Postes Disponibles

Latest Posts

“Direct Preparation of Electroactive Polymers on Electrodes and Their Use in Electrochromic Devices”

Bolduc, A., Skene. W.G.* “’Direct Preparation of Electroactive Polymers on Electrodes and Their Use in Electrochromic Devices”, Polym. Chem. 5, 1119-1123 (2014).

“Towards Multichromatic Electrochromes from Ambipolar Conjugated Azomethines”

Mulholland, M., Navarathne, D., Khedri, S., Skene, W.G.* “Towards Multichromatic Electrochromes from Ambipolar Conjugated Azomethines” New J. Chem. 28, 1668-1674, (2014)

“Conjugated Thiophenoazomethines: Electrochromic Materials Exhibiting Visible-to-Near-IR Color Changes”

Barik, S., Navarthane, D., Leborgne, M., Skene. W.G.* “Conjugated Thiophenoazomethines: Electrochromic Materials Exhibiting Visible-to-Near-IR Color Changes”, J. Mater. Chem. C, 35, 5508-5519 (2013).

“Charge-Carrier Transport in Thin Films of -Conjugated Thiopheno-Azomethines”

Işık, D., Santato, C.,* Barik, S., Skene. W.G.* “Charge-Carrier Transport in Thin Films of p-Conjugated Thiopheno-Azomethines” Org. Electron., 3, 3022–3031 (2012).

“α,α′-N-Boc Substituted Bi- and Terthiophenes – Fluorescent Precursors for Functional Materials”

Dong, Y., Navarathne, D., Bolduc, A., McGregor, N., and Skene, W.G.* “α,α′-N-Boc Substituted Bi- and Terthiophenes – Fluorescent Precursors for Functional Materials” J. Org. Chem., 77, 5429–5433 (2012).

Materials division of the CIC

The Materials Division of the Chemical Institute of Canada This site connects members of the Materials Chemistry Division of the CIC with current information about upcoming events, opportunities and ongoing materials research being carried out across the country. We help organize the annual CSC

PMSE

Polymeric Materials: Science and Engineering Division of the American Chemical Society http://pmse.sites.acs.org/

“Unparalleled fluorescence of a polyazomethine prepared from the self-condensation of an automer and its potential use as a fluorimetric sensor for explosive detection”

Mallet, C., Le Borgne, M., Starck, M., Skene, W.G.* “Unparalleled fluorescence of a polyazomethine prepared from the self-condensation of an automer and its potential use as a fluorimetric sensor for explosive detection”, Polym. Chem. 4, 250-254 (2013).

“Photophysical and Electrochemical Investigations of the Fluorescent Probe, 4,4′-Bis(2-benzoxazolyl)stilbene”

Fourati, M.A., Skene, W.G.,* Bazuin C.G.,* Prud’homme, R.E.* “Photophysical and Electrochemical Investigations of the Fluorescent Probe, 4,4′-Bis(2-benzoxazolyl)stilbene”, J. Phys. Chem. A, 117, 836-844 (2013).

Chercheurs Postdoctorals

Les chercheurs posdoctoraux sont invités à se renseigner  sur la disponibilité de la poursuite de la recherche dans le groupe. Soumettez votre CV et lettre d’accompagnement comme fichier pdf dans le formulaire ci-dessous.

Étudiants Diplômés

Les étudiants qui veulent poursuivre la recherche au 2ième ou 3ième cycles dans le groupe sont encouragés de se renseigner.

Étudiants d’été

Des postes sont disponibles pour ceux et celles qui s’intéressent aux domaines de la synthèse organique, la chimie des polymères, et la physicochimie.

“– Conjugated Fluorescent Azomethine Copolymers – Opto-electronic, Halochromic, and Doping Properties”

Barik, S., Skene, W.G.* “– Conjugated Fluorescent Azomethine Copolymers – Opto-electronic, Halochromic, and Doping Properties” Macromolecules, 23, 1165-1173 (2012).

“Photophysical, Electrochemical and Crystallographic Investigations of the Fluorophore, 2,5-Bis(5-tert-Butyl-Benzoxazol-2-yl)thiophene”

Fourati, A., Maris, T., Skene, W.G.*, Bazuin, C.G.*, Prud’homme, R.E.* “Photophysical, Electrochemical and Crystallographic Investigations of the Fluorophore, 2,5-Bis(5-tert-Butyl-Benzoxazol-2-yl)thiophene”, J. Phys., Chem. B, 115, 12362-12369 (2011).

“Diethyl 2,5-bis[(E)-1H-pyrrol-2-ylmethyleneamino]-thiophene-3,4-dicarboxylate”

Dufresne, S., Skene, W.G.* “Diethyl 2,5-bis[(E)-1H-pyrrol-2-ylmethyleneamino]-thiophene-3,4-dicarboxylate” Acta Cryst. E67., o2302 (2011).

“Optoelectronic property tailoring of conjugated heterocyclic azomethines – the effect of pyrrole, thiophene and furans”

Knipping, E., Roche Ulliel, I., Dufresne, S., McGregor, N., and Skene, W.G.* “Selective Fluorescence Turn-On of a Prefluorescent Azomethine with Zn2+” Tetrahedron Lett. 52, 4358-4387, (2011).

“Unsymmetric Pyrrole, Thiophene, and Furan-Conjugated Comonomers Prepared Using Azomethine Connections: Potential New Monomers for Alternating Homocoupled Products”

Dufresne, Stephane; Skene, W. G., “Unsymmetric Pyrrole, Thiophene, and Furan-Conjugated Comonomers Prepared Using Azomethine Connections: Potential New Monomers for Alternating Homocoupled Products”, J. Org. Chem., 73, 3859-3866 (2008).

“Diethyl 2,5-bis[(E)-2-furylmethyleneamino]thiophene-3,4-dicarboxylate”

Dufresne, S. Skene, W. G., “Diethyl 2,5-bis[(E)-2-furylmethyleneamino]thiophene-3,4-dicarboxylate”, Acta Cryst, E, E64(4), o710, o710/1-o710/13 (2008).

“Environmentally friendly preparation of a conjugated polyazostilbene: A photophysical and electrochemical investigation”

Dufresne, S. Gaultois, M. ; Skene, W. G., “Environmentally friendly preparation of a conjugated polyazostilbene: A photophysical and electrochemical investigation”, Opt. Mater., 30, 961-967 (2008).

“(E)-5-(2-Thienylmethyleneamino)quinolin-8-ol”

Dufresne, S. Bourque, A. N.; Skene, W. G., “(E)-5-(2-Thienylmethyleneamino)quinolin-8-ol”, Acta Cryst, E64(1), o316, o316/1-o316/7 (2008).