F
Françisco M. Raymo
Researcher at University of Miami
Publications - 279
Citations - 19617
Françisco M. Raymo is an academic researcher from University of Miami. The author has contributed to research in topics: Photochromism & Quantum dot. The author has an hindex of 65, co-authored 272 publications receiving 18608 citations. Previous affiliations of Françisco M. Raymo include University of California, Los Angeles & University of Messina.
Papers
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Journal ArticleDOI
Artificial Molecular Machines.
TL;DR: The aim of this review is to present a unified view of the field of molecular machines by focusing on past achievements, present limitations, and future perspectives.
Journal ArticleDOI
Electronically Configurable Molecular-Based Logic Gates
C. P. Collier,Eric W. Wong,M. Belohradský,Françisco M. Raymo,J. F. Stoddart,Philip J. Kuekes,R. S. Williams,James R. Heath +7 more
TL;DR: Logic gates were fabricated from an array of configurable switches, each consisting of a monolayer of redox-active rotaxanes sandwiched between metal electrodes, which provided a significant enhancement over that expected for wired-logic gates.
Journal ArticleDOI
A [2]Catenane-Based Solid State Electronically Reconfigurable Switch
C. P. Collier,Gunter Mattersteig,Eric W. Wong,Yi Luo,K. C. Beverly,José Sampaio,Françisco M. Raymo,J. Fraser Stoddart,James R. Heath +8 more
TL;DR: In this paper, a solid state, electronically addressable, bistable [2]catenane-based molecular switching device was fabricated from a single monolayer of the [2]-Catenane, anchored with phospholipid counterions, and sandwiched between an n-type polycrystalline silicon bottom electrode and a metallic top electrode.
Journal ArticleDOI
Digital processing and communication with molecular switches
TL;DR: In this paper, the three basic logic operations (AND, NOT, and OR) and more complex logic functions (EOR, INH, NOR, XNOR, and XOR) have been reproduced already at the molecular level.
Journal ArticleDOI
Synthetic supramolecular chemistry
TL;DR: For many decades, the construction of organic compounds in the laboratory has relied on the remarkable abilities of the 20th century "alchemists" to make and break covalent bonds as discussed by the authors.