Publications

Journal covers

• Journal of Experimental Biology
• Spectroscopy
• Advanced Materials
• Nature Materials
• Polymer
• Soft Matter
• Interface

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Publications acknowledging FLIPT

2018

• A I Koponen and S Haavisto, (2018) 'Analysis of industry-related flows by optical coherence tomography - a review'.
• C Holland, N Hawkins, M Frydrych, P Laity, D Porter, F Vollrath, (2018) 'Differential scanning calorimetry of native silk feedstock'.
• A Koeppel, P Laity and C Holland, (2018) 'Extensional flow behaviour and spinnability of native silk'.
• K G Malmos, B Gouilleux, P Sønderskov, T Andersen, J V Frambøl and T Vosegaard, (2018) 'Quantification of Ammonium Phosphatide emulsifiers in chocolate using 31P NMR spectroscopy'.
• J Sparkes and C Holland (2018) 'The energy requirements for flow‐induced solidification of silk'.
• P Laity, E Baldwin and C Holland, (2018) 'Changes in silk feedstock rheology during cocoon construction: the role of calcium and potassium ions', Macromolecular Bioscience.
• J Sommer and S Donets (2018) 'Molecular dynamics simulations of strain-induced phase transition of poly(ethylene oxide) in water'.
• T Vosegaard, (2018) 'iSpec: a web-based activity for spectroscopy teaching'.

2017

• M Kataja, A I Koponen, S Haavisto and J Salmela, (2017) 'Characterisation of micro-fibrillated cellulose fibre suspension flow using multi scale velocity profile measurements', open access paper.
• J Sparkes and C Holland (2017) 'Analysis of the pressure requirements for silk spinning reveals a pultrusion dominated process', Nature Communications, open access data, short summary.
• T Vosegaard, (2017) 'Fast simulations of multidimensional NMR spectra of proteins and peptides', open access paper.

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Relevant prior publications

2016

• M Boulet-Audet, C Holland, T Gheysens and F Vollrath, (2016) 'Dry-spun silk produces native-like fibroin solutions', Biomacromolecules.
• P R Laity and C Holland, (2016) 'Native silk feedstock as a model biopolymer: a rheological perspective', Biomacromolecules.

2015

• P Laity, S Gilks and C Holland, (2015) 'Rheological behaviour of native silk feedstocks', Polymer, 67, 28-39.
• N J Warren, O O Mykhaylyk, A J Ryan, M Williams, T Doussineau, P Dugourd, R Antoine, G Portale and S P Armes, (2015) 'Testing the vesicular morphology to destruction: birth and death of diblock copolymer vesicles prepared via polymerisation-induced self-assembly', Journal of the American Chemical Society, 137, 1929-1937.
• N Kasoju, I C Dicko, N Hawkins and F Vollrath (2015) 'Differential scanning fluorimetry illuminates silk feedstock stability and processability', Softmatter 2(1):255-62.
• S Haavisto, J Salmela and A Koponen, (2015) 'Accurate velocity measurements of boundary layer flows using doppler optical coherence tomography', 56: 96.
• H F Christoffersen, S K Hansen, B S Vad, E H Nielsen, J T Nielsen, T Vosegaard, T Skrydstrup and D E Otzen, (2015) 'The natural, peptaibolic peptide SPF-5506-A4 adopts a β-bend spiral structure, shows low hemolytic activity and targets membranes through formation of large pores', Biochimica et Biophysica Acta (BBA) - Proteins and Proteomics 1854, 882.

2014

• M Boulet-Audet, A E Terry, F Vollrath and C Holland (2014) 'Silk protein aggregation kinetics revealed by Rheo-IR', Acta Biomaterialia 10, 776-784.
• F Vollrath, N Hawkins, D Porter, C Holland and M Boulet-Audet, (2014) 'Differential scanning fluorimetry provides high throughput data on silk protein transitions' Scientific Reports 4, 5625.
• S Haavisto, A Koponen and J Salmela, (2014) 'New insight into rheology and flow properties of complex fluids with Doppler optical coherence tomography', Front. Chem. 2:27.
• C Lendel, M Bjerring, A Dubnovitsky, R T Kelly, A Filippov, O N Antzutkin, N C Nielsen and T Härd, (2014) 'A hexameric peptide barrel as building block of amyloid-β protofibrils', Angew. Chem. Intl. Ed. 53, 1.
• R Ferreira, H Garcia, A F Sousa, M Guerreiro, F J S Duarte, C S R Freire, M J Calhorda, A J D Silvestre, W Kunz, L P N Rebelo and C Silva Pereira, (2014) 'Unveiling the dual role of the cholinium hexanoate ionic liquid as solvent and catalyst in suberin depolymerisation', RSC Advances, 4(6): 2993-3002.
• R Ferreira, H Garcia, C Martins, A F Sousa, C S R Freire, A J D Silvestre, W Kunz, L P N Rebelo and C Silva Pereira, (2014) 'Ex-situ reconstitution of the plant biopolyester suberin as a film', Biomacromolecules 15, 1806-1813.
• M F Astudillo, G Thalwitz and F Vollrath, (2014) 'Life cycle assessment of Indian silk', Journal of Cleaner Production, 81: 158-167.
• T Saarinen, S Haavisto, A Sorvari, J Salmela and J Seppälä, (2014) 'The effect of wall depletion on the rheology of microfibrillated cellulose water suspensions by optical coherence tomography Cellulose', Springer, vol. 21, 3, ss. 1261 – 1275.
• A Sorvari, T Saarinen, S Haavisto, J Salmela, M Vuoriluoto and J Seppälä, (2014) 'Modifying the flocculation of microfibrillated cellulose suspensions by soluble polysaccharides under conditions unfavourable to adsorption', Carbohydrate Polymers, 106, 283-292.
• C-F Luo and J-U Sommer, (2014) 'Frozen topology: entanglements control nucleation and crystallisation in polymers', Physical Review Letters 112, 195702.

