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This graph maps the connections between all the collaborators of {}'s publications listed on this page.
Each link represents a collaboration on the same publication. The thickness of the link represents the number of collaborations.
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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.
The word cloud is a useful tool for identifying trends and main themes in a corpus of texts, thus facilitating the understanding and analysis of content in a visual and intuitive way.
Cecchi, T., Gao, Z., & Santato, C. (2024). Flakes and Nanoparticles from Waste Ru-plated Fashion Items through Food Waste By-products. ChemPlusChem, 202400263 (13 pages). External link
Cecchi, T., Gao, Z., Clément, C., Matos-Peralta, Y., Girard, O., & Santato, C. (2023). Recovery of palladium from waste fashion items through food waste by-products. RSC Sustainability, 1(9), 2350-2357. Available
Cecchi, T., Gao, Z., Clément, C., Camus, A., Karim, A., Girard, O., & Santato, C. (2023). Recovery of gold from e-waste via food waste byproducts. Nanotechnology, 34(6), 065203 (8 pages). Available
Gao, Z., Niyonkuru, D., Yelon, A., & Santato, C. (2023). Effect of structure on semiconducting properties of a small molecule n-type organic semiconductor: Phenyl-C61-butyric acid methyl ester. Journal of Vacuum Science & Technology A: Vacuum, Surfaces and Films, 41(4), 043405 (6 pages). External link
Gao, Z. (2022). Charge Carrier Transport in Amorphous Glassy Organic Semiconductors [Ph.D. thesis, Polytechnique Montréal]. Available
Gao, Z., Reali, M., Yelon, A., & Santato, C. (2022). Dependence of charge carrier transport on molecular relaxations in glassy poly(3-hexylthiophene-2,5-diyl) (P3HT). Materials Advances, 3(21), 7815-7823. External link
Gao, Z., Yelon, A., & Santato, C. (2020). Charge Carrier Transport in a Polymeric Semiconductor: Poly(3-hexylthiophene-2,5-diyl) (P3HT). ECS Meeting Abstracts, MA2020-01(Z01 : ECS), 2890-2890. External link
Karimi Azari, R., Gao, Z., Carrière, A., & Santato, C. (2024). Exploring response time and synaptic plasticity in P3HT ion-gated transistors for neuromorphic computing: impact of P3HT molecular weight and film thickness. RSC Applied Interfaces, 9 pages. External link
Lan, T., Gao, Z., Barbosa, M. S., & Santato, C. (2020). Flexible Ion-Gated Transistors Making Use of Poly-3-hexylthiophene (P3HT): Effect of the Molecular Weight on the Effectiveness of Gating and Device Performance. Journal of Electronic Materials, 49(9), 5302-5307. External link
Matos‐Peralta, Y., Gao, Z., Mocerino, F., & Santato, C. (2024). Polyphenols on Carbon Paper Electrodes: A Fundamental Study for Sustainable Electrochemical Energy Storage. ACS Applied Energy Materials, -. External link
Matos-Peralta, Y., Gao, Z., Dar, A. A., & Santato, C. (2023). Exploiting Melanin-Metal Interactions for Emerging Technologies. In Gosset, G. (ed.), Melanins: Functions, Biotechnological Production, and Applications (pp. 111-125). External link
Matos-Peralta, Y., Reali, M., Camus, A., Niyonkuru, D., Hosseinsizadeh, M., Gao, Z., & Santato, C. (2023). Nature as the source of materials for more sustainable organic electronics. Material Matters (1), 18-22. External link
Niyonkuru, D., Camus, A., Reali, M., Gao, Z., Shadrack, D. M., Butyaev, O., Surtchev, M., & Santato, C. (2023). A nanoscale study of the structure and electrical response of Sepia eumelanin. Nanoscale Advances, 5(19), 5295-5300. External link