ROBSON SOARES COSTA
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Tese IPEN-doc 30740 Estudo bibliomĆ©trico e de ontologia2024 - COSTA, ROBSON S.Esta pesquisa propƵe um procedimento estruturado para descrever panoramas nas Ć”reas de nanocompĆ³sitos polimĆ©ricos de argila, grafeno, nanocelulose e energia nuclear, utilizando a base de dados da ferramenta "Web of Science". MĆ©todos bibliomĆ©tricos sĆ£o empregados para analisar a produĆ§Ć£o, colaboraĆ§Ć£o e associaĆ§Ć£o temĆ”tica nessas Ć”reas, com suporte de ferramentas como Excel, ProtĆ©gĆ©, RStudio e VOSviewer para visualizar suas caracterĆsticas no panorama. O referencial teĆ³rico contextualiza a produĆ§Ć£o cientĆfica e o uso de indicadores bibliomĆ©tricos nessas Ć”reas, impulsionando esta pesquisa devido Ć escassez de estudos bibliomĆ©tricos nelas. Foi analisado bases de dados extensas com mais de 2000 produƧƵes cientĆficas em cada Ć”rea, fornecendo uma visĆ£o desses campos. Cada Ć”rea Ć© apresentada com suas caracterĆsticas distintas, revelando modos de produĆ§Ć£o disciplinares que vĆ£o desde os autores atĆ© os periĆ³dicos cientĆficos, tanto no aspecto institucional quanto nas relaƧƵes entre paĆses. AlĆ©m disso, sĆ£o construĆdas as ontologias dos campos analisados. A anĆ”lise da produĆ§Ć£o cientĆfica revela uma ampla participaĆ§Ć£o de autores de universidades pĆŗblicas em diversos paĆses, indicando caminhos de desenvolvimento prĆ³prios para as Ć”reas estudadas. Os resultados evidenciam crescimento e novos desenvolvimentos significativos nessas Ć”reas de estudo.Artigo IPEN-doc 28665 Development of sustainable food packaging material based on biodegradable polymer reinforced with cellulose nanocrystals2022 - ANDRADE, MARCIO S.; ISHIKAWA, OTAVIO H.; COSTA, ROBSON S.; SEIXAS, MARCUS V.S.; RODRIGUES, RITA C.L.B.; MOURA, ESPERIDIANA A.B.The increased environmental impact and sustainability issues related to conventional food packaging have gained attention and led to a global concern. The massive consumption of conventional food packaging has increased disposal of non-eco-friendly packaging waste, severely damaging the environment. The replacement by sustainable packaging is an important alternative to reduce the enormous volume of plastic waste. In this work, bionanocomposite films composed of PBAT/PLA blend and cellulose nanocrystals (CNCs) extracted from agro-waste were investigated. Characterization of CNCs confirmed that nanocrystals were obtained. Bionanocomposite films presented better hydrophobic character and thermal stability than the blend film. In addition, the tensile strength, elongation at break, and Young's modulus was around 52%, 29%, and 118%, respectively, higher than blend films. These mechanical values were comparable to values of commercial plastic materials that are extensively used in food packaging. Thus, the prepared bionanocomposite films might be an interesting alternative to produce sustainable food packaging materials.