Short CV
Rui Novais has currently a Research Fellow position (Assistant Researcher) at the Department of Materials and Ceramic Engineering and CICECO-Aveiro Institute of Materials at University of Aveiro (UA).
He obtained his PhD in Polymer Science and Composites, in 2012 from the University of Minho; “Functionalized carbon nanotubes for polymer based nanocomposites”. Between 2012 and 2018 we had a postdoc position at UA working in the development of: - ceramic tiles for improving energy efficiency in buildings; - ceramic cookware compatible with induction cooking; - novel lightweight geopolymers for environmental remediation; - solar thermochemical production of hydrogen based on cork ecoceramics.
In September 2018 he was awarded a Junior researcher grant by FCT (Portuguese Foundation for Science and Technology) to develop with performance geopolymers for environmental remediation applications. Ranked 1/125 Environ Biotech Eng panel; 9/2227 in all panels; Final Score 9.9/10 (CEEC 2017).
In October 2020 he was awarded an Assistant Researcher grant by FCT. Ranked 3/59 Environ Biotech Eng panel; 28/1399 in all panels; Final Score 9.53/10 (CEEC 2019).
He has expertise in chemistry, physics, polymer and materials science, on the development and characterisation of low thermal conductivity materials (traditional ceramics and geopolymer-foams); on PCM-containing building materials for improving buildings thermal performance; wastes valorisation, synthesis of ecoceramics for energy production, and activated carbons.
He has published 76 papers, 60 of which are in JCR SCI journals, 50 in the top quartile (Q1), and 39 are in the top 10% of their areas. He is also the first author of a book chapter on lightweight inorganic polymers and the first author of a review paper on geopolymer foams published in Progress in Materials Science (IF = 31.560). He has >1300 citations, and a h-index of 22 (Scopus). The AVERAGE JOURNAL IF (of the 60 SCI papers) is 6.61. He has supervised 11 MSc (2 on-going) (UA) and 2 Ph D (1 on-going).
Rui Novais participated in 10 R&D projects (4 in cooperation with industry).
He is currently the PI of two projects:
i) European project – SMART G, under the call ERA-MIN 2019, started on Dez 01, 2020. Aims to produce lightweight, fire resistant geopolymers for the construction industry. Rui Novais will supervise two post doc.
ii) FCT R&D project – MAXIMUM, started on March 01, 2021. Aims to produce novel, red mud-based inorganic polymer sorbents for acid mine drainage treatment. Rui Novais will supervise a Junior researcher.
His work on red mud-based inorganic polymer spheres was selected as the cover image of Materials Today (IF 26.416), Vol. 23, March 2019; his work on cork-templated ecoceramics also on the cover of Materials Today Vol. 20, Issue 1, 2017. He has presented 40 oral communications and 33 posters in International Conferences, plus 3 oral and 11 posters in National Seminars. He gave an INVITED PLENARY at International Conference CBECIMAT 2016 (22nd Brazilian Conference on Materials Science and Engineering, November 6-10, 2016, Natal, Brazil) and will give an INVITED lecture in CIMTEC 2022 (June, Montecatini, Italy) regarding his work on geopolymer foams. His work has been highlighted several times in National TVs (RTP1, TVI, Porto Canal), radios (RDP Internacional, TSF, Antena 1) and newspapers (Jornal de Negócios, Público, Diário de Notícias). Review Editor for Frontiers in Materials since February 2020.
Cover images of Scientific journals
Scientific Interests
Geopolymers, inorganic polymers & alkali-activated materials
Porous ceramics
Ecoceramics
Natural materials
Cork
Publications
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Books:
JCR articles
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Projects
Multifunctional bAuXite Inorganic polyMers for acid mine drainage treatment from PortUguese Mines (MAXIMUM)
CoordinatorFundação para a Ciência e a Tecnologia
Mines Wastes Wastewater treatment Circular economySmart Geopolymers (SMART-G)
Local CoordinatorFundação para a Ciência e a Tecnologia
The project aims at the development,production, and demonstration of light weight, fire resistantcomponentsfortheconstructionindustry.Industrialresidueswillbevalorised andviageopolymerizationturnedintofireresistantmaterials.Thewasteenvisionedis 'bauxite residue (or red mud)', bricks and tiles from construction and demolishing waste, and fly ash ...Publications
Bi-Layered Porous/Cork-Containing Waste-Based Inorganic Polymer Composites: Innovative Material towards Green Buildings
Novais, RM; Senff, L; Carvalheiras, J; Labrincha, JA
2020, APPLIED SCIENCES-BASEL, 10, 9.
