Publikace | Ft.Tul.cz

2021

1. Jirkovec R., Kalous T., Chvojka J., 2021. The modification of the wetting of polycaprolactone nanofibre layers via alternating current spinning. Materials & Design. DOI: https://doi.org/10.1016/j.matdes.2021.110096
2. Jirkovec R., Samkova A., Kalous T., Chaloupek J., Chvojka J., 2021. Preparation of a Hydrogel Nanofiber Wound Dressing. Nanomaterials. DOI: https://doi.org/10.3390/nano11092178
3. Kalous T., Holec P., Erben J., Bilek M., Baťka O., Pokorný P., Chaloupek J., Chvojka J., 2021. The Optimization of Alternating Current Electrospun PA 6 Solutions Using a Visual Analysis System. Polymers. DOI: https://doi.org/10.3390/polym13132098
4. Jirkovec R., Erben J., Sajdl P., Chaloupek J., Chvojka J., 2021. The effect of material and process parameters on the surface energy of polycaprolactone fibre layers. Materials & Design. DOI: https://doi.org/10.1016/j.matdes.2021.109748
5. Jirkovec R., Holec P., Hauzerová S., Samkova A., Kalous T., Chvojka J., 2021. Preparation of a Composite Scaffold from Polycaprolactone and Hydroxyapatite Particles by Means of Alternating Current Electrospinning. ACS Omega. DOI: 10.1021/acsomega.1c00644.
6. Rosendorf J., Klíčová M., Cervenkova L., Horakova J., Klapstova A., Hosek P., Palek R., Sevcik J., Polak R., Treska V., Chvojka J., LiskaV., 2021. Reinforcement of Colonic Anastomosis with Improved Ultrafine Nanofibrous Patch: Experiment on Pig. Biomedicines. DOI: 10.3390/biomedicines9020102

2020

1. Kalous T., Holec P., Jirkovec R.,Lukas D., Chvojka J., 2020. Improved spinnability of PA 6 solutions using AC electrospinning. Materials Letters. DOI: https://doi.org/10.1016/j.matlet.2020.128761
2. Jirsak J., Pokorny P., Holec P., Dedicoa S., 2020. A Molecular-Level Picture of Electrospinning. Water. Dostupné z: https://doi.org/10.3390/w12092577
3. Sivan M., Madheswaran D., Asadian M., Cools P., Thukkaram M., Van Der Voort P., Morent R., De Geyter N., Lukas D., 2020. Plasma treatment effects on bulk properties of polycaprolactone nanofibrous mats fabricated by uncommon AC electrospinning: A comparative study. Surface & Coatings Technology. Dostupné z: doi: https:https://doi.org/10.1016/j.surfcoat.2020.126203
4. Klicova M., Klapstova A., Chvojka J., Koprivova B., Jencova V. a Horakova J., 2020. Novel double-layered planar scaffold combining electrospun PCL fibers and PVA hydrogels with high shape integrity and water stability. Materials Letters [online]. 263, 127281. ISSN 0167-577X. Dostupné z: doi:10.1016/j.matlet.2019.127281
5. Rosendorf J., Horakova J., Klicova M., Palek R., Cervenkova L., Kural T., Hosek P., Kriz T., Tegl V., Moulisova V., Tonar Z., Treska V., Lukas D. a Liska V., 2020. Experimental fortification of intestinal anastomoses with nanofibrous materials in a large animal model. Scientific Reports [online]. 10(1), 1–12 [vid. 2020-01-30]. ISSN 2045-2322. Dostupné z: doi:10.1038/s41598-020-58113-4
6. Hakova M., Chocholousova Havlikova L., Solich P., Svec F., Chvojka J., Erben J., Satinsky D. (2020) Polycaprolactone nanofibers functionalized with dopamine coating: A new sorbent for on-line solid phase extraction of bisphenols, betablockers, nonsteroidal drugs, and phenolic acids in chromatography. Microchimica Acta, 186, DOI: 10.1007/s00604-019-3846-2
7. Sramkova H. I., Horstkotte B., Erben J., Chvojka J., Svec F., Solich P., Satinsky D. (2020) 3D-printed magnetic stirring cages for semi-dispersive extraction of bisphenols from water using polymer micro- and nanofibers. Analytical Chemistry, DOI: 10.1021/acs.analchem.9b05455
8. Swar S., Makova V., Horakova J., Kejzlar P., Parma P., Stibor I. A comparative study between chemically modified and copper nanoparticle immobilized Nylon 6 films to explore their efficiency in fighting against two types of pathogenic bakteria.European Polymer Journal 2020, 122: 109392. DOI: 10.1016/j.eurpolymj.2019.109392
9. Tomasek P., Tonar Z., Grajciarova M., Kural T., Turek D., Horakova J., Palek R., Eberlova L., Kralickova M., Liska V. Histological mapping of porcine carotid arteries – An animal model for the assessment of the artificial conduits suitable for coronary bypass rafting in humus. Anals of Anatomy 2020, 228:151343. DOI: 10.1016/j.aanat.2019.151434.

