Chemosensors 2011
DOI: 10.1002/9781118019580.ch13
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New Fluorophore Design

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Cited by 2 publications
(3 citation statements)
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“…This analysis has benefited from the ease with which fields, fluxes and charges are readily calculated and visualized within the SimPEG framework, particularly when used in conjunction with Jupyter notebooks. Source codes for all of the examples in this paper are available in the form of Jupyter notebooks at https://github.com/simpeg-research/heagy-2018-dc-casing (Heagy 2018); our aim in providing these notebooks is to allow readers to reproduce the results shown and also adapt the parameters and extend the analysis to address their questions.…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…This analysis has benefited from the ease with which fields, fluxes and charges are readily calculated and visualized within the SimPEG framework, particularly when used in conjunction with Jupyter notebooks. Source codes for all of the examples in this paper are available in the form of Jupyter notebooks at https://github.com/simpeg-research/heagy-2018-dc-casing (Heagy 2018); our aim in providing these notebooks is to allow readers to reproduce the results shown and also adapt the parameters and extend the analysis to address their questions.…”
Section: Discussionmentioning
confidence: 99%
“…Source codes for all of the simulations shown are open source, licensed under the MIT license, and are available as Jupyter notebooks at: https://github.com/simpeg-research/heagy-2018-dc-casing (Heagy 2018). The examples in the paper have been selected with an emphasis on examining physical principles; however, we envision that the Jupyter notebooks included with this publication could serve as useful survey design tools.…”
mentioning
confidence: 99%
“…ESIPT is essentially a photo-tautomerization process that occurs in the electronically excited state of a molecule (Scheme 1a), in which the proton-transfer tautomer emission reveals an anomalously large spectral red-shift with respect to absorption. This unique photophysical property leads to numerous practical optoelectronic applications, such as bioimaging, [1][2][3] fluorescent solar energy concentrators, 4,5 and UV-photostabilizers, [6][7][8] as well as chemosensors, [9][10][11] organic light-emitting devices, 12,13 laser dyes, [14][15][16] and molecular switches. [17][18][19] It has been well accepted that the driving force of ESIPT reaction comes from significant changes in the acidity and basicity of the involved groups.…”
Section: Introductionmentioning
confidence: 99%