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A word cloud is a visual representation of the most frequently used words in a text or a set of texts. The words appear in different sizes, with the size of each word being proportional to its frequency of occurrence in the text. The more frequently a word is used, the larger it appears in the word cloud. This technique allows for a quick visualization of the most important themes and concepts in a text.
In the context of this page, the word cloud was generated from the publications of the author {}. The words in this cloud come from the titles, abstracts, and keywords of the author's articles and research papers. By analyzing this word cloud, you can get an overview of the most recurring and significant topics and research areas in the author's work.
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Gancheva, T., Li, Y., Pilon, D., Gauthier, M., Akbarzadeh, A., & Favis, B. D. (2022). Post-extrusion process for the robust preparation of highly uniform multiphase polymeric 3D printing filaments. Polymer Engineering and Science, 62(1), 66-74. External link
Gazil, O., Gancheva, T., Bilodeau-Calame, M., Favis, B. D., & Virgilio, N. (2020). Controlling the distribution of nanoparticles in hydrogels via interfacial synthesis. Nanoscale Advances, 2(11), 5263-5270. External link
Gancheva, T., & Virgilio, N. (2019, March). Tailored macroporous hydrogel-nanoparticle monoliths for continuous flow catalysis [Presentation]. In Polytechnique/McGill Chemical Engineering Research Day, Montréal, Québec. Unavailable
Gancheva, T., & Virgilio, N. (2019). Tailored macroporous hydrogel-nanoparticle nanocomposites for monolithic flow-through catalytic reactors. Reaction Chemistry & Engineering, 4(5), 806-811. External link
Gancheva, T., & Virgilio, N. (2019, May). Tailored macroporous hydrogels embedded with catalytic nanoparticles as continuous flow-through microreactors [Poster]. Frontiers in Polymer Science, Budapest, Hungary. Unavailable
Gancheva, T., Gazil, O., Drevelle, O., Liberelle, B., Sarazin, P., Faucheux, N., & Virgilio, N. (2018, May). Caractérisation des NPs dans des matrices polymères et hydrogels [Presentation]. In 5e Atelier du GDRI Nanomatériaux Multifonctionnels Contrôlés, Port Argelès, France. Unavailable
Gancheva, T., & Virgilio, N. (2018). Tailored Macroporous Hydrogels with Nanoparticles Display Enhanced and Tunable Catalytic Activity. ACS Applied Materials and Interfaces, 10(25), 21073-21078. External link
Gancheva, T., & Virgilio, N. (2016). Enhancing and tuning the response of environmentally sensitive hydrogels with embedded and interconnected pore networks. Macromolecules, 49(16), 5866-5876. External link
Gancheva, T., & Virgilio, N. (2016, October). Porous environmentally sensitive hydrogels with tunable and enhanced response properties [Presentation]. In 66th Canadian Chemical Engineering Conference, Québec, Québec. Unavailable
Gazil, O., Gancheva, T., & Virgilio, N. (2016, October). Towards gold nanoparticles film growth on microstructured porous hydrogel surfaces [Presentation]. In 66th Canadian Chemical Engineering Conference, Québec, Québec. Unavailable
Gazil, O., Gancheva, T., & Virgilio, N. (2015, October). Cocontinuous hydrogel/organogel hybrid materials prepared with cocontinuous polymer blends [Presentation]. In 65th Canadian Chemical Engineering Conference, Calgary, Alberta. Unavailable
Gancheva, T., & Virgilio, N. (2014, October). A novel method to prepare stimuli-sensitive porous hydrogels using cocontinuous polymer blends [Presentation]. In 64th Canadian Chemical Engineering Conference, Niagara Falls, Canada. Unavailable
Huang, Y., Gancheva, T., Favis, B. D., Abidli, A., Wang, J., & Park, C. B. (2021). Hydrophobic Porous Polypropylene with Hierarchical Structures for Ultrafast and Highly Selective Oil/Water Separation. ACS Applied Materials & Interfaces, 13(14), 16859-16868. External link
Kabbara, M., Gancheva, T., Gazil, O., & Virgilio, N. (2016). Preparation of Porous Organogels Using Water Soluble Polymer Templates. Macromolecular Chemistry and Physics, 217(18), 2081-2088. External link
Kabbara, M., Gazil, O., Gancheva, T., & Virgilio, N. (2015, October). Tunable microporous organogels prepared with cocontinuous polymer blends [Presentation]. In 65th Canadian Chemical Engineering Conference, Calgary, Alberta. Unavailable
Li, Y., Gancheva, T., Estakhrianhaghighi, E., Favis, B. D., & Akbarzadeh, A. (2023, May). Tough 3D printed biopolymeric cellular beams [Abstract]. Canadian Society for Mechanical Engineering (CSME) / Computational Fluid Dynamics Society of Canada (CFD Canada). International congress, Sherbrooke, Qc, Canada (1 page). Published in Progress in Canadian Mechanical Engineering, 6. External link
Li, Y., Gancheva, T., Estakhrianhaghighi, E., Favis, B. D., & Akbarzadeh, A. (2023). Material extrusion of quaternary co-continuous biopolymers: A strategy for realizing lightweight cellular solids with high impact toughness. Additive Manufacturing, 77, 103805 (15 pages). External link
Sangroniz, L., Gancheva, T., Favis, B. D., Muller, A. J., & Santamaria, A. (2021). Rheology of complex biobased quaternary blends: Poly(lactic acid) poly(ethylene oxide) /poly(ether-b-amide)/poly(amide 11). Journal of Rheology, 65(3), 437-451. External link