2019

1. Knizek R., Karhankova D., Bajzik V., Jirsak O., Lamination on Nanofibre Layers for Clothing Applications In: Fibres and Texties in Eastern Europe 27, 1, pp.16-21
2. Tiyek I., Gunduz A., Yalcinkaya F. a Chaloupek J.: Influence of Electrospinning Parameters on the Hydrophilicity of Electrospun Polycaprolactone Nanofibres, Journal of  Nanoscience and Nanotechnology Vol. 19, 7251–7260, 2019
3. Valtera J., Kalous T., Pokorny, P., Batka O., Bilek M., Chvojka J., Mikes P., Kostakova Kuzelova E. Z. P., Ornstova J., Beran J., Stanischevsky A. a Lukas D. Fabrication of dual-functional composite yarns with a nanofibrous envelope using high throughput AC needleless and collectorless electrospinning. Scientific Reports, 2019, DOI: 10.1038/s41598-019-38557-z
4. Jirkovec R., Kalous T., Brayer WA., Stanischevsky A., Chvojka J. Production of gelatin nanofibrous layers via alternating current electrospinning, Materials Letters, (2019), DOI: 10.1016/j.matlet.2019.05.132
5. Hatch K.M., Hlavata J., Paulett K., Liavitskaya T., Vyazovkin S., Stanishevsky A.V., 2019. Nanocrystalline Cellulose/Polyvinylpyrrolidone Fibrous Composites Prepared by Electrospinning and Thermal Crosslinking. International Journal of Polymer Science, 7103936. ISSN 16879422. DOI: 10.1155/2019/7103936
6. Sramkova H. I., Rozas C. L., Horstkotte B., Hakova M., Erben J., Chvojka J., Svec F., Solich P., Garcia-Campana A., Satinsky D. (2019) Screening of extraction properties of nanofibers in a sequential injection analysis system using a 3D printed device. Talanta, 197, DOI: 10.1016/j.talanta.2019.01.050
7. Hakova M., Chocholousova Havlikova L., Svec F., Solich P., Erben J., Chvojka J., Satinsky D. (2019) Novel nanofibrous sorbents for the extraction and determination of resveratrol in wine. Talanta, 206, DOI: 10.1016/j.talanta.2019.120181
8. Klicova M., Horakova J., Klapstova A.., Volesky L., Liska V., Rosendorf J., 2019. Hydrophobic ultrafine hyaluronic acid nanofibers. Proceedings of the 5th World Congress on New Technologies (NewTech'19) Lisbon, Portugal – August, 2019 Paper No. ICNFA 151 DOI: 10.11159/icnfa19.151
9. Mikes P., Horakova J., Saman A., Vejsadova L., Topham P., Punyodom W., Dumklang M., Jencova V. Comparison and characterization of different polyester nano/micro fibres for use in tissue engineering applications. Journal of Industrial Textiles 2019, DOI: 10.1177/1528083719848155

