Dissemination

 

PUBLICATIONS
1.   Anionic sigmatropic-electrocyclic-Chugaev cascades: accessing 12-aryl-5-(methylthio (carbonyl)thio)tetracenes and a related anthra[2,3-b]thiophene, L. Burroughs, J. Ritchie, M. Ngwenya, D. Khan, W. Lewis, S. Woodward , Beilstein J. Org. Chem. 2015, 11, 273-279 (open access link)


2     One-pot Cannizzaro cascade synthesis of ortho-fused cycloocta-2,5-dien-1-ones from 2-bromo(hetero)aryl aldehydes, L. Burroughs, L. Eccleshare, J. Ritchie, O. Kulkarni, B. Lygo, S. Woodward, W. Lewis, Angew. Chem. Int. Ed. 2015, 54, 10648-10651 (open access link).

3     Understanding Anionic Chugaev Elimination in Pericyclic Tetracene Formation, L. Burroughs, J. Ritchie, S. Woodward, Tetrahedron 2016, in production.

4     Thermoelectric properties of nanostructured tetrathiotetracene iodide crystals in a two-dimensional model, I. Sanduleac, A. Casian, J. Pflaum, J. Nanoelectron. Optoelectron. 2014, 9, 247-252 (open access link).

5     Prospects of low dimensional organic materials for thermoelectric applications, A. I. Casian, J. Pflaum, I. I. Sanduleac, J. of Thermoelectricity 2015, 16-26 (open access link).

6     Tetrathiotetracene thin film morphology and electrical properties, K. Pudzs, A. Vembris, J. Busenbergs, M. Rutkis, S. Woodward, Thin Solid Films 2016, 598, 214-218 (open access link available from Dec 2017 due to journal policy, doi).

7     A. I. Casian, I. I. Sanduleac Organic thermoelectric materials: new opportunities, J. of Thermoelectricity 2013, 11-20  (open access link).

8     I. Sanduleac, Thermoelectric power factor of TTT2I3 quasi-one-dimensional crystals in the 3D physical model, J. of Thermoelectricity 2014, 50-56 (open access link).

9     Thermoelectric properties of tetrathiotetraceneiodide crystals: modeling and experiment,  A. I. Casian, I. I. Sanduleac, J. Electronic Materials 2014, 43, 3740-3745 (open access link, doi).

10    Nanostructured TTT(TCNQ)2 organic crystals as promising thermoelectric n-type materials: 3D modeling, I. Sanduleac, A. Casian, J. Elec. Materials 2015, 44, 1-5 (open access link, doi). This paper was commented on (link).

11    Thermoelectric properties of nanostructured tetrathiotetracene iodide crystals: 3D modeling, A. Casian, I. Sanduleac, Mat. Today Proc. 2015, 2, 504-509 (open access link, doi)

 

CONFERENCE PROCEEDINGS

1. (a) Presentation of route of original route at the Kick off meeting of UK Thermoelectric Network (link), 24 February, 2014, Manchester, UK, organic electronics poster presentation (John Ritchie and Laurence Burroughs).

(b) Presentation of tetracene and 8-ring chemistry, Department of Organic Chemistry Internal Symposium, University of Nottingham, UK, 12 June 2015 (John Ritchie and Lee Eccleshare).

(c) Presentation of 8-ring chemistry at Royal Society of Chemistry 30th Postgraduate Symposium, Lilly UK Research and Development, Windlesham, UK, 10 September 2015. Lee Eccleshare wins prize for best ‘flash presentation’ (link1, link2).

2     Presentation of 8-ring chemistry at XI NOST Conference for Research Scholars (JNOST), NISER, Bhubaneswar, India 14-17 December 2015 (link). Lee Eccleshare is on the back row, 9th from the left (picture).

3     Energy exchange between phononic and electronic subsystem governing the nonlinear conduction in DCNQI2Cu, F. Huewe, A. Steeger, I. Bauer, S. Doerrich, P. Strohriegl, J. Pflaum, Phys. Rev. B. 2015, 92, 155107 (open access link doi).

4     Presented at 11th International Symposium on Crystalline Organic Metals, Superconductors and Magnets, Bad Gögging, Germany. (a) Poster presentation 1: A. Steeger, et al., The potential of quasi-one-dimensional organic metals for thermoelectric applications; (b) poster presentation 2: Energy exchange between phononic and electronic subsystem governing the nonlinear conduction in DCNQI2Cu, F. Huewe, A. Steeger, I. Bauer, S. Doerrich, P. Strohriegl, J. Pflaum (link).

