João Borges

Assistant Researcher

Short biography

João Borges is an Assistant Researcher at CICECO – Aveiro Institute of Materials and the Department of Chemistry at the University of Aveiro, Portugal. He holds a Ph.D. in Chemistry from the University of Porto. He has been focusing his research and collaborating with interdisciplinary and international partners on the molecular design, synthesis and development of bioinspired supramolecular multicomponent biomaterials by combining polysaccharides, peptides and nucleic acids to interface with living systems. Those self-assembling biomaterials, include biomimetic Layer-by-Layer-driven soft self-assembling nanobiomaterials and bioinspired, chemically programmable and dynamic supramolecular hydrogels to be used as bioinstructive matrices to control cell functions and as platforms for controlled drug/protein/therapeutics delivery.  João has been lecturing on supramolecular biomaterials for tissue engineering and regenerative medicine strategies in Portugal and abroad at undergraduate and graduate levels, as well as on communication and presentation skills, and he has been PI of R&D projects funded at European and national levels.

He has been chairing international scientific conferences and symposia in major international conferences, member of the scientific and organizing committees of international conferences, referee and chairman, guest editor of themed collections / special issues, and has been invited to deliver keynote lectures in major international conferences. João is the recipient of several honors and awards, including elected Chemistry Europe Fellow (Class of 2022/2023), Member of the Global Young Academy (2024-2029), and received the Periodic Table of Younger Chemists Award (2019). He is also an Editorial Advisory Board Member of the Journal of Materials Chemistry B (RSC) and Associate Editor for Frontiers in Medical Technology.

Beyond his academic activity and scientific impact, João has been strongly commited to connecting, mentoring, and empowering young scientists in advancing their professional development, as well as to delivering a positive social impact by being invested in science communication, outreach, policy and diplomacy as a Member of the Global Young Academy (GYA), Young Academy of Portugal of the Lisbon Academy of Sciences (SJC-ACL), International Younger Chemists Network (IYCN), and European Young Chemists’ Network (EYCN). He has been actively serving and embracing leadership roles in several early-career chemists’ networks and professional scientific organizations at national, European, and international levels, extensively supporting the networking activities among and empowering early-career scientists. In particular, he has been Chair of the IYCN (2021-2022).

He is currently Member of the Biomaterials Chemistry Group at the Royal Society of Chemistry, Co-Leader of the Programme Organizing Committee for the 2025 GYA Annual General Meeting, Co-Chair of the Global Conversation on Sustainability (GCS) – a joint project by the IYCN and the International Union of Pure and Applied Chemistry (IUPAC) – which aims to tackle the United Nations Sustainable Development Goals by raising awareness and implementing sustainable practices globally, and a National Representative of the IYCN Standing Committee at IUPAC.

João is a member of several professional scientific organizations, including the Royal Society of Chemistry (RSC), the American Chemical Society (ACS), the European Society for Biomaterials (ESB), the Portuguese Chemical Society (SPQ), and IUPAC.

Professional Appointments

Royal Society of Chemistry (RSC, https://www.rsc.org/):

  • Since 2024: Member of the Editorial Advisory Board of the Journal of Materials Chemistry B.
  • Since 2024: Elected member of the RSC Biomaterials Chemistry Committee.

Global Young Academy (GYA, https://globalyoungacademy.net/):

  • Since 2024: Co-Leader of the Programme Organizing Committe for the 2025 GYA Annual General Meeting.
  • Since 2024: Member of the Communications Committee.
  • Since 2024: Member of the ‘Science Advice’, ‘Scientific Excellence’, ‘Trust in Young Scientists’ and ‘The GYA and the UN SDGs’ working groups.

Young Academy of Portugal (https://www.acad-ciencias.pt/eng/institutos/apresentacao-do-sjc/):

  • Since 2024: Elected Member of the Young Academy of Portugal of the Lisbon Academy of Sciences.

International Union of Pure and Applied Chemistry (IUPAC, https://iupac.org/):

  • Since 2024: National Representative of the IYCN Standing Committee at IUPAC.
  • Since 2022: Task Group Co-Chair of the IUPAC/IYCN joint project "Global Conversation on Sustainability" (https://www.gcs-day.org).

International Younger Chemists Network (IYCN, https://www.iycnglobal.com/): 

  • August 2022-August 2023: Past Chair and Advisor.
  • August 2021-August 2022: Chair.
  • April 2021-August 2021: Vice-Chair.
  • September 2019-April 2021: Member of the Executive Board and  Conference Presence Committee Leader.
  • September 2018-September 2019: Member of the Conference Presence Committee.

European Young Chemists' Network (EYCN; young division of EuChemS, https://www.eycn.eu/): 

  • 2017-2023: Member of the Networks and Global Connnections Teams.
  • 2017-2021: Coordinator of the European Young Chemists' Meetings (EYCheM).
  • 2017-2019: Portuguese Delegate.

The Young Chemists Group (GQJ - Grupo de Químicos Jovens, https://gqj.spq.pt/) of the Portuguese Chemical Society (SPQ - Sociedade Portuguesa de Química):

  • 2016-2018: Member of the Directing Board.

Ongoing Supervisions

Projects

3D cells colonization in marine-derived hydrogels through controlled micro-channels patterning for bone repair (PROMENADE)

PartnerFundação para a Ciência e a Tecnologia
magnetic; 3D cell colonization; hydrogel

Bioinspired tile-matching to create ultrastructured bone microtissues in a close-to-native fashion (TETRISSUE)

PartnerFundação para a Ciência e a Tecnologia
The driving force behind TETRISSUE is inspired in the fundamentals of the native bone regenerative process and supported by a strong technological character to produce highly vascularized ultrastructured bone replacements. Its innovative character is mainly related with the integration of key elements working in tandem: (1) bioinstructive microp...

