Actuator’s shape at chosen strain difference

w l R

l  





_max , and using (8.12)



R w, (8.13)

from Eq. (8.6), then equations (8.9) and (8.10) give the shape of the actuator at strain difference ε (Figure 8.1).

CURRICULUM VITAE

Name: Rauno Temmer

Born: 1970, Tartu, Estonia Citizenship: Estonian

E-mail: rauno.temmer@ut.ee Education:

2010 onwards University of Tartu, Faculty of Science and Technology, doctoral studies in Engineering and Technology

1996 … 1999 University of Tartu, M.Sc. in physics, 1999 1988 … 1993 University of Tartu, B.Sc. in physics, 1993 1977 … 1988 14^th Secondary School of Tartu

Employment:

2005 … 2009 Estonian Informatics Centre (public sector, ICT, area manager)

2005 Hansabank (project manager)

1998 … 2003 Estonian Traffic Insurance Fund (public sector, CIO) 1997 … 1998 Estonian Consumers` Co-operatives, CIO

1994 … 1997 University of Tartu, IT manager of physics department International research experience:

1. Research Training Program (03/2012 … 07/2012, University of Wollongong, Australia);

2. Scientific program between the University of Tartu and the University of Cergy-Pontoise – Egide Program – PHC Parrot 2011 (Ph.D. student, 11/2011 … 12/2011, France).

Publications:

– 1.1. Scholarly articles indexed by Thomson Reuters Web of Science:

1. Kiefer, R.; Aydemir, N.; Torop, J.; Tamm, T.; Temmer, R.; Travas-Sejdic, J.; Must, I.; Kaasik, F.; Aabloo, A., “Carbide-derived carbon as active interlayer of polypyrrole tri-layer linear actuator,” Sensors and Actuators B:

Chemical (2014 (Forthcoming)).

2. Kilmartin, P.A.; Travas-Sejdic, J.; Temmer, R.; Tamm, T.; Aabloo, A.;

Kiefer, R., “PEDOT-PSS/MWCNT coatings on PET for conducting polymer actuators,” International Journal of Nanotechnology 11(5–8), 477–485 (2014).

3. Kiefer, R.; Temmer, R.; Aydemir, N.; Travas-Sejdic, J.; Aabloo, A.; Tamm, T., “Electrochemistry of interlayer supported polypyrrole tri-layer linear actuators,” Electrochimica Acta 122, 322–328 (2014).

4. Temmer, R.; Kiefer, R.; Aabloo, A.; Tamm, T., “Direct chemical synthesis of pristine polypyrrole hydrogels and their derived aerogels for high power

density energy storage applications,” Journal of Materials Chemistry A 1(48), 15216–15219 (2013).

5. Temmer, R.; Maziz, A.; Plesse, C.; Aabloo, A.; Vidal, F.; Tamm, T., “In search of better electroactive polymer actuator materials: PPy versus PEDOT versus PEDOT-PPy composites,” Smart Materials and Structures 22(10), 104006 (2013).

6. Kiefer, R.; Temmer, R.; Tamm, T.; Travas-Sejdic, J.; Kilmartin, P.A.;

Aabloo, A., “Conducting polymer actuators formed on MWCNT and PEDOT-PSS conductive coatings,” Synthetic Metals 171, 69–75 (2013).

7. Lee, R.-J.; Temmer, R.; Tamm, T.; Aabloo, A.; Kiefer, R., “Renewable antioxidant properties of suspensible chitosan-polypyrrole composites,”

Reactive and Functional Polymers 73(8), 1072–1077 (2013).

8. Lee, R.-J.; Tamm, T.; Temmer, R.; Aabloo, A.; Kiefer, R., “Two formation mechanisms and renewable antioxidant properties of suspensible chitosan-PPy and chitosan-chitosan-PPy-BTDA composites,” Synthetic Metals 164, 6–11 (2013).

9. Temmer, R.; Must, I.; Kaasik, F.; Aabloo, A.; Tamm, T., “Combined chemical and electrochemical synthesis methods for metal-free polypyrrole actuators,” Sensors and Actuators B: Chemical 166, 411–418 (2012).

