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Gspann

Thurid Gspann

Projektleiterin Nanomaterialien, Standardisierung
Tel.: +49 721 608-28611
thurid gspannYun9∂kit edu


Kurzbiografie

Aktuelle Position seit 2020
Projektleitung im NanoMat-Cluster, Hauptverantwortungsgebiet: Standardisierung von NanoMaterialien
Projekte: Graphene Flagship, Iso-G-SCoPe, Ensemble3

Beruflicher Werdegang
2011 – 2019: Senior Postdoctoral Research Associate am Department of Materials Science and Metallurgy, University of Cambridge, UK

2016 – 2017: Wissenschaftliche Berater Tätigkeit für Industrie
2014 – 2017: Gastwissenschaftler (1 Monat/Jahr) an der National University of Singapore, SG
2009 – 2010: Wissenschaftliche Mitarbeiterin am Institut für Angewandte Informatik, Karlsruher Institut für Technologie, KIT
2006 – 2009: Promotion am Institut für Angewandte Informatik des Forschungszentrums Karlsruhe, heute Karlsruher Institut für Technologie, KIT

Ausbildung
2011 Doktor der Ingenieurswissenschaften an der Universität Karlsruhe (TH)
2005 Diplom-Ingenieur Maschinenbau an der Universität Karlsruhe (TH)