2018

1. Hakova M., Chocholousova Havlikova L., Chvojka J., Erben J., Solich P., Svec F., Satinsky D. (2018) A comparison study of nanofiber, microfiber, and new composite nano/microfiber polymers used as sorbents for on-line solid phase extraction in chromatography system. Analytica Chimica Acta, 1023, 44 - 52, DOI: 10.1016/j.aca.2018.04.023
2. Pogorielov M., Hapchenko A., Deineka V., Rogulska L., Oleshko O., Vodsedalkova K., Berezkinova L., Vyslouzilova L., Klapstova  A., Erben J. (2018) In vitro degradation and in‐vivo toxicity of NanoMatrix3D® PCL and PLA nanofibrous scaffolds. Journal of Biomedical Materials Research – Part A
3. Hakova M., Raabova H., Havlikova L., Chvojka J., et al. Testing of nylon 6 nanofibers with different surface densities as sorbents for solid phase extraction and their selectivity comparison with commercial sorbent,  TALANTA   Volume: 181   Pages: 326-332  Published: MAY 1 2018
4. Rampichova M., Chvojka J., Jencova V., et al. The combination of nanofibrous and microfibrous materials for enhancement of cell infiltration and in vivo bone tissue formation, BIOMEDICAL MATERIALS   Volume: 13   Issue: 2     Article Number: 025004   Published: MAR 2018
5. Hakova M., Havlikova Chocholousova L., Chvojka J., et al. An on-line coupling of nanofibrous extraction with column-switching high performance liquid chromatography - A case study on the determination of bisphenol A in environmental water samples, TALANTA Volume: 178 Pages: 141-146 Published: FEB 1 2018
6. Matouskova L., Ackermann M., Horakova J., Capek L., Henys P. How does the surface treatment change the cytocompatibility of implants made by Selective Laser Melting? Expert Review of Medical Devices 2018, 15: 313-21. DOI: 10.1080/17434440.2018.1456335
7. Jirik M., Bartos M., Tomasek P., Maleckova A., Kural T., Horakova J., Lukas D., Suchy T., Kochova P., Hubalek Kalbacova M., Kralickova M., Tonar Z. Generating standardized image data for testing and calibrating quantification of volumes, surfaces, lengths and object counts in fibrous and porous materials using X-ray microtomography. Microscopy Research and Technique 2018. DOI: 10.1002/jemt.23011
8. Swar S., Zajicova V., Mullerova J., Subrtova P., Horakova J., Dolensky B., Rezanka M., Stibor I. Effective poly(ethylene glycol) methyl ether grafting technique onto Nylon 6 surface to achieve resistance against pathogenic bacteria Staphylococcus aureus and Pseudomonas aeruginosa. Journal of Materials Science 2018, 53 (20): 14104-20. DOI: 10.1007/s10853-018-2636-2
9. Horakova J., Mikes P., Lukas D., Saman A., Jencova V., Klapstova A., Svarcova T., Ackermann M., Novotny V., Kalab M., Lonsky V., Bartos M., Rampichova M, Litvinec A., Kubikova T., Tomasek P., Tonar Z. Electrospun vascular grafts fabricated from poly(L-lactide-co-?-caprolactone) used as a bypass for the rabbit carotid artery. Biomedical Materials 2018, 13. DOI: 10.1088/1748-605X/aade9d
10. Horakova J., Mikes P., Saman A., Svarcova T., Jencova V., Suchy T., Heczkova B., Jakubkova S., Jirousova J., Prochazkova R. Comprehensive assessment of electrospun scaffolds hemocompatibility. Materials Science and Engineering: C 2018, 82: 330-5. DOI: 10.1016/j.msec.2017.05.011
11. Horakova J., Mikes P., Saman A., Jencova V., Klapstova A., Svarcova T., Ackermann M., Novotny V., Suchy T., Lukas D. The effect of ethylene oxide sterilization on electrospun vascular grafts made from biodegradable polyesters. Materials Science and Engineering: C 2018, 92: 132-42. DOI: 10.1016/j.msec.2018.06.041

2017

1. Yalcin Enis I., Horakova J., Gok Sadikoglu T., Novak O., Lukas D. Mechanical investigation of bilayer vascular grafts electrospun from aliphatic polyesters, Polymers for Advanced Technologies 28(2), 2017, 201-13.
2. Yalcin Enis I., Horakova J., Gok Sadikoglu T., Lukas D. The post-morphological analysis of electrospun vascular grafts following mechanical testing. Journal of Polymer Engineering 2017, 38(6): 525-35. DOI: 10.1515/polyeng-2017-0157
3. Horakova J., Mikes P., Saman A., Svarcova T., Jencova V., Suchy T., Heczkova B., Jakubkova S., Jirousova J., Prochazkova R. Comprehensive assessment of electrospun scaffolds hemocompatibility, Materials Science and Engineering: C, 2017
4. Vyslouzilova L., Buzgo M., Pokorny P., Chvojka, J., Mickova A., Rampichova, M., Kula J., Pejchar K., Bilek M., Lukas D.: Needleless coaxial electrospinning: A novel approach to mass production of coaxial nanofibers, International Journal of Pharmaceutics 516 (1-2), 2017, 293-300
5. Kuzelova Kostakova E., Meszaros L., Maskova G., Blazkova L., Turcsan T., Lukas D., Crystallinity of Electrospun and Centrifugal Spun Polycaprolactone Fibers A Comparative Study, Journal of Nanomaterials, 2017