Desenvolvimento de uma membrana periodontal multicamada composta por blocos inovativos a base de polimeros de origem marinha e enzima para regeneracao guiada de osso que possui mineralizacao enzimatica controlada. (MIMETIc)

PartnerFundação para a Ciência e a Tecnologia

Dispositivos Supramoleculares Auto-Regulados baseados na Complementaridade dos Pares de Base do ADN: Uma Tecnologia Biomimética e com Reconheciemnto Molecular para Isolar Células Específicas para Aplicações Biomédicas (SUPRASORT)

CoordinatorFundação para a Ciência e a Tecnologia

Hidrogéis de Lisados de Plaquetas para Regeneração do Miocárdio (BEAT)

PartnerFundação para a Ciência e a Tecnologia

Marine Origin Biopolymers as Innovative Building Blocks from the Sea for the Development of Bioresorbable Multilayered Membranes for guided bone regeneration (BLUETEETH)

PartnerFundação para a Ciência e a Tecnologia
Natural origin polymers from algae and arthropods can be obtained in large scale, and a great effort has been paid to find applications for such high-added value materials. Periodontal disease is frequent in humans and constitutes, together with dental caries, the principal cause of tooth loss in adults. Currently, one of the available treatment...

Metodologias eficientes para a conjugação de polissacarídeos naturais com péptidos para obtenção de membranas multifuncionais para regeneração periodontal. (COP2P)

PartnerFundação para a Ciência e a Tecnologia

Produção de Plataformas Microcapsulares 3D+ para Avaliação Laboratorial em Larga Escala de Novas Terapias Combinatórias para o Cancro do Pâncreas (PANGEIA)

PartnerFundação para a Ciência e a Tecnologia

Publications

Advanced Bottom-Up Engineering of Living Architectures

Gaspar, VM; Lavrador, P; Borges, J; Oliveira, MB; Mano, JF
2020, ADVANCED MATERIALS, 32, 6.
ISBN: 1521-4095

Enzymatically degradable, starch-based layer-by-layer films: application to cytocompatible single-cell nanoencapsulation

Moon, HC; Han, S; Borges, J; Pesqueira, T; Choi, H; Han, SY; Cho, H; Park, JH; Mano, JF; Choi, IS
2020, SOFT MATTER, 16, 26, 6063-6071.
ISBN: 1744-6848

Thin Silica-Based Microsheets with Controlled Geometry

Maciel, MM; Patricio, SG; Borges, J; Levkin, PA; Correia, TR; Mano, JF
2020, EUROPEAN JOURNAL OF INORGANIC CHEMISTRY, 2020, 17, 1574-1578.
ISBN: 1099-0682

A diverse view of science to catalyse change

Urbina-Blanco, CA; Jilani, SZ; Speight, IR; Bojdys, MJ; Friscic, T; Stoddart, JF; Nelson, TL; Mack, J; Robinson, RAS; Waddell, EA; Lutkenhaus, JL; Godfrey, M; Abboud, MI; Aderinto, SO; Aderohunmu, D; Bibic, L; Borges, J; Dong, VM; Ferrins, L; Fung, FM; John, T; Lim, FPL; Masters, SL; Mambwe, D; Thordarson, P; Titirici, MM; Tormet-Gonzalez, GD; Unterlass, MM; Wadle, A; Yam, VWW; Yang, YW
2020, NATURE CHEMISTRY, 12, 9, 773-776.
ISBN: 1334-417X

Supramolecular Presentation of Hyaluronan onto Model Surfaces for Studying the Behavior of Cancer Stem Cells

Pang, XQ; O'Malley, C; Borges, J; Rahman, MM; Collis, DWP; Mano, JF; Mackenzie, IC; Azevedo, HS
2019, ADVANCED BIOSYSTEMS, 3, 10.
ISBN: 2366-7478

Preparation of Well-Dispersed Chitosan/Alginate Hollow Multilayered Microcapsules for Enhanced Cellular Internalization

Ribeiro, C; Borges, J; Costa, AMS; Gaspar, VM; Bermudez, VD; Mano, JF
2018, MOLECULES, 23, 3.

Nanostructured interfacial self-assembled peptide-polymer membranes for enhanced mineralization and cell adhesion

Ribeiro, S; Radvar, E; Shi, Y; Borges, J; Pirraco, RP; Leonor, IB; Mano, JF; Reis, RL; Mata, A; Azevedo, HS
2017, NANOSCALE, 9, 36, 13670-13682.
ISBN: 2040-3372

Nanoengineering Hybrid Supramolecular Multilayered Biomaterials Using Polysaccharides and Self-Assembling Peptide Amphiphiles

Borges, J; Sousa, MP; Cinar, G; Caridade, SG; Guler, MO; Mano, JF
2017, ADVANCED FUNCTIONAL MATERIALS, 27, 17.
ISBN: 1616-3028

Bottom-up fabrication of hybrid polysaccharide/peptide amphiphile supramolecular multilayered biomaterials by combining self-assembly and layer-by-layer assembly approaches

Borges, J; Sousa, M; Cinar, G; Caridade, S; Guler, M; Mano, J
2017, ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY, 253.

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