ISBN:
2076-3417
Development of new geopolymers based on stone cutting waste
Simao, L; Hotza, D; Ribeiro, MJ; Novais, RM; Montedo, ORK; Raupp-Pereira, F
2020, CONSTRUCTION AND BUILDING MATERIALS, 257.
ISBN:
1879-0526
Eco-friendly approach to enhance the mechanical performance of geopolymer foams: Using glass fibre waste coming from wind blade production
Senff, L; Novais, RM; Carvalheiras, J; Labrincha, JA
2020, CONSTRUCTION AND BUILDING MATERIALS, 239.
ISBN:
1879-0526
Geopolymer foams: An overview of recent advancements
Novais, RM; Pullar, RC; Labrincha, JA
2020, PROGRESS IN MATERIALS SCIENCE, 109.
ISBN:
1873-2208
Multifunctional cork - alkali-activated fly ash composites: A sustainable material to enhance buildings' energy and acoustic performance
Novais, RM; Carvalheiras, J; Senff, L; Lacasta, AM; Cantalapiedra, IR; Giro-Paloma, J; Seabra, MP; Labrincha, JA
2020, ENERGY AND BUILDINGS, 210.
ISBN:
1872-6178
Synthesis of red mud derived M-type barium hexaferrites with tuneable coercivity
Carvalheiras, J; Novais, RM; Mohseni, F; Amaral, JS; Seabra, MP; Labrincha, JA; Pullar, RC
2020, CERAMICS INTERNATIONAL, 46, 5, 5757-5764.
ISBN:
1873-3956
Highly efficient lead extraction from aqueous solutions using inorganic polymer foams derived from biomass fly ash and metakaolin
Novais, RM; Carvalheiras, J; Seabra, MP; Pullar, RC; Labrincha, JA
2020, JOURNAL OF ENVIRONMENTAL MANAGEMENT, 272.
ISBN:
1095-8630
In-situ synthesis of zeolites by geopolymerization of biomass fly ash and metakaolin
De Rossi, A; Simao, L; Ribeiro, MJ; Novais, RM; Labrincha, JA; Hotza, D; Moreira, RFPM
2019, MATERIALS LETTERS, 236, 644-648.
ISBN:
1873-4979
Synthesis of porous biomass fly ash-based geopolymer spheres for efficient removal of methylene blue from wastewaters
Novais, RM; Carvalheiras, J; Tobaldi, DM; Seabra, MP; Pullar, RC; Labrincha, JA
2019, JOURNAL OF CLEANER PRODUCTION, 207, 350-362.
ISBN:
1879-1786
Comparison of low and high pressure infiltration regimes on the density and highly porous microstructure of ceria ecoceramics made from sustainable cork templates
Novais, RM; Pullar, RC
2019, JOURNAL OF THE EUROPEAN CERAMIC SOCIETY, 39, 4, 1287-1296.
ISBN:
1873-619X
Use of modified bauxite residue-based porous inorganic polymer monoliths as adsorbents of methylene blue
Hertel, T; Novais, RM; Alarcon, RM; Labrincha, JA; Pontikes, Y
2019, JOURNAL OF CLEANER PRODUCTION, 227, 877-889.
ISBN:
1879-1786
In-depth investigation of the long-term strength and leaching behaviour of inorganic polymer mortars containing green liquor dregs
Novais, RM; Carvalheiras, J; Senff, L; Seabra, MP; Pullar, RC; Labrincha, JA
2019, JOURNAL OF CLEANER PRODUCTION, 220, 630-641.