Publikationen


Zeitschriftenaufsätze
Quantifying alignment in carbon nanotube yarns and similar two‐dimensional anisotropic systems.
Kaniyoor, A.; Gspann, T.; Mizen, J. E.; Elliott, J. A.
2021. Journal of applied polymer science, Art.-Nr.: 50939. doi:10.1002/app.50939VolltextVolltext der Publikation als PDF-Dokument
Catalyst‐mediated enhancement of carbon nanotube textiles by laser irradiation: Nanoparticle sweating and bundle alignment.
Gspann, T.; Kaniyoor, A.; Tan, W.; Kloza, P. A.; Bulmer, J. S.; Mizen, J.; Divitini, G.; Terrones, J.; Tune, D.; Cook, J. D.; Smail, F. R.; Elliott, J. A.
2021. Catalysts, 11 (3), 1–30. doi:10.3390/catal11030368VolltextVolltext der Publikation als PDF-Dokument
High Resolution On‐Demand Nanostructures.
Schneider, N.; Gspann, T.; Kolew, A.; Schneider, M.; Leuthold, J.; Worgull, M.
2020. Physica status solidi / A, 217 (20), Art.Nr. 1900688. doi:10.1002/pssa.201900688
A comparative study of the tensile failure of carbon nanotube, Dyneema and carbon fibre tows over six orders of strain rate.
Gspann, T.; Ngern, N. H. H.; Kiley, P. J.; McKeown, P. A.; Bulmer, J. S.; Windle, A. H.; Tan, V. B. C.; Elliott, J. A.
2020. Carbon, 164, 407–421. doi:10.1016/j.carbon.2020.03.051
Forecasting continuous carbon nanotube production in the floating catalyst environment.
Bulmer, J. S.; Kaniyoor, A.; Gspann, T.; Mizen, J.; Ryley, J.; Kiley, P.; Ratering, G.; Sparreboom, W.; Bauhuis, G.; Stehr, T.; Oudejans, D.; Sparkes, M.; O’Neill, B.; Elliott, J. A.
2020. The chemical engineering journal, 390, Art.-Nr.: 124497. doi:10.1016/j.cej.2020.124497
Extreme stretching of high G:D ratio carbon nanotube fibers using super-acid.
Bulmer, J. S.; Mizen, J. E.; Gspann, T. S.; Kaniyoor, A.; Ryley, J. B.; Kiley, P. J.; Sparkes, M. R.; O’Neill, B.; Elliott, J. A.
2019. Carbon, 153, 725–736. doi:10.1016/j.carbon.2019.07.061
High throughput production of single-wall carbon nanotube fibres independent of sulfur-source.
Kaniyoor, A.; Bulmer, J.; Gspann, T.; Mizen, J.; Ryley, J.; Kiley, P.; Terrones, J.; Miranda-Reyes, C.; Divitini, G.; Sparkes, M.; O’Neill, B.; Windle, A.; Elliott, J. A.
2019. Nanoscale, 11 (39), 18483–18495. doi:10.1039/C9NR06623C
The mechanical and electrical properties of direct-spun carbon nanotube mats.
Stallard, J. C.; Tan, W.; Smail, F. R.; Gspann, T.; Boies, A. M.; Fleck, N. A.
2018. Extreme mechanics letters, 21, 65–75. doi:10.1016/j.eml.2018.03.003VolltextVolltext der Publikation als PDF-Dokument
Triboluminescence flashes from high-speed ruptures in carbon nanotube Macro-Yarns.
Gspann, T. S.; Ngern, N. H. H.; Fowler, A.; Windle, A. H.; Tan, V. B. C.; Elliott, J. A.
2018. Materials letters, 213, 298–302. doi:10.1016/j.matlet.2017.11.066
Photonic Sorting of Aligned, Crystalline Carbon Nanotube Textiles.
Bulmer, J. S.; Gspann, T. S.; Orozco, F.; Sparkes, M.; Koerner, H.; Di Bernardo, A.; Niemiec, A.; Robinson, J. W. A.; Koziol, K. K.; Elliott, J. A.; O’Neill, W.
2017. Scientific reports, 7 (1), Art.-Nr.: 12977. doi:10.1038/s41598-017-12605-yVolltextVolltext der Publikation als PDF-Dokument
High thermal conductivities of carbon nanotube films and micro-fibres and their dependence on morphology.
Gspann, T. S.; Juckes, S. M.; Niven, J. F.; Johnson, M. B.; Elliott, J. A.; White, M. A.; Windle, A. H.
2017. Carbon, 114, 160–168. doi:10.1016/j.carbon.2016.12.006
The measurement of properties in carbon nanotube yarns.
Elliott, J.; Gspann, T.; Terrones, J.; Windle, A.
2017. WSEAS transactions on applied and theoretical mechanics, 12, 33–40
Aligned carbon nanotube–epoxy composites: the effect of nanotube organization on strength, stiffness, and toughness.
Mikhalchan, A.; Gspann, T.; Windle, A.
2016. Journal of materials science, 51 (22), 10005–10025. doi:10.1007/s10853-016-0228-6
Mechanical properties of carbon nanotube fibres: St Venant’s principle at the limit and the role of imperfections.
Gspann, T. S.; Montinaro, N.; Pantano, A.; Elliott, J. A.; Windle, A. H.
2015. Carbon, 93, 1021–1033. doi:10.1016/j.carbon.2015.05.065
CNT fibres - yarns between the extremes.
Gspann, T. S.; Montinaro, N.; Windle, A. H.
2015. MRS online proceedings library, 1752, 117–123. doi:10.1557/opl.2015.251
Stress Transfer within CNT Fibres: A FEA Approach.
Montinaro, N.; Gspann, T. S.; Pantano, A.; Elliott, J. A.; Windle, A. H.