2016

1. Erben J., Jencova V., Chvojka J., Blazkova L., Strnadova K., Modrak M., Kuzelova Kostakova E.: The combination of meltblown technology and electrospinning – The influence of the ratio of micro and nanofibers on cell viability, Materials Letters, 173, 2016, 153-157
2. Filova E., Jakubcova B., Danilova I., Kuzelova Kostakova E., Jarosikova T., Chernyavskiy O., Hejda J., Handl M., Beznoska J., Necas, A., Rosina E., Amler E.: Polycaprolactone Foam Funclionalized With Chitosan Microparticles – a Suitable Scaffold for Chartilage Regeneration, Physiological Research 65(1), 2016, 121-31
3. Lawson C., Stanishevsky A., Sivan M., Pokorny P., Lukas D., Rapid fabrication of poly(epsilon-caprolactone) nanofibers using needleless alternating current elektrospinning, Journal of Applied Polymer Science 133 (13), 2016
4. Simko M., Lukas D. Mathematical modeling of a whipping instability of an electrically charged liquid jet, Applied Mathematical Modelling 40 (21-22), 2016, 9565-9583
5. Stanishevsky A., Brayer A., Pokorny P., Kalous T., Lukas D. Nanofibrous aluminia structures fabricated using high-yield alternating current electrospinning, Ceramics International 42 (15), 2016, 17154-17161
6. Yalcin I., Horakova J., Mikes P., Gok Sadikoglu T., Domin R., Lukas D. Design of polycaprolactone vascular grafts, Journal of Industrial Textiles 45(5), 2016, 813-33.
7. Efremova, OA., Brylev KA., Vorotnikov YA., Vejsadova L., Shestopalov MA., Chimonides GF., Mikes P., Topham PD., Kim SJ., Kitamura N., Sutherland AJ., Photoluminescent materials based on PMMA and a highly-emissive octahedral molybdenum metal cluster complex, Journal of Materials Chemistry C, 4(3), 2016, 497-503

2015

1. Erben J., Pilarova K., Sanetrnik F., Chvojka J., Jencova V., Blazkova L., Havlicek J., Novak O., Mikes P., Prosecka E., Lukas D., Kuzelova Kostakova E. The combination of meltblown and electrospinning for bone tissue engineering, Materials Letters, 143, 2015, 172-176 (WoS)
2. Stanishevsky A., Wetuski J., Walock M., Stanishevskaya I., Yockell-Lelievre H., Kostakova E., Lukas D. Ribbon-like and spontaneously folded structures of tungsten oxide nanofibers fabricated via electrospinning, RSC Advances, 5(85), 2015, 69534-42

2014

1. Pokorny P., Kostakova E., Sanetrnik F., Mikes P., Chvojka J., Kalous T., Bilek M., Pejchar K., Valtera J., Lukas D. Effective AC needleless and colector less electrospinning for yarn production, Physical Chemistry Chemical Physics, 16(48), 2014, 26816-26822 DOI: 10.1039/c4cp04346d (WoS)
2. Kostakova E., Seps M., Pokorny P., Lukas D. Study of polycaprolactone wet electrospinning process, Express Polymer Letters 8(8), 2014,554-64 (WoS)
3. Kula J., Linka A., Tunak M., Lukas D. Image analysis of jet structure on electrospinning from free liquid surface, Applied Physics Letters, 104(24), 2014 (WoS)
4. Simko M., Erhart J., Lukas D. A mathematical model of external electrostatic field of a special collector for electrospinning of nanofibers, Journal of Electrostatics, 72(2), 2014, 161-165 (WoS)
5. Krchova S., Dzan L., Lukas D., Mikes P., Jencova V., Horakova J., Pilarova K. Nanovlákna v hojení kožních ran, Čes. Dematovenerol., 4(4), 2014, 234-240
6. Petru M., Novak O., Lepsik P. Analysis And Measurement of the Charge Intensity of the Selected Electrospinning Electrodes, Conference 51st International Scientific Conference on Experimental Stress analysis (EAN 2013) Experimental Stress Analysis 51, Book Series: Applied Mechanics and Materials, 486, 2014, 217-222
7. Petru M., Novak O., Sevcik L., Lepsik P. Numerical and Experimental Research of Design Optimization of Bathe for te production of Nanofibers by the Electrospinning, Conference 51st International Scientific Conference on Experimental Stress analysis (EAN 2013) Experimental Stress Analysis 51, Book Series: Applied Mechanics and Materials, 486, 2014, 157-162
8. Kocis L., Pokorny P., Lukas D., Mikes P., Chvojka J., Kostakova E.,  Beran J., Bilek M., Valtera J.,Amler E., Buzgo M., Mickova A. A method for producing polymer nanofibers spinning solution or melt of polymer in electric field and the formation of linear polymer nanofibers formed in this manner - Způsob výroby polymerních nanovláken zvlákňováním roztoku nebo taveniny polymeru v elektrickém poli a lineární útvar z polymerníchnanovláken vytvořený tímto způsobem, patent č. 304137, číslo přihlášky 2012-907, uděleno 13.11.2013, majitel Technická univerzita v Liberci, Liberec 1, CZ a EGU - HV Laboratory a.s., Praha 9 - Běchovice, CZ, patentová kancelář Ing. Dobroslav Musil, patentová kancelář, Ing. Dobroslav Musil, Cejl 38, Brno, 60200, Publication info: WO 2014 094694 (A1) 2014-06-26 (EspaceNet)
9. Vysloužilová L., Valtera J., Pejchar K., Beran J., Lukáš D., Design of coaxial needleless electrospinning electrode with respect to the distribution of electric field, Applied Mechanics and Materials Vol. 693 (2014) pp 394-399, ISSN: 1660-9336, doi:10.4028