ISBN:
1879-1786
Red mud-based inorganic polymer spheres bulk-type adsorbents and pH regulators
Novais, RM; Carvalheiras, J; Seabra, MP; Pullar, RC; Labrincha, JA
2019, MATERIALS TODAY, 23, 105-106.
ISBN:
1873-4103
Sustainable and efficient cork - inorganic polymer composites: An innovative and eco-friendly approach to produce ultra-lightweight and low thermal conductivity materials
Novais, RM; Senff, L; Carvalheiras, J; Seabra, MP; Pullar, RC; Labrincha, JA
2019, CEMENT & CONCRETE COMPOSITES, 97, 107-117.
ISBN:
1873-393X
Modifications of basic-oxygen-furnace slag microstructure and their effect on the rheology and the strength of alkali-activated binders
Gonzalez, PLL; Novais, RM; Labrincha, JA; Blanpain, B; Pontikes, Y
2019, CEMENT & CONCRETE COMPOSITES, 97, 143-153.
ISBN:
1873-393X
Pyrolysed cork-geopolymer composites: A novel and sustainable EMI shielding building material
Novais, RM; Saeli, M; Caetano, APF; Seabra, MP; Labrincha, JA; Surendran, KP; Pullar, RC
2019, CONSTRUCTION AND BUILDING MATERIALS, 229.
ISBN:
1879-0526
Metals removal from aqueous solutions by tailored porous waste-based granulated alkali-activated materials
Bumanis, G; Novais, RM; Carvalheiras, J; Bajare, D; Labrincha, JA
2019, APPLIED CLAY SCIENCE, 179.
ISBN:
1872-9053
A Review of Solar Thermochemical CO2 Splitting Using Ceria-Based Ceramics With Designed Morphologies and Microstructures
Pullar, RC; Novais, RM; Caetano, ARF; Barreiros, MA; Abanades, S; Oliveira, FAC
2019, FRONTIERS IN CHEMISTRY, 7.
A sustainable multi-function biomorphic material for pollution remediation or UV absorption: Aerosol assisted preparation of highly porous ZnO-based materials from cork templates
Quarta, A; Novais, RM; Bettini, S; Iafisco, M; Pullar, RC; Piccirillo, C
2019, JOURNAL OF ENVIRONMENTAL CHEMICAL ENGINEERING, 7, 2.
ISBN:
2213-3437
Effect of the particle size range of construction and demolition waste on the fresh and hardened-state properties of fly ash-based geopolymer mortars with total replacement of sand
De Rossi, A; Ribeiro, MJ; Labrincha, JA; Novais, RM; Hotza, D; Moreira, RFPM
2019, PROCESS SAFETY AND ENVIRONMENTAL PROTECTION, 129, 130-137.
ISBN:
1744-3598
Biomass fly ash geopolymer monoliths for effective methylene blue removal from wastewaters
Novais, RM; Ascensao, G; Tobaldi, DM; Seabra, MP; Labrincha, JA
2018, JOURNAL OF CLEANER PRODUCTION, 171, 783-794.
Red mud as a substitute coloring agent for the hematite pigment
Carneiro, J; Tobaldi, DM; Hajjaji, W; Capela, MN; Novais, RM; Seabra, MP; Labrincha, JA
2018, CERAMICS INTERNATIONAL, 44, 4, 4211-4219.
Red mud and electroplating sludge as coloring agents of distinct glazes: The influence of heat treatment
Carneiro, J; Capela, MN; Tobaldi, DM; Novais, RM; Seabra, MP; Labrincha, JA
2018, MATERIALS LETTERS, 223, 166-169.
lInfluence of water and aluminium powder content on the properties of waste-containing geopolymer foams
Novais, RM; Ascensao, G; Ferreira, N; Seabra, MP; Labrincha, JA
2018, CERAMICS INTERNATIONAL, 44, 6, 6242-6249.
High pH buffer capacity biomass fly ash-based geopolymer spheres to boost methane yield in anaerobic digestion
Novais, RM; Gameiro, T; Carvalheiras, J; Seabra, MP; Tarelho, LAC; Labrincha, JA; Capela, I
2018, JOURNAL OF CLEANER PRODUCTION, 178, 258-267.
