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INL Hosts Key Seminar on Critical Mineral Resources and Battery Value Chain

INL Hosts Key Seminar on Critical Mineral Resources and Battery Value Chain

On November 12, the International Iberian Nanotechnology Laboratory hosted a significant seminar titled “Critical Mineral Resources and the Battery Value Chain: Opportunities and Challenges for Portugal.” Organized by Battery Cluster Portugal and the Cluster Portugal Mineral Resources Association, the event attracted over 150 experts, industry representatives, and government officials. The gathering focused on Portugal’s strategic role in the battery sector and the vital mineral resources required for battery production, aiming to explore innovative strategies and address industry challenges. The session opened with remarks from Portugal’s Secretary of State for Energy, Professor Maria João Pereira, who emphasized the country’s commitment to advancing sustainable energy solutions. Dr. Joaquim Nunes de Almeida, Director of DG GROW at the European Commission, followed with an outline of the EU’s strategic guidelines for managing critical mineral resources, highlighting Europe’s efforts to secure these essential resources as the demand for batteries and renewable technologies grows. Throughout the day, panel discussions led by companies, academic institutions, and industry stakeholders delved into topics such as technological innovation, sustainability, and the integration of advanced materials into the battery supply chain. Moderated by leading universities, these sessions provided insights into the opportunities and challenges Portugal faces in building a resilient, sustainable […]

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Nanodiamonds bring new hope for Parkinson’s research with advanced neuronal sensing

Nanodiamonds bring new hope for Parkinson’s research with advanced neuronal sensing

Researchers at INL – International Iberian Nanotechnology Laboratory from Nieder research group, in collaboration with ICVS and iBiMED, are pioneering the use of functionalised nanodiamonds. This innovative approach offers a highly precise method to monitor neuronal activity at the cellular level, advancing our understanding of Parkinson’s disease. This breakthrough, published in ACS Applied Materials & Interfaces, could help understand the complex biological shifts occurring in the brains of patients suffering from neurodegenerative diseases, potentially leading to earlier diagnosis and personalised treatment. Parkinson’s disease, which affects over 10 million people worldwide, is characterised by the gradual loss of dopamine-producing neurons in the brain. This leads to motor symptoms such as tremors, difficulty with balance, and slowed movement. Studying these neurons at the single-cell level is crucial to understanding the disease’s progression. However, existing methods for observing neuronal activity, such as microelectrode arrays and patch-clamp techniques, have significant limitations, including poor spatial resolution and invasiveness. A promising alternative comes from the world of nanotechnology. Nanodiamonds are tiny diamond particles, just a few nanometres in size, known for their exceptional stability and biocompatibility. When these nanodiamonds contain special defects called nitrogen-vacancy centres, they gain unique optical and magnetic properties, making them a powerful […]

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Sinfonia Project Concludes with a Resounding Success at the II ‘Total-Nanosafe’ International Conference in Braga

Sinfonia Project Concludes with a Resounding Success at the II ‘Total-Nanosafe’ International Conference in Braga

Braga recently hosted the closing event of the Sinfonia Project, where over 100 participants celebrated the successful culmination of a four-year journey dedicated to advancing nanosafety. The II ‘Total-Nanosafe’ International Conference served as the platform for this milestone, bringing together global experts to explore the intersection of nanotechnology, human health, and environmental impact. Pioneering Discussions in Nanosafety This year’s conference provided a comprehensive view of the latest nanosafety advancements, featuring discussions on nanotoxicology, organ-on-a-chip models, in vitro-in vivo bridging, in silico methods, and the environmental impact of nanomaterials. The event highlighted key trends shaping the future of nanosafety, underscoring a commitment to safe and sustainable nanotechnology development. Conference Highlights The conference opened with a welcome cocktail on November 6, followed by sessions on November 7 and 8. Professor Ulla Vogel from Denmark’s National Research Centre for the Working Environment delivered an impactful keynote on nanoparticle toxicology, focusing on occupational health risks related to nanoparticles, including cancer, cardiovascular disease, and fertility impacts. Presentations from INL and other leading institutions covered diverse research topics, such as the effects of silver nanoparticles on lung-barrier function, skin-on-chip safety models, and the impacts of black carbon on aging. These studies highlighted the scope of nanosafety […]

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Revolutionising Water Quality Monitoring: An Interview with Najib Ben Messaoud

Revolutionising Water Quality Monitoring: An Interview with Najib Ben Messaoud

We’re excited to introduce Dr. Najib Ben Messaoud, a Research Fellow in the Water Quality Research Group at INL. With a distinguished background in nanotechnology and sensing strategies, Najib’s work focuses on developing advanced methods for detecting water contaminants. His dedication to creating reliable tools for water monitoring spans health, environmental, and agricultural applications. In this interview, Najib shares insights into his journey, recent projects, and the impact of urbanization on water quality monitoring. Could you briefly describe your academic and professional background in water quality research? I hold a PhD in Engineering Physics with a specialization in nanotechnology sciences from the High School of Sciences and Technologies, Hammam Sousse, Tunisia. During my PhD, I focused on designing nanostructured electrodes and electrochemical (bio)sensors to detect carcinogenic substances in water. My journey in water quality research began about a decade ago during my master’s project, which involved detecting perchlorate in water. In 2019, I joined INL as a Research Associate, where I contributed to developing a portable system to quantify Aeromonas salmonicida in water. Since 2021, in my role as a Research Fellow, I have engaged in multiple projects related to water quality, including those focused on detecting nanomaterials, nitrite, and nitrate in […]