2015. Procedia engineering, 109, 435–440. doi:10.1016/j.proeng.2015.06.258
Proceedingsbeiträge
Carbon Nanotube Assemblies and their Composites: Mechanical Properties.
Windle, A.; Gspann, T.; Mikhalchan, A.
2016. Global Nanotechnology Congress and Expo. 4th Scientific Federation Conference, April 21-23, 2016, Dubai, UAE, Scientific Federation
Vorträge
Triboluminescence in Carbon Nanotube Macrostructures.
Gspann, T.; Ngern, N.; Fowler, A.; Windle, A.; Tan, V.; Elliott, J.
2017, August 31. NanoteC: Carbon Nanoscience and Nanotechnology (2017), Nantes, Frankreich, 30. August–2. September 2017
Feedback Loop on Floating Catalyst CVD Reactor: Micro-fluidic Control and Contactless Electromagnetic Monitoring.
Bulmer, J.; Gspann, T.; Kaniyoor, A.; Ussi, F.; Ryley, J.; Mizen, J.; Sparkes, M.; Elliott, J.; O’Neil, B.
2017, Juni 30. International Conference on the Science and Application of Nanotubes and Low-dimensional Materials (NT 2017), Belo Horizonte, Brasilien, 25.–30. Juni 2017
Ultra-High Long Gauge Length Thermal Conductivities of Carbon Nanotube Fibres and their Dependence on Morphology.
Gspann, T.; Juckes, S.; Niven, J.; Johnson, M.; Elliott, J.; White, M. A.; Windle, A.
2017, Juni 26. International Conference on the Science and Application of Nanotubes and Low-dimensional Materials (NT 2017), Belo Horizonte, Brasilien, 25.–30. Juni 2017
The Role of Carbonaceous Coating for Anchoring of Carbon Nanotube Bundles.
Gspann, T.; Mikhalchan, A.; Bulmer, J.; Kaniyoor, A.; Terrones, J.; Windle, A.; Elliott, J.
2017, April 11. Faraday Joint Interest Group Conference (2017), Warwick, Vereinigtes Königreich, 11.–13. April 2017
Carbon Nanotube Fibres - Yarns between the Extremes.
Gspann, T.; Montinaro, N.; Elliott, J.; Windle, A.
2015, Juli 9. Seminarvortrag, Department of Mechanical Engineering, National University of Singapore (2015), Singapur, Singapur, 9. Juli 2015
Carbon Nanotube Fibres - Tailoring Properties with Nanocarbons.
Gspann, T.; Montinaro, N.; Elliott, J.; Windle, A.
2015, Juni. International Conference on Materials for Advanced Technologies (ICMAT 2015), Singapur, Singapur, 28. Juni–3. Juli 2015
Tensile Strength of CNT Fibres - Between Super-Lubricity and Space Elevator.
Gspann, T.; Montinaro, N.; Windle, A.
2014, Dezember 3. MRS Fall Meeting & Exhibit (2014), Boston, MA, USA, 30. November–5. Dezember 2014
Carbon Nanotube Fibres: High performance fibres directly spun from the gas phase.
Gspann, T.; Windle, A.
2014, Mai 26. Bosch Carbon Workshop, Karlsruher Institut für Technologie (2014), Karlsruhe, Deutschland, 26. Mai 2014
Direct Carbon Nanotube Fibre Spinning - Improvements of Fibre Purity and Tensile Properties by better Process Control.
Gspann, T.; Windle, A.
2014, Januar 24. Seminarvortrag, Department of Mechanical Engineering, National University of Singapore (2014), Singapur, Singapur, 24. Januar 2014
Reduzierung co-synthetisierter Verunreinigungen in CNT-Fasern durch Kontrolle des Reaktor-Strömungsprofils.
Gspann, T.; Smail, F.; Windle, A.
2013, Februar 21. Jahreskongress Innovationsallianz Carbon Nanotubes (Inno.CNT 2013), Fellbach, Deutschland, 20.–21. Februar 2013
Impurity control in CNT Fibre Synthesis: Improvements in Purity and Mechanical Performance.
Gspann, T.; Smail, F.; Windle, A.
2012, Juni 28. International Conference on the Science and Application of Nanotubes and Low-dimensional Materials (NT 2012), Brisbane, Australien, 25.–28. Juni 2012
Sensing devices based on semiconducting carbon nanotubes.
Gspann, T.
2011, Februar 15. Seminarvortrag, Department of Materials Science and Metallurgy, University of Cambridge (2011), Cambridge, Vereinigtes Königreich, 15. Februar 2011
Poster
Analysis of Furnace Gas Evolved During Carbon Nanotube Fibre Production.
Ryley, J.; Bulmer, J.; Kaniyoor, A.; Gspann, T.; Sparkes, M.; O’Neil, W.; Elliott, J.
2019, Juli 24. International Conference on the Science and Application of Nanotubes and Low-dimensional Materials (NT 2019), Würzburg, Deutschland, 21.–26. Juli 2019
Identification of CNT species populations in TGA peaks.
Mizen, J.; Bulmer, J.; Gspann, T.; Kaniyoor, A.; Elliott, J.
2019, Juli 22. International Conference on the Science and Application of Nanotubes and Low-dimensional Materials (NT 2019), Würzburg, Deutschland, 21.–26. Juli 2019
Sulfur‐source independent production of predominantly single‐wall carbon nanotube fibres.