– 3.1. Articles in collections indexed by the Thomson Reuters Conference Proceedings Citation Index:

1. Travas-Sejdic, J.; Tamm, T.; Kilmartin, P.A.; Temmer, R.; Aabloo, A.;

Kiefer, R. “PEDOT/TBACF3SO3 bending actuators based on a PEDOT-PEDOT sandwich complex,” in Electroactive Polymer Actuators and Devices (EAPAD) 2013, San Diego, California, USA (2013).

2. Kaasik, F.; Must, I.; Lust, E.; Jürgens, M.; Presser, V.; Punning, A.;

Temmer, R.; Kiefer, R.; Aabloo, A. “In situ measurements with CPC micro-actuators using SEM,” in Proceedings SPIE, Electroactive Polymer Actuators and Devices (EAPAD) 2014, San Diego, California, USA (2014).

ELULOOKIRJELDUS

Nimi: Rauno Temmer

Sünniaeg ja koht: 1970, Tartu, Eesti Kodakondsus: Eesti

E-post: rauno.temmer@ut.ee Hariduskäik:

alates 2010 Tartu Ülikool, loodus- ja tehnoloogiateaduskond, tehnika ja tehnoloogia doktorantuur

1996 … 1999 Tartu Ülikool, füüsika- ja keemiateaduskond, füüsika teadusmagister

1988 … 1993 Tartu Ülikool, füüsika- ja keemiateaduskond, bakalaureusekraad füüsikas

1977 … 1988 Tartu 14. Keskkool Teenistuskäik:

2005 … 2009 Riigi Infosüsteemide Arenduskeskus (valdkonnajuht)

2005 Hansapank (projektijuht)

1998 … 2003 Eesti Liikluskindlustuse Fond (infoosakonna juhataja, arendusdirektor)

1997 … 1998 Eesti Tarbijateühistute Keskühistu (peainfoloog) 1994 … 1997 Tartu Ülikool, füüsikaosakonna IT juht

Rahvusvahelise teadustöö kogemus:

1. Uurimistöö õppeprogramm (03/2012 … 07/2012, Wollongongi Ülikool, Austraalia);

2. Tartu Ülikooli ja Cergy-Pontoise Ülikooli vaheline teadusliku koostöö programm – Egide-Parrot 2011 (Ph.D. üliõpilane, 11/2011 … 12/2011, Prantsusmaa).

Publikatsioonid:

– 1.1. Teadusartiklid, mis on kajastatud Thomson Reuters Web of Science andmebaasis:

1. Kiefer, R.; Aydemir, N.; Torop, J.; Tamm, T.; Temmer, R.; Travas-Sejdic, J.; Must, I.; Kaasik, F.; Aabloo, A., “Carbide-derived carbon as active interlayer of polypyrrole tri-layer linear actuator,” Sensors and Actuators B:

Chemical (2014 (Forthcoming)).

2. Kilmartin, P.A.; Travas-Sejdic, J.; Temmer, R.; Tamm, T.; Aabloo, A.;

Kiefer, R., “PEDOT-PSS/MWCNT coatings on PET for conducting polymer actuators,” International Journal of Nanotechnology 11(5–8), 477–485 (2014).

3. Kiefer, R.; Temmer, R.; Aydemir, N.; Travas-Sejdic, J.; Aabloo, A.;

Tamm, T., “Electrochemistry of interlayer supported polypyrrole tri-layer linear actuators,” Electrochimica Acta 122, 322–328 (2014).

4. Temmer, R.; Kiefer, R.; Aabloo, A.; Tamm, T., “Direct chemical synthesis of pristine polypyrrole hydrogels and their derived aerogels for high power density energy storage applications,” Journal of Materials Chemistry A 1(48), 15216–15219 (2013).

5. Temmer, R.; Maziz, A.; Plesse, C.; Aabloo, A.; Vidal, F.; Tamm, T., “In search of better electroactive polymer actuator materials: PPy versus PEDOT versus PEDOT-PPy composites,” Smart Materials and Structures 22(10), 104006 (2013).

6. Kiefer, R.; Temmer, R.; Tamm, T.; Travas-Sejdic, J.; Kilmartin, P.A.;

Aabloo, A., “Conducting polymer actuators formed on MWCNT and PEDOT-PSS conductive coatings,” Synthetic Metals 171, 69–75 (2013).