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INL’s Commitment to Science Outreach: New Board Games Illuminate Nanosafety and Air Quality Awareness for Young Audiences

INL’s Commitment to Science Outreach: New Board Games Illuminate Nanosafety and Air Quality Awareness for Young Audiences

INL – The International Iberian Nanotechnology Laboratory continues to champion science outreach and education by introducing two innovative board games: The Life Cycle of Nanomaterials and Clean Air in School! Play & LEARN. These games, developed through INL’s projects—SiNfONiA, LEARN, and SbDToolbox—reflect INL’s enduring commitment to bridging the gap between complex scientific research and accessible learning for younger audiences and by it’s commitment to science outreach by illuminating nano safety and air quality awareness for young audiences. These games embody INL’s goal of making science both engaging and educational, fostering a new generation’s awareness of environmental safety, health, and nanotechnology’s impact on daily life. Through these immersive tools, INL emphasises that scientific understanding is not only the domain of researchers but also a vital area of knowledge for the broader community. “The Life Cycle of Nanomaterials“, Bringing Awareness of Materials’ Lifetime Supported solely by INL through the SiNfONiA and SbDToolbox projects, The Life Cycle of Nanomaterials board game provides players with a comprehensive understanding of nanomaterials’ journey from creation to potential environmental and health impacts. SiNfONiA, spearheaded by the Alfaro-Moreno Group, is dedicated to advancing research in nanosafety and enhancing INL’s capabilities in this field. In parallel, the SbDToolbox project addresses the critical need for […]

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Stamp-sized microchip that imitates the human brain could speed up treatments for Alzheimer’s [republished]

Stamp-sized microchip that imitates the human brain could speed up treatments for Alzheimer’s [republished]

A human brain-on-a-chip sounds like something from a science fiction film, a gadget powering its cyborg villain.  Discover how INL’s innovative stamp-sized microchip is transforming healthcare and data security. Learn about this ultra-small technology and its impact on future applications. Chemical and biological engineer Dr Raquel Rodrigues at the INL – International Iberian Nanotechnology Laboratory (INL) in Braga, Portugal, believes that such a device will be key to developing more effective treatments for serious neurological disorders, such as Alzheimer’s. “The brain is a very complex and puzzling organ,” said Rodrigues. “We need electronic monitoring of cells and experimental parts so we can learn how it works.” Your brain on a chip Thanks to research funding from the EU, Rodrigues and fellow researchers at the INL were able to build a unique brain-emulating microchip as part of a two-year research effort called BrainChip4MED that concluded in February 2024. The research included a 12-month secondment to Brigham and Women’s Hospital, part of Harvard Medical School and pioneers in the development of organs-on-a-chip (OoC) and biosensors. The ingenious, thumbnail-sized device developed by the researchers looks similar to chips in computers or smartphones, but is much more complex.  “ The brain is a very complex and […]

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Innovative use of nanographenes achieves breakthrough in quantum modelling

Innovative use of nanographenes achieves breakthrough in quantum modelling

A recent breakthrough in quantum materials research, published in Nature Nanotechnology, introduces a powerful platform for exploring and controlling topological phases in quantum systems. This study was performed by scientists at INL, Empa – Swiss Federal Laboratories for Materials Science and Technology, the Technical University of Dresden and Max Planck Institute of Microstructure Physics. INL researchers played a crucial role by providing the theoretical calculations essential to this advance. The international team developed a unique system of nanographene-based chains, whose building blocks are known as “Clar’s goblets”. Using a technique called ‘on-surface synthesis’, the researchers created alternating-exchange Heisenberg spin chains, allowing for targeted spin manipulation within a controlled structure. The Heisenberg model, a foundational concept in quantum mechanics, describes how spins (intrinsic angular momenta of particles like electrons) interact with one another. In this paper, the Heisenberg spin chains are specially constructed from linked Clar’s goblets, nanographenes where each part of the molecule (a “site” in the chain) hosts a spin. By covalently linking the Clar’s goblets, the researchers could precisely control properties such as chain length and exchange interactions at the atomic level. Scanning tunnelling microscopy further allowed the team to investigate the magnetic properties of these chains, monitoring […]

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Engineering the Future: Patrícia Sousa on the Challenges and Innovations in Micro and Nanotechnologies

Engineering the Future: Patrícia Sousa on the Challenges and Innovations in Micro and Nanotechnologies

Introducing Patrícia Sousa, a pioneering Research Engineer in Integrated Micro and Nanotechnologies at INL. With a strong foundation in Chemical Engineering and a Ph.D. in Chemical and Biological Engineering from the University of Porto, Patrícia has specialized in microfluidics and advanced fabrication techniques that address critical challenges in micro and nanotechnologies. Patrícia’s dedication extends beyond the lab, as she actively participates in public outreach initiatives, including the European Researcher’s Night and educational programs in local schools. There, she shares her expertise in accessible and inspiring ways, illustrating how nanotechnology can transform fields such as medicine, electronics, and sustainability. In this interview, Patrícia offers insight into her career journey, the challenges and triumphs in her work, and her passion for making science accessible and impactful for all. Could you briefly describe your academic and professional background in micro and nanotechnologies? My academic background includes a first degree in Chemical Engineering, from the Faculty of Engineering, University of Porto followed by a PhD in Chemical and Biological Engineering, also from the Faculty of Engineering, University of Porto. Since my PhD studies focused on microfluidics, at that time I started deepening my knowledge in the field of micro and nanotechnology and in particular, micro […]

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