Sousa, Hermínio C. de
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Credit Name
Sousa, Hermínio C. de
Name
Sousa, H.
Variants
de Sousa, Herminio
de Sousa, H.C.
Sousa, H.C. de
Sousa, Hermínio José Cipriano de
de Sousa, H.C.
Sousa, H.C. de
Sousa, Hermínio José Cipriano de
Email
hsousa@eq.uc.pt
Scopus Author ID
Researcher ID
Status
UC Researcher
Biography
Hermínio C. de Sousa (HC de Sousa) graduated in Chemical Engineering (5-years Lic. Chem Eng, 1992) from the New University of Lisbon, Portugal. He completed his PhD in 1997, in Chemistry - Physical Chemistry, also at the New University of Lisbon. At the same year he got a Teaching Assistant position at the Chemical Engineering Department, University of Coimbra, Portugal (DEQ-FCTUC), where he currently holds a Tenured Associate Professor position since 2019. He is a Senior Member of the Portuguese Association of Engineers (Portugal) and of the American Institute of Chemical Engineers (AIChE), USA. HC de Sousa has more than 20 years of academic experience in teaching theoretical, theoretical-practical, laboratorial and tutorial/supervision classes at the BSc, MSc and PhD levels. He was also a Visiting Professor/Researcher at the University of Massachusetts-Amherst, USA (2007, 2014), Federal University of Pará, Brazil (2009), UNICAMP, Brazil (2011, 2012), Federal University of Bahia, Brazil (2016, 2017, 2018, 2019), and National University of Colombia, Colombia (2013, 2014, 2017). HC de Sousa is the team leader of the Green and Sustainable Processes Laboratory (GSP), at the Chemical Process Engineering and Forest Products Research Centre of the Chemical Engineering Department of the University of Coimbra (CIEPQPF/DEQ-FCTUC). GSP research strategies and activities are mainly focused on the use of “greener”, sustainable, safer, biomimetic and environmentally-friendly innovative processes for the development of value-added products and materials/nanomaterials which are predominantly envisaged for pharmaceutical/drug delivery and biomedical/tissue engineering applications. However, food, agricultural, nutraceutical, cosmetic, antimicrobial, water treatment, oil & gas, electronics, and low VOC-emission materials/applications are/were also covered. Employed “greener” and sustainable approaches comprise the use of supercritical fluids (e.g., high-pressure, subcritical and supercritical carbon dioxide); of aqueous/ethanolic-based solvent systems; of natural-origin biopolymers and phytochemicals obtained from renewable resources (e.g., from vegetable raw materials and agro-industrial residues/wastes); of ionic liquids (namely of safer/biodegradable ionic liquids), and of “greener”, biomimetic and self-assembly-based synthesis/processing strategies. Several advantageous combinations of these five approaches were/are also implemented. Specific examples of application of the GSP research activities include the development of: nano/microparticles for drug delivery; implants, hydrogels and contact/intraocular lenses for ophthalmic drug delivery; medicated natural-origin wound dressings (namely for diabetic foot ulceration treatment); pre-formed and in-situ forming polymeric implants for prolonged drug/protein release; natural-origin adhesives and bioadhesives; bioactive natural products and their pharmaceutical/biomedical, food, nutraceutical, agricultural and cosmetic formulations/delivery systems; natural-origin flocculants for water treatment; plasticized low-VOC emission PVC/PU materials; and macro-, meso- and microporous silica-based biomaterials (e.g., biomimetic/bioactive biopolymer/silica composite/hybrid biomaterials - drug delivery/hard-tissue applications). More recent research topics include the development of: 1) multifunctional stimuli-responsive and electroactive biomaterials; 2) novel and more efficient materials and nanomaterials for oxygen/CO2/gas capture, storage, delivery and separation; 3) enhanced oil recovery and CO2/water-induced asphaltene precipitation in crude oil reservoirs; 4) improved and eco-friendly agricultural pesticide delivery, biomanagement and pest control (namely for insects/nematodes control); 5) supercritical CO2 as a sterilizing and biocidal agent.
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Publications
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Results 1-15 of 15 (Search time: 0.013 seconds).