7. Lee, R.-J.; Temmer, R.; Tamm, T.; Aabloo, A.; Kiefer, R., “Renewable antioxidant properties of suspensible chitosan-polypyrrole composites,”

Reactive and Functional Polymers 73(8), 1072–1077 (2013).

8. Lee, R.-J.; Tamm, T.; Temmer, R.; Aabloo, A.; Kiefer, R., “Two formation mechanisms and renewable antioxidant properties of suspensible chitosan-PPy and chitosan-PPy-BTDA composites,” Synthetic Metals 164, 6–11 (2013).

9. Temmer, R.; Must, I.; Kaasik, F.; Aabloo, A.; Tamm, T., “Combined chemical and electrochemical synthesis methods for metal-free polypyrrole actuators,” Sensors and Actuators B: Chemical 166, 411–418 (2012).

– 3.1. Artiklid Thomson Reuters Conference Proceedings Citation Index poolt refereeritud kogumikus:

1. Travas-Sejdic, J.; Tamm, T.; Kilmartin, P.A.; Temmer, R.; Aabloo, A.;

Kiefer, R. “PEDOT/TBACF₃SO₃ bending actuators based on a PEDOT-PEDOT sandwich complex,” in Electroactive Polymer Actuators and Devices (EAPAD) 2013, San Diego, California, USA (2013).

2. Kaasik, F.; Must, I.; Lust, E.; Jürgens, M.; Presser, V.; Punning, A.;

Temmer, R.; Kiefer, R.; Aabloo, A. “In situ measurements with CPC micro-actuators using SEM,” in Proceedings SPIE, Electroactive Polymer Actuators and Devices (EAPAD) 2014, San Diego, California, USA (2014).

DISSERTATIONES TECHNOLOGIAE UNIVERSITATIS TARTUENSIS

1. Imre Mäger. Characterization of cell-penetrating peptides: Assessment of cellular internalization kinetics, mechanisms and bioactivity. Tartu 2011, 132 p.

2. Taavi Lehto. Delivery of nucleic acids by cell-penetrating peptides: appli-cation in modulation of gene expression. Tartu 2011, 155 p.

3. Hannes Luidalepp. Studies on the antibiotic susceptibility of Escherichia coli. Tartu 2012, 111 p.

4. Vahur Zadin. Modelling the 3D-microbattery. Tartu 2012, 149 p.

5. Janno Torop. Carbide-derived carbon-based electromechanical actuators.

Tartu 2012, 113 p.

6. Julia Suhorutšenko. Cell-penetrating peptides: cytotoxicity, immunogeni-city and application for tumor targeting. Tartu 2012, 139 p.

7. Viktoryia Shyp. G nucleotide regulation of translational GTPases and the stringent response factor RelA. Tartu 2012, 105 p.

8. Mardo Kõivomägi. Studies on the substrate specificity and multisite phosphorylation mechanisms of cyclin-dependent kinase Cdk1 in Saccharo-myces cerevisiae.Tartu, 2013, 157 p.

9. Liis Karo-Astover. Studies on the Semliki Forest virus replicase protein nsP1. Tartu, 2013, 113 p.

10. Piret Arukuusk. NickFects–novel cell-penetrating peptides. Design and uptake mechanism. Tartu, 2013, 124 p.

11. Piret Villo. Synthesis of acetogenin analogues. Asymmetric transfer hydro-genation coupled with dynamic kinetic resolution of -amido--keto esters.

Tartu, 2013, 151 p.

12. Villu Kasari. Bacterial toxin-antitoxin systems: transcriptional cross-acti-vation and characterization of a novel mqsRA system. Tartu, 2013, 108 p.

13. Margus Varjak. Functional analysis of viral and host components of alpha-virus replicase complexes. Tartu, 2013, 151 p.

14. Liane Viru. Development and analysis of novel alphavirus-based multi-functional gene therapy and expression systems. Tartu, 2013, 113 p.

15. Kent Langel. Cell-penetrating peptide mechanism studies: from peptides to cargo delivery. Tartu, 2014, 115 p.

Im Dokument applications of chemically synthesized (Seite 148-153)