Ongoing Supervisions
Projects
Bioeconomia para Têxtil e Vestuário (BE@T)
PartnerIndustry National
Apoiada pelo Plano de Recuperação e Resiliência (PRR), a indústria têxtil nacional vai investir 138 milhões de euros na bioeconomia sustentável, procurando a mudança de paradigma para o setor e a criação de produtos de alto valor ...Engineering self-propelled cellulose-based Janus microrobots (Cell4Janus)
CoordinatorFundação para a Ciência e a Tecnologia
From Fossil To Forest (FF2F (Biocomposites))
PartnerIndustry National
This Innovation Pact is aimed at developing cellulose-based packaging and products to replace fossil-based plastics. In this context, it comprises the following six work packages: (1) high yield pulp and brown paper; (2) paper with increased mechanical strength; (3) paper with barrier properties; (4) biocomposites; (5) paper sensors for...Inovação na Fileira da Resina Natural para Reforço da Bioeconomia Nacional (RN21)
PartnerIndustry National
A transição para uma economia mais sustentável, oferece inúmeras oportunidades para revitalizar os setores mais tradicionais da economia portuguesa, onde destacamos a produção e transformação da resina natural.O Projeto Integrado RN21 – Ino...Pacto da Bioeconomia azul (BIOECOAZUL (Termoendurecíveis))
PartnerIndustry National
The world needs a new business model capable of economic growth decoupling raw materials from natural resources. Thus the Blue Bioeconomy Pact has embraced the challenge of reindustrialising Portuguese industries with the integration of blue biotechnology solutions in the value chains, enhancing the sustainable use of marine bio-resourc...Pacto da Bioeconomia azul (BIOECOAZUL (Termoplásticos a desenvolver))
PartnerIndustry National
The world needs a new business model capable of economic growth decoupling raw materials from natural resources. Thus the Blue Bioeconomy Pact has embraced the challenge of reindustrialising Portuguese industries with the integration of blue biotechnology solutions in the value chains, enhancing the sustainable use of marine bio-resourc...Pacto da Bioeconomia azul (BIOECOAZUL (Plásticos já existentes))
PartnerIndustry National
The world needs a new business model capable of economic growth decoupling raw materials from natural resources. Thus the Blue Bioeconomy Pact has embraced the challenge of reindustrialising Portuguese industries with the integration of blue biotechnology solutions in the value chains, enhancing the sustainable use of marine bio-resourc...FLUI - Sistemas de extrusão duplo paralelo de ácido polilático com injeção modular de compostos bioativos para a produção de filmes flexíveis mono e multi-camada biofuncionais para embalagens de produtos alimentares a partir de resíduos lenho-celulós (FLUI)
Local CoordinatorIndustry National
A solução apresentada pelo projeto FLUI visa o sucesso da obtenção de equipamentos inovadores e disruptivos com as soluções presentes no mercado (TRL6) para a produção de filmes flexíveis biofuncionais com flexibilidade, mono e multicamada...Green chemicals and technologies for the wood-to-textile value chain. (GRETE)
PartnerEuropean Comission
The GRETE project will tackle the challenges caused by increased global demand for sustainable textile fibres by offering new breakthroughs in the wood-to-textile value chain. The substitution of cotton by man-made cellulose fibres is also necessary because of sustainability issues. Currently the raw material base for the production of man-made ...Publications
A Double Click Strategy Applied to the Reversible Polymerization of Furan/Vegetable Oil Monomers
Vilela, C; Cruciani, L; Silvestre, AJD; Gandini, A
2011, MACROMOLECULAR RAPID COMMUNICATIONS, 32, 17, 1319-1323.
>
Polymers and copolymers from fatty acid-based monomers
Vilela, C; Rua, R; Silvestre, AJD; Gandini, A
2010, INDUSTRIAL CROPS AND PRODUCTS, 32, 2, 97-104.
>
Synthesis and characterization of new CaCO3/cellulose nanocomposites prepared by controlled hydrolysis of dimethylcarbonate
Vilela, C; Freire, CSR; Marques, PAAP; Trindade, T; Neto, CP; Fardim, P
2010, CARBOHYDRATE POLYMERS, 79, 4, 1150-1156.
>
Impact of effective alkali and sulfide profiling on Eucalyptus globulus kraft pulping. Selectivity of the impregnation phase and its effect on final pulping results
Santiago, AS; Pascoal, C; Vilela, C
2008, JOURNAL OF CHEMICAL TECHNOLOGY AND BIOTECHNOLOGY, 83, 3, 242-251.
