}Accelerated Chemical Science with AI{\textquoteright} at Gangneung, Republic of Korea. We present the findings, ideas, comments, and often contentious opinions expressed during four panel discussions related to the respective general topics: {\textquoteleft}Data{\textquoteright}, {\textquoteleft}New applications{\textquoteright}, {\textquoteleft}Machine learning algorithms{\textquoteright}, and {\textquoteleft}Education{\textquoteright}. All discussions were recorded, transcribed into text using Open AI's Whisper, and summarized using LG AI Research's EXAONE LLM, followed by revision by all authors. For the broader benefit of current researchers, educators in higher education, and academic bodies such as associations, publishers, librarians, and companies, we provide chemistry-specific recommendations and summarize the resulting conclusions.",

author = "Seoin Back and Al{\'a}n Aspuru-Guzik and Michele Ceriotti and Ganna Gryn'ova and Bartosz Grzybowski and Gu, {Geun Ho} and Jason Hein and Kedar Hippalgaonkar and Rodrigo Horm{\'a}zabal and Yousung Jung and Seonah Kim and Kim, {Woo Youn} and Moosavi, {Seyed Mohamad} and Juhwan Noh and Changyoung Park and Joshua Schrier and Philippe Schwaller and Koji Tsuda and Tejs Vegge and Lilienfeld, {O. Anatole von} and Aron Walsh",

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Back, S, Aspuru-Guzik, A, Ceriotti, M, Gryn'ova, G, Grzybowski, B, Gu, GH, Hein, J, Hippalgaonkar, K, Hormázabal, R, Jung, Y, Kim, S, Kim, WY, Moosavi, SM, Noh, J, Park, C, Schrier, J, Schwaller, P, Tsuda, K, Vegge, T, Lilienfeld, OAV & Walsh, A 2024, 'Accelerated chemical science with AI', Digital Discovery, vol. 3, no. 1, pp. 23-33. https://doi.org/10.1039/D3DD00213F

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AU - Back, Seoin

AU - Aspuru-Guzik, Alán

AU - Ceriotti, Michele

AU - Gryn'ova, Ganna

AU - Grzybowski, Bartosz

AU - Gu, Geun Ho

AU - Hein, Jason

AU - Hippalgaonkar, Kedar

AU - Hormázabal, Rodrigo

AU - Jung, Yousung

AU - Kim, Seonah

AU - Kim, Woo Youn

AU - Moosavi, Seyed Mohamad

AU - Noh, Juhwan

AU - Park, Changyoung

AU - Schrier, Joshua

AU - Schwaller, Philippe

AU - Tsuda, Koji

AU - Vegge, Tejs

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AU - Walsh, Aron

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N2 - In light of the pressing need for practical materials and molecular solutions to renewable energy and health problems, to name just two examples, one wonders how to accelerate research and development in the chemical sciences, so as to address the time it takes to bring materials from initial discovery to commercialization. Artificial intelligence (AI)-based techniques, in particular, are having a transformative and accelerating impact on many if not most, technological domains. To shed light on these questions, the authors and participants gathered in person for the ASLLA Symposium on the theme of ‘Accelerated Chemical Science with AI’ at Gangneung, Republic of Korea. We present the findings, ideas, comments, and often contentious opinions expressed during four panel discussions related to the respective general topics: ‘Data’, ‘New applications’, ‘Machine learning algorithms’, and ‘Education’. All discussions were recorded, transcribed into text using Open AI's Whisper, and summarized using LG AI Research's EXAONE LLM, followed by revision by all authors. For the broader benefit of current researchers, educators in higher education, and academic bodies such as associations, publishers, librarians, and companies, we provide chemistry-specific recommendations and summarize the resulting conclusions.

AB - In light of the pressing need for practical materials and molecular solutions to renewable energy and health problems, to name just two examples, one wonders how to accelerate research and development in the chemical sciences, so as to address the time it takes to bring materials from initial discovery to commercialization. Artificial intelligence (AI)-based techniques, in particular, are having a transformative and accelerating impact on many if not most, technological domains. To shed light on these questions, the authors and participants gathered in person for the ASLLA Symposium on the theme of ‘Accelerated Chemical Science with AI’ at Gangneung, Republic of Korea. We present the findings, ideas, comments, and often contentious opinions expressed during four panel discussions related to the respective general topics: ‘Data’, ‘New applications’, ‘Machine learning algorithms’, and ‘Education’. All discussions were recorded, transcribed into text using Open AI's Whisper, and summarized using LG AI Research's EXAONE LLM, followed by revision by all authors. For the broader benefit of current researchers, educators in higher education, and academic bodies such as associations, publishers, librarians, and companies, we provide chemistry-specific recommendations and summarize the resulting conclusions.

U2 - 10.1039/D3DD00213F

DO - 10.1039/D3DD00213F

M3 - Review article

VL - 3

SP - 23

EP - 33

JO - Digital Discovery

JF - Digital Discovery

IS - 1

ER -

Accelerated chemical science with AI

Abstract

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