Giulio Ragazzon scite author profile

Nature extensively exploits high-energy transient self-assembly structures that are able to perform work through a dissipative process. Often, self-assembly relies on the use of molecules as fuel that is consumed to drive thermodynamically unfavourable reactions away from equilibrium. Implementing this kind of non-equilibrium self-assembly process in synthetic systems is bound to profoundly impact the fields of chemistry, materials science and synthetic biology, leading to innovative dissipative structures able to convert and store chemical energy. Yet, despite increasing efforts, the basic principles underlying chemical fuel-driven dissipative self-assembly are often overlooked, generating confusion around the meaning and definition of scientific terms, which does not favour progress in the field. The scope of this Perspective is to bring closer together current experimental approaches and conceptual frameworks. From our analysis it also emerges that chemically fuelled dissipative processes may have played a crucial role in evolutionary processes.

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Light-powered autonomous and directional molecular motion of a dissipative self-assembling system

Ragazzon

et al. 2014

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Biomolecular motors convert energy into directed motion and operate away from thermal equilibrium. The development of dynamic chemical systems that exploit dissipative (non-equilibrium) processes is a challenge in supramolecular chemistry and a premise for the realization of artificial nanoscale motors. Here, we report the relative unidirectional transit of a non-symmetric molecular axle through a macrocycle powered solely by light. The molecular machine rectifies Brownian fluctuations by energy and information ratchet mechanisms and can repeat its working cycle under photostationary conditions. The system epitomizes the conceptual and practical elements forming the basis of autonomous light-powered directed motion with a minimalist molecular design.

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Light-powered, artificial molecular pumps: a minimalistic approach

Ragazzon¹,

Baroncini²,

Silvi³

et al. 2015

Beilstein J. Nanotechnol.

114

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SummaryThe realization of artificial molecular motors capable of converting energy into mechanical work is a fascinating challenge of nanotechnology and requires reactive systems that can operate away from chemical equilibrium. This article describes the design and construction of a simple, supramolecular ensemble in which light irradiation causes the directional transit of a macrocycle along a nonsymmetric molecular axle, thus forming the basis for the development of artificial molecular pumps.

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Synthesis of Densely Packaged, Ultrasmall Pt⁰₂ Clusters within a Thioether‐Functionalized MOF: Catalytic Activity in Industrial Reactions at Low Temperature

et al. 2018

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The gram-scale synthesis, stabilization, and characterization of well-defined ultrasmall subnanometric catalytic clusters on solids is a challenge. The chemical synthesis and X-ray snapshots of Pt clusters, homogenously distributed and densely packaged within the channels of a metal-organic framework, is presented. This hybrid material catalyzes efficiently, and even more importantly from an economic and environmental viewpoint, at low temperature (25 to 140 °C), energetically costly industrial reactions in the gas phase such as HCN production, CO methanation, and alkene hydrogenations. These results open the way for the design of precisely defined catalytically active ultrasmall metal clusters in solids for technically easier, cheaper, and dramatically less-dangerous industrial reactions.

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Optical processes in carbon nanocolloids

Ragazzon

Cadranel

Ushakova

et al. 2021

Chem

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Giulio Ragazzon

Energy consumption in chemical fuel-driven self-assembly

Light-powered autonomous and directional molecular motion of a dissipative self-assembling system

Light-powered, artificial molecular pumps: a minimalistic approach

Synthesis of Densely Packaged, Ultrasmall Pt⁰₂ Clusters within a Thioether‐Functionalized MOF: Catalytic Activity in Industrial Reactions at Low Temperature

Optical processes in carbon nanocolloids

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Giulio Ragazzon

Energy consumption in chemical fuel-driven self-assembly

Light-powered autonomous and directional molecular motion of a dissipative self-assembling system

Light-powered, artificial molecular pumps: a minimalistic approach

Synthesis of Densely Packaged, Ultrasmall Pt02 Clusters within a Thioether‐Functionalized MOF: Catalytic Activity in Industrial Reactions at Low Temperature

Optical processes in carbon nanocolloids

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Product

Resources

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Synthesis of Densely Packaged, Ultrasmall Pt⁰₂ Clusters within a Thioether‐Functionalized MOF: Catalytic Activity in Industrial Reactions at Low Temperature