Issue Date | Title | Author(s) | Type | Access | |
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1 | 2022 | Chitosan-xanthan gum PEC-based aerogels: A chemically stable PEC in scCO2 | Tomé, Luciana I. N. ; Reis, Marco S. ; Sousa, Hermínio C. de ; Braga, Mara E. M. | article | embargoedAccess |
2 | Nov-2014 | Control of the properties of porous chitosan-alginate membranes through the addition of different proportions of Pluronic F68 | Bueno, Cecilia Zorzi ; Dias, Ana Maria Antunes ; Sousa, Hermínio José Cipriano de ; Braga, Mara Elga Medeiros ; Moraes, Angela Maria | article | openAccess |
3 | 18-Nov-2013 | Dexamethasone-loaded poly(ε-caprolactone)/silica nanoparticles composites prepared by supercritical CO2 foaming/mixing and deposition | Matos, M. B. C. de ; Piedade, A. P. ; Alvarez-Lorenzo, C. ; Concheiro, A. ; Braga, M. E. M. ; Sousa, H. C. de | article | openAccess |
4 | 2020 | Environmentally-safe scCO2 P. pinaster branches extracts: Composition and properties | Gaspar, Marisa C. ; Sousa, Hermínio C. de ; Seabra, Inês J. ; Braga, Mara E. M. | article | embargoedAccess |
5 | 28-Aug-2008 | Fractioned High Pressure Extraction of Anthocyanins from Elderberry ( Sambucus nigra L.) Pomace | Seabra, Inês J. ; Braga, Mara E. M. ; Batista, Maria T. P. ; Sousa, Hermínio C. de | article | openAccess |
6 | 2020 | Impact of the pinewood nematode on naturally-emitted volatiles and scCO2 extracts from Pinus pinaster branches: a comparison with P. pinea | Gaspar, M. C. ; Agostinho, B.; Fonseca, L.; Abrantes, I. ; Sousa, H. C. de ; Braga, M. E. M. | article | embargoedAccess |
7 | 2013 | Influence of natamycin loading methods on the physical characteristics of alginate active films | Bierhalz, Andrea C.K. ; Silva, Mariana A. da ; Sousa, Hermínio C. de ; Braga, Mara E. M. ; Kieckbusch, Theo G. | article | openAccess |
8 | 28-Mar-2023 | Novel Oxygen- and Curcumin-Laden Ionic Liquid@Silica Nanocapsules for Enhanced Antimicrobial Photodynamic Therapy | Henriques, Joana F. ; Pina, João ; Braga, Mara E. M. ; Dias, Ana M. A. ; Coimbra, Patrícia ; Sousa, Herminio C. de | article | openAccess |
9 | 1-Feb-2015 | Osteogenic poly(ε-caprolactone)/poloxamine homogeneous blends prepared by supercritical foaming | Matos, Maria B. C. de ; Puga, Ana M. ; Alvarez-Lorenzo, Carmen ; Concheiro, Angel ; Braga, Mara E. M. ; Sousa, Hermínio C. de | article | openAccess |
10 | 9-Nov-2019 | Porous poly(ε-caprolactone) implants: A novel strategy for efficient intraocular drug delivery | Boia, Raquel ; Dias, Paulo A. N.; Martins, Joana M.; Galindo-Romero, Caridad; Aires, Inês D. ; Vidal-Sanz, Manuel; Agudo-Barriuso, Marta; Sousa, Hermínio C. de ; Ambrósio, António Francisco ; Braga, Mara E. M. ; Santiago, Ana Raquel | article | openAccess |
11 | 2015 | Solubility of all-trans retinoic acid in supercritical carbon dioxide | Rosa, António B. S. ; Marceneiro, Sofia ; Braga, Mara E. M. ; Dias, Ana M. A. ; Sousa, Hermínio C. de | article | openAccess |
12 | 2008 | Supercritical solvent impregnation of ophthalmic drugs on chitosan derivatives | Braga, Mara E. M. ; Pato, Maria T. Vaz ; Silva, Hélio S. R. Costa ; Ferreira, Elisabeth I. ; Gil, Maria H. ; Duarte, Catarina M. M. ; Sousa, Hermínio C. de | article | openAccess |
13 | 2023 | Transcriptome analysis reveals the high ribosomal inhibitory action of 1,4-naphthoquinone on Meloidogyne luci infective second-stage juveniles | Cardoso, Joana M. S. ; Esteves, Ivânia ; Egas, Conceição ; Braga, Mara E. M. ; Sousa, Herminio C. de ; Abrantes, Isabel ; Maleita, Carla | article | openAccess |
14 | 15-Sep-2021 | Using High-Pressure Technology to Develop Antioxidant-Rich Extracts from Bravo de Esmolfe Apple Residues | Bordalo, Mário; Seabra, Inês J. ; Silva, Andreia Bento; Terrasso, Ana Paula; Brito, Catarina ; Serra, Margarida; Bronze, Maria R.; Duarte, Catarina M. M. ; Braga, Mara E. M. ; de Sousa, Herminio C. ; Serra, Ana Teresa | article | openAccess |
15 | 2013 | Wound dressings loaded with an anti-inflammatory jucá (Libidibia ferrea) extract using supercritical carbon dioxide technology | Dias, A.M.A. ; Rey-Rico, A. ; Oliveira, R.A. ; Marceneiro, S. ; Alvarez-Lorenzo, C. ; Concheiro, A. ; Júnior, R.N.C. ; Braga, M. E. M. ; Sousa, H.C. de | article | openAccess |