>
Advanced Nanocellulose-Based Materials: Production, Properties and Applications
C. Vilela; C.S.R. Freire
2022, MDPI.
ISBN:
978-3-0365-3190-8
>
Advanced Biopolymer-Based Nanocomposites and Hybrid Materials
Armando J. D. Silvestre; Carmen S.R. Freire; Carla Vilela
2021, Basel, MDPI.
ISBN:
978-3-0365-0511-4
>
Polysaccharide Based Hybrid Materials, Metals and Metal Oxides, Graphene and Carbon Nanotubes
Carla Vilela, Ricardo J. B. Pinto, Susana Pinto, Paula Marques, Armando J. D. Silvestre, Carmen S. R. Freire
2018, Springer.
ISBN:
978-3-030-00347-0
>
Active packaging
In Galanakis, Charis (Eds.), Sustainable Food Processing and Engineering Challenges
Carvalho, João P.F.; Freire, Carmen S.R.; Vilela, Carla
2021, Academic Press.
ISBN:
9780128227145
>
Modification of textiles for functional applications
In Md. Ibrahim H. Mondal (Eds.), Fundamentals of Natural Fibres and Textiles
Ana C. Q. Silva, Armando J. D. Silvestre, Carmen S. R. Freire, Carla Vilela
2021, 303-365, Elsevier.
ISBN:
9780128214831
>
Development and applications of cellulose nanofibres based polymer nanocomposites
In Ehsan Bafekrpour (Eds.), Advanced Composite Materials: Properties and Applications
Carla Vilela, Ricardo J. B. Pinto, Ana R. P. Figueiredo, Carlos Pascoal Neto, Armando J. D. Silvestre, Carmen S. R. Freire
2017, 1-65, Warsaw/Berlin, De Gruyter Open.
ISBN:
9783110574432
>
Polyethylene Terephthalate: Copolyesters, Composites, and Renewable Alternatives
In P. M. Visakh Mong Liang (Eds.), Poly(ethylene Terephthalate) Based Blends, Composites and Nanocomposites.
Andreia F. Sousa, Carla Vilela, Marina Matos, Carmen S.R. Freire, Armando J.D. Silvestre, Jorge F.J. Coelho
2015, 111-139, Elsevier Science Ltd.
ISBN:
9780323313063
>
2 Bacterial Cellulose-Based Nanocomposites: Roadmap for Innovative Materials
Nanocellulose Polymer Nanocomposites: Fundamentals and Applications
A. R. P. Figueiredo, C. Vilela, C. Pascoal Neto, A.J.D. Silvestre and C.S.R. Freire
2014, Scrivener, Willey.
ISBN:
978-1-118-87190-4
>
Advanced Nanocellulose-Based Materials: Production, Properties and Applications
C. Vilela; C.S.R. Freire
2022, MDPI.
ISBN:
978-3-0365-3190-8
>
Advanced Biopolymer-Based Nanocomposites and Hybrid Materials
Armando J. D. Silvestre; Carmen S.R. Freire; Carla Vilela
2021, Basel, MDPI.
ISBN:
978-3-0365-0511-4
>
Polysaccharide Based Hybrid Materials, Metals and Metal Oxides, Graphene and Carbon Nanotubes
Carla Vilela, Ricardo J. B. Pinto, Susana Pinto, Paula Marques, Armando J. D. Silvestre, Carmen S. R. Freire
2018, Springer.
ISBN:
978-3-030-00347-0
>
Novel multilayered nanostructured drug delivery systems obtained by layer-by-layer assembly of cellulose nanocrystals
Maia. M, Vilela. C, Pinto. R, Valente. B, Carvalho. T, Freire. C
2018.
>
Biosorbent films based on nanocellulose and lysozyme nanofibers for efficient removal of mercury (II) from natural waters
Silva, N; Figueira, P; Vilela, C; Pinto, R; Marrucho, I; Periera, M; Freire, C
2018, ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY, 255.
>
Cellulose nanofibrils modified with latex nanoparticles as reinforcement for biodegradable poly(ε-caprolactone)-based composites
C. Vilela, J. Engström, B.F.A. Valente, M. Jawerth, A. Carlmark, C.S.R. Freire
.
>