2013

• H Pohjanlehto, A McDonald and H Setälä, (2013) 'Lignin-xylaric acid-polyurethane based polymer network systems: preparation and characterisation', J. Appl. Polym. Sci. 131, 39714.

2012

• J P Fairclough, H Yu, O Kelly, A J Ryan, R L Sammler and M Radler, (2012) 'Interplay between gelation and phase separation in aqueous solutions of methylcellulose and hydroxypropylmethylcellulose', Langmuir, 28 (28), 10551-10557.
• S Arola, T Tammelin, H Setälä, A Tullila and M B Linder, (2012) 'Immobilisation−stabilisation of proteins on nanofibrillated cellulose derivatives and their bioactive film formation', Biomacromol. 13, 594-603.
• N V Kulminskaya, M Ø Pedersen, M Bjerring, J Underhaug, M Miller, N-U Frigaard, J T Nielsen and N C Nielsen, (2012) 'In situ solid-state NMR spectroscopy of protein in heterogeneous membranes: the baseplate antenna complex of chlorobaculum tepidum angew', Chem. Intl. Ed. 51, 6891.
• C Holland, J S Urbach and D L Blair, (2012) 'Direct visualisation of shear dependent silk fibrillogenesis', Soft Matter 8, 2590-2594.
• C Holland, F Vollrath, A J Ryan and O O Mykhaylyk, (2012) 'Silk and synthetic polymers: reconciling 100 degrees of separation', Advanced Materials 24, 105-109.

2011

• M Boulet-Audet, F Vollrath and C Holland, (2011) 'Rheo-attenuated total reflectance infrared spectroscopy: a new tool to study biopolymers', Physical Chemistry Chemical Physics 13, 3979-3984.
• M Petkovic, K R Seddon, L P N Rebelo and C Silva Pereira, (2011) 'Ionic liquids: a pathway to environmental acceptability', Chem Soc. Rev. 40 (3):1383-1403.

2010

• O O Mykhaylyk, (2010) 'Time-resolved polarised light imaging of sheared materials: application to polymer crystallisation', Soft Matter 6, 4430-40.
• R Tkachov, V Senkovskyy, H Komber, J-U Sommer and A Kiriy, (2010) 'Random catalyst walking along polymerised poly(3-hexylthiophene) chains in kumada catalyst-transfer polycondensation', Journal of the American Chemical Society 132, 7803.
• M Petkovic, J Ferguson, H Q N Gunaratne, R Ferreira, M C Leitão, K R Seddon, L P N Rebelo and C Silva Pereira, (2010) 'Novel biocompatible cholinium-based ionic liquids - toxicity and biodegradability', Green Chem. 12: 643-649.
• H Garcia, R Ferreira, M Petkovic, J Ferguson, H Q N Gunaratne, K R Seddon, L P N Rebelo and C Silva Pereira, (2010) 'Dissolution of cork biopolymers by biocompatible ionic liquids', Green Chem. 12:367-369.

2009

• J T Nielsen, M Bjerring, M D Jeppesen, R O Pedersen, J M Pedersen, K L Hein, T Vosegaard, T Skrydstrup, D E Otzen and N C Nielsen, (2009) 'Unique identification of supramolecular structures in amyloid fibrils by solid-state NMR spectroscopy angew', Chem. Int. Ed. 48, 2118.

2007

• C Holland, A E Terry, D Porter and F Vollrath, (2007) 'Natural and unnatural silks', Polymer 48, 3388-3392.

2006

• C A Holland, A E Terry, D Porter and F Vollrath, (2006) 'Comparing the rheology of native spider and silkworm spinning dope', Nature Materials 5, 870-874.