5     (a) K. Pudzs, A. Vembris, M. Rutkis, Impact of sublimation parameters on tetra-tio-tetracene thin film morphology and electrical properties, 30th Scientific Conference of the Institute of Solid State Physics, University of Latvia, Riga, 19-21.02.2014, Abstracts p. 57 (link);

(b) K. Pudzs, A. Vembris, M. Rutkis, Tetra-thio-tetracene containing materials for thermoelectric devices, 7th International Conference on Molecular Electronics, 24-29.08.2014, Strasbourg, France (link), Book of Abstracts, p. 46;

(c) K. Pudzs, A. Vembris, M. Rutkis, TTT thin film morphology and electrical properties, Joint 12th Russia/CIS/Baltic/Japan Symposium on Ferroelectricity (link) and 9th International Conference Functional Materials and Nanotechnologies, 29.09.2014 to 02.10.2014, Riga, Latvia, Book of Abstract p. 372;

(d) K. Pudzs, A. Vembris, J.Tjarve, M. Rutkis Thermo-electrical properties of tetrathiotetracene thin films doped with iodine (link), XVI International Forum on Thermoeletricity (link), 18-23.05.2015, Paris, France.

(e) K. Pudzs, A. Vembris, M. Rutkis, J. Tjarve, Electrical and thermo-electrical properties of tetrathiotetracene iodide thin films (link), 34th Annual International Conference on Thermoelectrics and 13th European conference on Thermoelectrics, 28.06.2015 to 02.07.2015, Dresden, Germany (link); (f) M. Rutkis, K. Pudžs, A. Vembris, J. Tjarve, Development of tetrathiotetracene based thin films for thermo-electrical applications,  10th International Conference on Functional Materials and Nanotechnologies (FM&NT 2015) (link), 05-08.10.2015, Vilnius, Lithuania, Book of Abstract p.78 (photo of attendees).

6     The Joint 12th Russia/CIS/Baltic/Japan Symposium on Ferroelectricity and 9th International Conference Functional Materials and Nanotechnologies were highlighted (link1, link2).

7     (a) A. Casian, I. Sanduleac, Organic thermoelectric materials: new opportunities (invited paper) XV International Forum on Thermoelectricity, May 21-24, 2013, Tallinn, Estonia (link)

(b) A. Casian, I. Sanduleac, Thermoelectric properties of tetrathiotetracene iodide crystals: modeling and experiment (oral presentation), 11th European Conference on Thermoelectrics (link), 18-20.11.2013, ESA/ESTEC, Noordwijk, Netherlands.

(c) A. Casian, I. Sanduleac, Thermoelectric properties of nanostructured tetrathiotetracene iodide crystals: 3D modelling (oral presentation), 12th European Conference on Thermoelectrics (link), 24-26.09.2014, Madrid, Spain.

(d) I. Sanduleac, I. Balmus, A. Casian. TTT2I3organic crystals: 3D modeling of thermoelectric properties (oral presentation), 8th International Conf. on Microelectronics and Computer Science, 22-35.10.2014, Chişinău, Moldova. Proceedings also presented on-line (link).

(e) A. Casian, J. Pflaum, I. Sanduleac. Prospects of low dimensional organic materials for thermoelectric applications  (invited presentation), XVI International Forum on Thermoeletricity (link), 18-23.05.2015, Paris, France.

(f) I. Sanduleac, A. Casian, TTT(TCNQ)2 as prospective thermoelectric n-type material (poster PA158), 34th International Conference on Thermoelectrics (link), 28.06.2015 to 02.07.2015, Dresden, Germany.

(g) I. Sanduleac, A. Casian Transport properties of nanostructured organic crystal of TTT(TCNQ)2 (invited contribution) 5th International Conference on Telecom., Electronics and Inform, ICTEI 2015 (link), 21.05.2015,Chişinău, Moldova.

GENERAL NEWS ARTICLES
1. News article: ‘Ein neuer Ansatz zum Energiesparen’ (A new approach to save energy) initial announcement of h2esot by Universität Würzburg commented on by Green-Tech Germany, 14.02.2013 (link) and Innovations Report, 05.02.2013 (link). Additionally, one article commented on in Facebook (link).
2     News article: ‘Strom aus Abfallwärme’ (Power from waste heat) covered by INGENIEUR.de, 11.01.2016 (link).
3     News article: ‘Organische Halbleiter: Thermogeneratoren aus Molekülkristallen’ (Organic semiconductors: thermogenerators from molecular crystals) covered by elektroniknet.de, 27.02.2013 (link).

 

 

 

H2ESOT - FP7 funded project for Future Emerging Technologies • 2012