Kaniyoor, A.; Bulmer, J.; Gspann, T.; Mizen, J.; Ryley, J.; Terrones, J.; Windle, A.; Elliott, J.
2019, Juli 21. International Conference on the Science and Application of Nanotubes and Low-dimensional Materials (NT 2019), Würzburg, Deutschland, 21.–26. Juli 2019
Enhancement of CNT Textiles through Bundle Alignment and Catalyst Sweating by Photonic Post‐Processing.
Gspann, T.; Bulmer, J.; Stallard, J.; Kaniyoor, A.; Mizen, J.; Elliott, J.
2019, Juli 21. International Conference on the Science and Application of Nanotubes and Low-dimensional Materials (NT 2019), Würzburg, Deutschland, 21.–26. Juli 2019
The Effects of Morphology on Property Scaling in Macroscopic Assemblies of Carbon Nanotube Fibres.
Kaniyoor, A.; Gspann, T.; Bulmer, J.; Terrones, J.; Windle, A.; Elliott, J.
2017, Juni 28. International Conference on the Science and Application of Nanotubes and Low-dimensional Materials (NT 2017), Belo Horizonte, Brasilien, 25.–30. Juni 2017
Probing Crystallinity of Photonic-Sorted CNT Textiles with Extreme Magnetic Fields and Raman Spectroscopy.
Bulmer, J.; Gspann, T.; Orozco, F.; Sparkes, M.; Koerner, H.; Di Bernardo, A.; Niemiec, A.; Lekawa-Raus, A.; Rickel, D.; Balakirev, F.; Robinson, J.; Koziol, K.; O’Neill, W.; Elliott, J.
2017, Juni 28. International Conference on the Science and Application of Nanotubes and Low-dimensional Materials (NT 2017), Belo Horizonte, Brasilien, 25.–30. Juni 2017
High Ampacity of CVD-spun Carbon Nanotube Yarns and their Failure Mechanisms.
Terrones, J.; Gspann, T.; Kaniyoor, A.; Elliott, J.
2017, Juni 28. International Conference on the Science and Application of Nanotubes and Low-dimensional Materials (NT 2017), Belo Horizonte, Brasilien, 25.–30. Juni 2017
Tensile Strength of CNT Fibres: Characteristic Length, Stress Transfer and other Impact Factors.
Gspann, T.; Montinaro, N.; Windle, A.
2014, Juni 2. International Conference on the Science and Application of Nanotubes and Low-dimensional Materials (NT 2014), Los Angeles, CA, USA, 2.–6. Juni 2014
Optimisation of Iron Delivery in Floating-catalyst CVD Nanotube Yarn Synthesis.
Terrones, J.; Gspann, T.; Smail, F.; Windle, A.
2012, Juni 27. International Conference on the Science and Application of Nanotubes and Low-dimensional Materials (NT 2012), Brisbane, Australien, 25.–28. Juni 2012
Measurement of mass variations of fine CNT yarns due to particle adhesion.
Baron Aznar, C.; Gspann, T.; Windle, A.
2012, Juni 27. International Conference on the Science and Application of Nanotubes and Low-dimensional Materials (NT 2012), Brisbane, Australien, 25.–28. Juni 2012
CNT cluster defects in directly spun CNT fibres.
Gspann, T.; Windle, A.
2012, April. ChemOnTubes (2012), Arcachon, Frankreich, 1.–5. April 2012
pH Sensing Device Based On A Semiconducting SWCNT Network.
Gspann, T.; Gengenbach, U.; Jagiella, M.; Bretthauer, G.
2011, Juni. International Conference on the Science and Application of Nanotubes and Low-dimensional Materials (NT 2011), Cambridge, Vereinigtes Königreich, 11.–16. Juni 2011
Fabrication Process for a Sensing Device based on a Semiconducting CNT Network.
Gspann, T.; Gengenbach, U.; Hanko, M.; Jagiella, M.; Bretthauer, G.
2011, Januar. Jahreskongress Innovationsallianz Carbon Nanotubes (Inno.CNT 2011), Ettlingen, Deutschland, 25.–27. Januar 2011
New characteristics of carbon nanotube networks in electrolytes.
Gspann, T.; Gengenbach, U.; Hanko, M.; Jagiella, M.; Bretthauer, G.
2010. 11th Internat.Conf.on the Science and Application of Nanotubes (NT10), Montreal, CDN, June 27 - July 2, 2010, International Conference on the Science and Application of Nanotubes and Low-dimensional Materials (NT 2010), Montreal, Kanada, 27. Juni–2. Juli 2010
Carbon nanotube networks in liquid gated devices.
Gspann, T.; Gengenbach, U.; Jagiella, M.; Bretthauer, G.
2010. Internat.Meeting on the Chemistry of Nanotubes and Graphene (ChemOnTubes), Arcachon, F, April 11-15, 2010, ChemOnTubes (2010), Arcachon, Frankreich, 11.–15. April 2010
Sonstiges
Measurement device for determining concentration of hydrogen ion in measuring liquid [Patent].
Gspann, T.; Bretthauer, G.; Gengenbach, U.; Hanko, M.; Jagiella, M.
2017
Carbon nanotube material, method for production and treatment of the same [Patent].
Bulmer, J.; Orozco, F.; Gspann, T.; Sparkes, M.; Koziol, K.; Elliott, J.; O’Neill, B.
2017