Solar thermochemical CO2 splitting using cork-templated ceria ecoceramics
Oliveira, FAC; Barreiros, MA; Abanades, S; Caetano, APF; Novais, RM; Pullar, RC
2018, JOURNAL OF CO2 UTILIZATION, 26, 552-563.
Incorporation of glass fibre fabrics waste into geopolymer matrices: An eco-friendly solution for off-cuts coming from wind turbine blade production
Novais, RM; Carvalheiras, J; Capela, MN; Seabra, MP; Pullar, RC; Labrincha, JA
2018, CONSTRUCTION AND BUILDING MATERIALS, 187, 876-883.
Innovative application for bauxite residue: Red mud-based inorganic polymer spheres as pH regulators
Novais, RM; Carvalheiras, J; Seabra, MP; Pullar, RC; Labrincha, JA
2018, JOURNAL OF HAZARDOUS MATERIALS, 358, 69-81.
Extremely fast and efficient methylene blue adsorption using eco-friendly cork and paper waste-based activated carbon adsorbents
Novais, RM; Caetano, APF; Seabra, MP; Labrincha, JA; Pullar, RC
2018, JOURNAL OF CLEANER PRODUCTION, 197, 1137-1147.
Synthesis of ceramic pigments from industrial wastes: Red mud and electroplating sludge
Carneiro, J; Tobaldi, DM; Capela, MN; Novais, RM; Seabra, MP; Labrincha, JA
2018, WASTE MANAGEMENT, 80, 371-378.
Green geopolymeric concrete using grits for applications in construction
Saeli, M; Novais, RM; Seabra, MP; Labrincha, JA
2018, MATERIALS LETTERS, 233, 94-97.
Waste-based geopolymeric mortars with very high moisture buffering capacity
De Rossi, A; Carvalheiras, J; Novais, RM; Ribeiro, MJ; Labrincha, JA; Hotza, D; Moreira, RFPM
2018, CONSTRUCTION AND BUILDING MATERIALS, 191, 39-46.
Upcycling unexplored dregs and biomass fly ash from the paper and pulp industry in the production of eco-friendly geopolymer mortars: A preliminary assessment
Novais, RM; Carvalheiras, J; Senff, L; Labrincha, JA
2018, CONSTRUCTION AND BUILDING MATERIALS, 184, 464-472.
Uncovered: Ecoceramics
Pullar, RC; Novais, RM
2017, MATERIALS TODAY, 20, 1, 45-46.
Effective mechanical reinforcement of inorganic polymers using glass fibre waste
Novais, RM; Carvalheiras, J; Seabra, MP; Pullar, RC; Labrincha, JA
2017, JOURNAL OF CLEANER PRODUCTION, 166, 343-349.
Porous geopolymer spheres as novel pH buffering materials
Novais, RM; Seabra, MP; Labrincha, JA
2017, JOURNAL OF CLEANER PRODUCTION, 143, 1114-1122.
ISBN:
1879-1786
Biphasic apatite-carbon materials derived from pyrolysed fish bones for effective adsorption of persistent pollutants and heavy metals
Piccirillo, C; Moreira, IS; Novais, RM; Fernandes, AJS; Pullar, RC; Castro, PML
2017, JOURNAL OF ENVIRONMENTAL CHEMICAL ENGINEERING, 5, 5, 4884-4894.
Mix design and mechanical performance of geopolymer binder for sustainable construction and building material
Saeli, M; Novais, RM; Seabra, MP; Labrincha, JA
2017, 2017 INTERNATIONAL CONFERENCE ON BUILDING MATERIALS AND MATERIALS ENGINEERING (ICBMM 2017), 264.
Porous biomass fly ash-based geopolymers with tailored thermal conductivity
Novais, RM; Buruberri, LH; Ascensao, G; Seabra, MP; Labrincha, JA
2016, JOURNAL OF CLEANER PRODUCTION, 119, 99-107.
