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Main Authors: Zhu, Jihong, Huang, Kefeng, Pipe, Jonathon, Horbaczewsky, Chris, Tyrrell, Andy, Fairlamb, Ian J. S.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2510.10337
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author Zhu, Jihong
Huang, Kefeng
Pipe, Jonathon
Horbaczewsky, Chris
Tyrrell, Andy
Fairlamb, Ian J. S.
author_facet Zhu, Jihong
Huang, Kefeng
Pipe, Jonathon
Horbaczewsky, Chris
Tyrrell, Andy
Fairlamb, Ian J. S.
contents Chemistry, a long-standing discipline, has historically relied on manual and often time-consuming processes. While some automation exists, the field is now on the cusp of a significant evolution driven by the integration of robotics and artificial intelligence (AI), giving rise to the concept of the robochemist: a new paradigm where autonomous systems assist in designing, executing, and analyzing experiments. Robochemists integrate mobile manipulators, advanced perception, teleoperation, and data-driven protocols to execute experiments with greater adaptability, reproducibility, and safety. Rather than a fully automated replacement for human chemists, we envisioned the robochemist as a complementary partner that works collaboratively to enhance discovery, enabling a more efficient exploration of chemical space and accelerating innovation in pharmaceuticals, materials science, and sustainable manufacturing. This article traces the technologies, applications, and challenges that define this transformation, highlighting both the opportunities and the responsibilities that accompany the emergence of the robochemist. Ultimately, the future of chemistry is argued to lie in a symbiotic partnership where human intuition and expertise is amplified by robotic precision and AI-driven insight.
format Preprint
id arxiv_https___arxiv_org_abs_2510_10337
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Rise of the Robochemist
Zhu, Jihong
Huang, Kefeng
Pipe, Jonathon
Horbaczewsky, Chris
Tyrrell, Andy
Fairlamb, Ian J. S.
Robotics
Chemistry, a long-standing discipline, has historically relied on manual and often time-consuming processes. While some automation exists, the field is now on the cusp of a significant evolution driven by the integration of robotics and artificial intelligence (AI), giving rise to the concept of the robochemist: a new paradigm where autonomous systems assist in designing, executing, and analyzing experiments. Robochemists integrate mobile manipulators, advanced perception, teleoperation, and data-driven protocols to execute experiments with greater adaptability, reproducibility, and safety. Rather than a fully automated replacement for human chemists, we envisioned the robochemist as a complementary partner that works collaboratively to enhance discovery, enabling a more efficient exploration of chemical space and accelerating innovation in pharmaceuticals, materials science, and sustainable manufacturing. This article traces the technologies, applications, and challenges that define this transformation, highlighting both the opportunities and the responsibilities that accompany the emergence of the robochemist. Ultimately, the future of chemistry is argued to lie in a symbiotic partnership where human intuition and expertise is amplified by robotic precision and AI-driven insight.
title Rise of the Robochemist
topic Robotics
url https://arxiv.org/abs/2510.10337