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The SuperNano is packed in the laboratories of the IQ-UFRJ's Xistoquímica Pole. There is currently an area of approximately 100 m2 with benches, two fume hoods, and some essential equipment such as greenhouses, centrifuges, and heating plates, shared with one other professor It has a dynamic light scattering equipment, a UV-Vis spectrophotometer, optical microscopes, and an atomic force microscope for materials characterization.
The SuperNano is packed in the laboratories of the IQ-UFRJ's Xistoquímica Pole. There is currently an area of approximately 100 m2 with benches, two fume hoods, and some essential equipment such as greenhouses, centrifuges, and heating plates, shared with one other professor It has a dynamic light scattering equipment, a UV-Vis spectrophotometer, optical microscopes, and an atomic force microscope for materials characterization.
The SuperNano is packed in the laboratories of the IQ-UFRJ's Xistoquímica Pole. There is currently an area of approximately 100 m2 with benches, two fume hoods, and some essential equipment such as greenhouses, centrifuges, and heating plates, shared with one other professor It has a dynamic light scattering equipment, a UV-Vis spectrophotometer, optical microscopes, and an atomic force microscope for materials characterization.
The SuperNano is packed in the laboratories of the IQ-UFRJ's Xistoquímica Pole. There is currently an area of approximately 100 m2 with benches, two fume hoods, and some essential equipment such as greenhouses, centrifuges, and heating plates, shared with one other professor It has a dynamic light scattering equipment, a UV-Vis spectrophotometer, optical microscopes, and an atomic force microscope for materials characterization.
Membros e Membras das Comissões Organizadoras e Científicas
Agatha Densy dos Santos Fransisco
PhD student
Project: Application of polymers in advanced oil recovery
Kelly Cristina Bastos Maia
PhD student
Project: Iron magnetic nanoparticles as surfactant nanocarriers for Advanced Petroleum Recovery
Walner Costa Silva
Doctoral Student
Project: Development of nanostructured two-dimensional materials and study of their optoelectronic, photovoltaic and photocatalytic applications
MATEUS PERISSÉ MOREIRA
Master's Student
Project: Automation of flow reactors for synthesis of nanomaterials
Arthur Coimbra Leite
Project: Use of iron oxide nanoparticles as antifouling agents
Arthur Coimbra Leite
Project: Use of iron oxide nanoparticles as antifouling agents
Arley Sena do Nascimento
Project: Printed circuits based on two-dimensional materials for flexible electronics
Julia Correa
Project: Development of Nanostructured Plasmonic Sensors and their Applications in the Oil and Gas Industry
Hugo de Lacerda Coutinho Neto
Project: Large-scale electrochemical exfoliation of graphene
Leon Dies Starke
Project: Synthesis of molybdenum disulfide and graphene heterostructures for application in electrocatalysis
Leon Dies Starke
Project: Synthesis of molybdenum disulfide and graphene heterostructures for application in electrocatalysis
Ronald Paiva Souza
Project: Development of graphene nanocomposites and metallic nanoparticles for photovoltaic devices
Mariana Araujo Assunção
Project: MoS2-based electrical sensors
Membros e Membras do Comitê Científico
Ana Lúcia de Lima - IQ/UFRJ
Bruno Campos Janegitz - UFSCAR
Camila Marchetti Maroneze - Mackenzie
Cristiane Luisa Jost - UFSC
Eliana Weber de Menezes - UFRGS
Giordano Poneti - IQ/UFRJ
Marcus Vinicius de Oliveira Moutinho - Xerém/UFRJ
Paulo Euzebio - UFPE
Sergio Machado de Paula - IQ/UFRJ
Sergio Humberto Domingues - Mackenzie
Tiago Albertini Balbino - PENT/COPPE
Fernando Menegatti de Melo - IQ/USP
Wilson Akira Ameku- Fiocruz
Collaborators
Apoiadores
