Add to ORKGThe Nobel Laureates in Chemistry for 2016 have designed and synthesised molecular systems that can be taken out of equilibrium and into higher-energy states in which their movements can be controlled. Molecular machines will likely lead to nanorobots, sensors, storage devices and perhaps even artificial life.6 page(s
Scientists are just beginning to understand the structure and function of minute machines that are e...
The authors thank the EPSRC, ERC, and the Leverhulme Trust for supporting our research programs on m...
A journey into the nano-world: The ability to design, use and control motor-like functions at the mo...
The 2016 Nobel Prize in Chemistry recognised three scientists for pioneering work towards building m...
The article reflects aspects of content and appraisals of awarding the Nobel Prize 2016 in science o...
The design and construction of machines and motors of molecular size is a stimulating scientific cha...
Until now, despite the amazing progress in the synthesis of complex molecular and supramolecular st...
The development of civilization has always been strictly related to the design and construction of d...
Human bodies have many molecular motors and machines [1]. In these biomotors, nature demonstrates mo...
In this article, we will deal with the 2016 Nobel Prizes: Chemistry and Physics, since they are rela...
Modelling enzyme-driven reactions is now possible thanks to a confluence of ideas: those of a Nobel ...
The Nobel Prize in Chemistry 2016 was granted to Jean-Pierre Sauvage, Sir James F. Stoddart and Bern...
International audienceA molecular machine, or nanomachine, refers to any nano-sized system that prod...
The bottom-up construction and operation of machines and motors of molecular size is a topic of grea...
none2Movement is one of life’s central attributes. Nature provides living systems with complex molec...
Scientists are just beginning to understand the structure and function of minute machines that are e...
The authors thank the EPSRC, ERC, and the Leverhulme Trust for supporting our research programs on m...
A journey into the nano-world: The ability to design, use and control motor-like functions at the mo...
The 2016 Nobel Prize in Chemistry recognised three scientists for pioneering work towards building m...
The article reflects aspects of content and appraisals of awarding the Nobel Prize 2016 in science o...
The design and construction of machines and motors of molecular size is a stimulating scientific cha...
Until now, despite the amazing progress in the synthesis of complex molecular and supramolecular st...
The development of civilization has always been strictly related to the design and construction of d...
Human bodies have many molecular motors and machines [1]. In these biomotors, nature demonstrates mo...
In this article, we will deal with the 2016 Nobel Prizes: Chemistry and Physics, since they are rela...
Modelling enzyme-driven reactions is now possible thanks to a confluence of ideas: those of a Nobel ...
The Nobel Prize in Chemistry 2016 was granted to Jean-Pierre Sauvage, Sir James F. Stoddart and Bern...
International audienceA molecular machine, or nanomachine, refers to any nano-sized system that prod...
The bottom-up construction and operation of machines and motors of molecular size is a topic of grea...
none2Movement is one of life’s central attributes. Nature provides living systems with complex molec...
Scientists are just beginning to understand the structure and function of minute machines that are e...
The authors thank the EPSRC, ERC, and the Leverhulme Trust for supporting our research programs on m...
A journey into the nano-world: The ability to design, use and control motor-like functions at the mo...