Systems chemistry
Systems chemistry
Building on our ability to design and synthesise molecules and our understanding of the noncovalent interactions between these molecules, the chemical sciences are currently entering the new territory of Systems Chemistry. This young field aims to develop complex molecular systems showing emergent properties; i.e. properties that go beyond the sum of the characteristics of the individual consituents of the system. This review gives an impression of the state of the art of the field by showing a diverse number of recent highlights, including out-of-equilibrium self-assembly, chemically fuelled molecular motion, compartmentalised chemical networks and designed oscillators. Subsequently a number of current challenges related to the design of complex chemical systems are discussed, including those of creating concurrent formation–destruction systems, continuously maintaining chemical systems away from equilibrium, incorporating feedback loops and pushing replication chemistry away from equilibrium. Finally, the prospects for Systems Chemistry are discussed including the tantalizing vision of the de novo synthesis of life and the idea of self-synthesising and self-repairing chemical factories.
2543-2554
Ashkenasy, Gonen
51caba9d-9a77-4f5d-9aad-93381a70a1d0
Hermans, Thomas M.
524da260-3102-477d-996d-6384557dfa7b
Otto, Sijbren
fe7ef9ac-3354-420b-8108-9535fe81aa4a
Taylor, Annette F.
08028a29-428d-4732-b6b1-f7a93389b386
18 April 2017
Ashkenasy, Gonen
51caba9d-9a77-4f5d-9aad-93381a70a1d0
Hermans, Thomas M.
524da260-3102-477d-996d-6384557dfa7b
Otto, Sijbren
fe7ef9ac-3354-420b-8108-9535fe81aa4a
Taylor, Annette F.
08028a29-428d-4732-b6b1-f7a93389b386
Ashkenasy, Gonen, Hermans, Thomas M., Otto, Sijbren and Taylor, Annette F.
(2017)
Systems chemistry.
Chemical Society Reviews, 46, .
(doi:10.1039/C7CS00117G).
Abstract
Building on our ability to design and synthesise molecules and our understanding of the noncovalent interactions between these molecules, the chemical sciences are currently entering the new territory of Systems Chemistry. This young field aims to develop complex molecular systems showing emergent properties; i.e. properties that go beyond the sum of the characteristics of the individual consituents of the system. This review gives an impression of the state of the art of the field by showing a diverse number of recent highlights, including out-of-equilibrium self-assembly, chemically fuelled molecular motion, compartmentalised chemical networks and designed oscillators. Subsequently a number of current challenges related to the design of complex chemical systems are discussed, including those of creating concurrent formation–destruction systems, continuously maintaining chemical systems away from equilibrium, incorporating feedback loops and pushing replication chemistry away from equilibrium. Finally, the prospects for Systems Chemistry are discussed including the tantalizing vision of the de novo synthesis of life and the idea of self-synthesising and self-repairing chemical factories.
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Published date: 18 April 2017
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Local EPrints ID: 499300
URI: http://eprints.soton.ac.uk/id/eprint/499300
ISSN: 0306-0012
PURE UUID: 48475db1-a0bd-4ea9-981f-d715e8296968
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Date deposited: 14 Mar 2025 17:37
Last modified: 15 Mar 2025 03:14
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Contributors
Author:
Gonen Ashkenasy
Author:
Thomas M. Hermans
Author:
Sijbren Otto
Author:
Annette F. Taylor
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