Institution
University of Bath
Education•Bath, Bath and North East Somerset, United Kingdom•
About: University of Bath is a education organization based out in Bath, Bath and North East Somerset, United Kingdom. It is known for research contribution in the topics: Population & Photonic-crystal fiber. The organization has 15830 authors who have published 39608 publications receiving 1358769 citations. The organization is also known as: Bath University.
Papers published on a yearly basis
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TL;DR: This tutorial review takes a look back on and provides an overview of the birth and growth of the field of molecular logics, and "boldly go where no silicon-based logic gate has gone before" and seek out a new deeper understanding of life inside tissues and cells.
Abstract: The field of molecular logic gates originated 25 years ago, when A. P. de Silva published a seminal article in Nature. Stimulated by this ground breaking research, scientists were inspired to join the race to simulate the workings of the fundamental components of integrated circuits using molecules. The rules of this game of mimicry were flexible, and have evolved and morphed over the years. This tutorial review takes a look back on and provides an overview of the birth and growth of the field of molecular logics. Spinning-off from chemosensor research, molecular logic gates quickly proved themselves to be more than intellectual exercises and are now poised for many potential practical applications. The ultimate goal of this vein of research became clearer only recently – to “boldly go where no silicon-based logic gate has gone before” and seek out a new deeper understanding of life inside tissues and cells.
402 citations
TL;DR: It is demonstrated that a simple time lag model provides a general, parsimonious explanation of the extensive variation in the dN/dS ratio seen when comparing closely related bacterial genomes, and a role for hitch-hiking in the accumulation of non-synonymous mutations is suggested.
402 citations
TL;DR: Understanding the mechanisms of pathogenesis have parallels with those of some plant-pathogenic fungi, particularly in the areas of formation of an infection structure, entry into the host and toxin-mediated host death, will provide a rational basis for strain selection and improvement.
401 citations
TL;DR: The underlying energy donor-acceptor dye combinations and their applications for the detection or imaging of cations, anions, small neutral molecules, biomacromolecules, cellular microenvionments and dual/multi-analyte responsive systems are discussed.
Abstract: In this tutorial review, we will explore recent advances in the construction and application of Forster resonance energy transfer (FRET)-based small-molecule fluorescent probes. The advantages of FRET-based fluorescent probes include: a large Stokes shift, ratiometric sensing and dual/multi-analyte responsive systems. We discuss the underlying energy donor–acceptor dye combinations and emphasise their applications for the detection or imaging of cations, anions, small neutral molecules, biomacromolecules, cellular microenvionments and dual/multi-analyte responsive systems.
399 citations
TL;DR: These processes act to maintain the number and quality of synaptic connections in key brain regions and thus flavonoids have the potential to prevent the progression of neurodegenerative pathologies and to promote cognitive performance.
399 citations
Authors
Showing all 16056 results
| Name | H-index | Papers | Citations |
|---|---|---|---|
| Michael Grätzel | 248 | 1423 | 303599 |
| Brenda W.J.H. Penninx | 170 | 1139 | 119082 |
| Amartya Sen | 149 | 689 | 141907 |
| Gilbert Laporte | 128 | 730 | 62608 |
| Andre K. Geim | 125 | 445 | 206833 |
| Matthew Jones | 125 | 1161 | 96909 |
| Benoît Roux | 120 | 493 | 62215 |
| Stephen Mann | 120 | 669 | 55008 |
| Bruno S. Frey | 119 | 900 | 65368 |
| Raymond A. Dwek | 118 | 603 | 52259 |
| David Cutts | 114 | 778 | 64215 |
| John Campbell | 107 | 1150 | 56067 |
| David Chandler | 107 | 424 | 52396 |
| Peter H.R. Green | 106 | 843 | 60113 |
| Huajian Gao | 105 | 667 | 46748 |