Novel porous fly ash-containing geopolymers for pH buffering applications
Novais, RM; Buruberri, LH; Seabra, MP; Bajare, D; Labrincha, JA
2016, JOURNAL OF CLEANER PRODUCTION, 124, 395-404.
Hidden value in low-cost inorganic pigments as potentially valuable magnetic materials
Novais, RM; Seabra, MP; Amaral, JS; Pullar, RC
2016, CERAMICS INTERNATIONAL, 42, 8, 9605-9612.
Waste glass from end-of-life fluorescent lamps as raw material in geopolymers
Novais, RM; Ascensao, G; Seabra, MP; Labrincha, JA
2016, WASTE MANAGEMENT, 52, 245-255.
Influence of blowing agent on the fresh- and hardened-state properties of lightweight geopolymers
Novais, RM; Ascensao, G; Buruberri, LH; Senff, L; Labrincha, JA
2016, MATERIALS & DESIGN, 108, 551-559.
Novel porous fly-ash containing geopolymer monoliths for lead adsorption from wastewaters
Novais, RM; Buruberri, LH; Seabra, MP; Labrincha, JA
2016, JOURNAL OF HAZARDOUS MATERIALS, 318, 631-640.
Valorisation of industrial iron oxide waste to produce magnetic barium hexaferrite
Pullar, RC; Saeli, M; Novais, RM; Amaral, JS; Labrincha, JA
2016, CHEMISTRYSELECT, 1, 4, 819-825.
Development of geopolymers of low thermal conductivity
Felizardo, V; Nandi, VD; Donadel, K; Novais, R; Labrincha, J; Zaccaron, A
2016, MATERIA-RIO DE JANEIRO, 21, 2, 429-436.
Wood waste incorporation for lightweight porcelain stoneware tiles with tailored thermal conductivity
Novais, RM; Seabra, MP; Labrincha, JA
2015, JOURNAL OF CLEANER PRODUCTION, 90, 66-72.
Lightweight dense/porous bi-layered ceramic tiles prepared by double pressing
Novais, RM; Seabra, MP; Labrincha, JA
2015, JOURNAL OF MATERIALS PROCESSING TECHNOLOGY, 216, 169-177.
Lightweight bi-layered ceramic tiles for novel applications
Novais, RM; Seabra, MP; Labrincha, JA
2015, Advances in Science and Technology, 91, 82-87.
Lightweight dense/porous PCM-ceramic tiles for indoor temperature control
Novais, RM; Ascensao, G; Seabra, MP; Labrincha, JA
2015, ENERGY AND BUILDINGS, 108, 205-214.
Ceramic tiles with controlled porosity and low thermal conductivity by using pore-forming agents
Novais, RM; Seabra, MP; Labrincha, JA
2014, CERAMICS INTERNATIONAL, 40, 8, 11637-11648.
Poly(lactic acid) composites with poly(lactic acid)-modified carbon nanotubes.
Novais RM, Simon F, Pӧtschke P, Covas JA, Paiva MC
2013, 51, 17, 3740-3750.
The influence of carbon nanotube functionalization route on the efficiency of dispersion in polypropylene by twin-screw extrusion
Novais RM, Simon F, Paiva MC, Covas JA
2012, 43, 12, 2189-2198.
The effects of flow type and chemical functionalization on the dispersion of carbon nanofiber agglomerates in polypropylene
Novais RM, Covas JA, Paiva MC
2012, 43, 6, 833-841.
Controlled functionalization of carbon nanotubes by a solvent-free multicomponent approach
Paiva MC, Simon F, Novais R, Ferreira T, Proença M, Xu W, Besenbacher F
2010, 4, 12, 7379-7386.
Unzipping of functionalized multiwall carbon nanotubes induced by STM
Paiva MC, Xu W, Proença MF, Novais RM, Lægsgaard E, Besenbacher F
2010, 10, 5, 1764-1768.
Organic functionalization of carbon nanofibers for composite applications
Paiva MC, Novais RM, Araújo RF, Pederson, KK, Proença MF, Silva CJR, Costa CM, Lanceros-Méndez S.
2010, 31, 3, 369-376.
