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Detecting objects without any physical interaction – reality or science fiction?

Detecting objects without any physical interaction – reality or science fiction?

INL researchers have explored a fascinating quantum ability which lacks a classical explanation: the capacity to detect objects without traditional physical interaction. Rafael Wagner and Anita Camillini, INL PhD candidates, alongside the research group-leader Ernesto F. Galvão, have published a paper describing the revolutionary approach that challenges conventional concepts of detection. Imagine being able to identify something without actually touching it – similarly to diagnosis a hidden fracture without an X-ray or recognising a distant voice without hearing it directly. This study explores how quantum computers can achieve that, and detect objects without direct interaction. Rafael Wagner explains “It has been known for a long time that it is possible to detect things without interactions, as a result of the famous thought experiment introduced by Elitzur and Vaidman. They imagined an extreme situation where either there is a bomb in one of the arms of an interferometer, or there is no bomb.” Interferometers are tools used in many fields of science and engineering. The working principle of interferometry consists on splitting the light into two beams that travel different optical paths and are then combined to produce an interference pattern. Their scenario presents an unusual premise: within an interferometer setup, […]

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INL Opens its doors to the public for a day of scientific exploration – #INLOPENDAY2024

INL Opens its doors to the public for a day of scientific exploration – #INLOPENDAY2024

INL – International Iberian Nanotechnology Laboratory invites you to a day of discovery and exploration on May 18, 2024, in Braga, Portugal. This exclusive event offers a unique opportunity to experience firsthand the cutting-edge research and innovation happening within our renowned institution. Visitors will have the chance to meet our esteemed researchers and delve into the fascinating world of nanotechnology. Explore our state-of-the-art facilities, interact with our scientists, and learn about the groundbreaking projects shaping the future of science and technology. At INL, we believe in the power of collaboration and community. This event not only showcases our commitment to excellence in research but also serves as a platform to strengthen our ties with the communities we serve. We extend our heartfelt gratitude to all those who join us on this exceptional day of scientific discovery. Together, let us embark on a journey into the realm of science, where possibilities are boundless and innovation knows no bounds. For more information and to register for this event, please click here. Don’t miss this opportunity to be part of an enriching and inspiring experience at INL – International Iberian Nanotechnology Laboratory. We look forward to welcoming you!

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INL Hosts Open Session to Explore Breakthroughs in Single-Cell Analysis for Personalized Oncology

INL Hosts Open Session to Explore Breakthroughs in Single-Cell Analysis for Personalized Oncology

On April 4th, INL – International Iberian Nanotechnology Laboratory, in collaboration with the BIOCELLPHE project, is set to host an Open Session focused on pioneering advancements in single-cell analysis. This exclusive event presents a platform to delve into the challenges and opportunities within the field of single-cell analysis. Participants will have the opportunity to engage in discussions with leading experts and researchers, exploring the potential impact of these advancements on personalized oncology. INL’s partnership in the BIOCELLPHE project underscores its commitment to driving innovation and fostering collaboration at the forefront of nanotechnology research. By hosting this Open Session, INL aims to facilitate knowledge exchange and stimulate dialogue among stakeholders invested in the future of healthcare and diagnostics. Don’t miss this opportunity to be part of a transformative discussion on the cutting-edge developments in single-cell analysis for personalized oncology. Join us at INL on April 4th and be a part of shaping the future of healthcare. BIOCELLPHE, a project funded by the European Union’s Horizon 2020 FET-OPEN programme under Grant Agreement No #965018, aims to revolutionize the identification of proteins as diagnostic biomarkers at the single-cell level, boasting unparalleled sensitivity, multiplexing capabilities, and portability. Registration for the event is now open. […]

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Is greenhouse farming releasing microplastics into water?

Is greenhouse farming releasing microplastics into water?

In a recent study conducted by INL researchers, in collaboration with University of Alcalá, Madrid, it has been revealed that greenhouse plastic cover films, commonly composed of polyethylene (PE), are releasing microplastics into the environment during their usage, significantly impacting ecosystems. Microplastics are tiny plastic particles that can result from commercial product development or from the breakdown of larger plastics, and may take hundreds or thousands of years to decompose. Microplastics, defined as plastic particles smaller than 5 millimeters, and nanoplastics, typically smaller than 1 micrometre, have been identified in various ecosystems, including water bodies, soil, and even food and beverages. Their ability to penetrate biological barriers and interact with organisms raises significant concerns about their long-term impacts on biodiversity and human health. The study was conducted over a six-month period in Almeria, Spain, where extensive greenhouse farming is practiced, to better understand the consequences of plastic degradation. Most vegetables grown in these greenhouses are sown and harvested within 6 months, and water analysis was performed at several time points. Researchers from the Water Quality research group at INL and the University of Alcalá applied advanced characterisation techniques to assess the chemical fingerprint, size distribution, and concentration of plastic particles released […]

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Nanotechnology for predicting and preventing seizures in neurological diseases

Nanotechnology for predicting and preventing seizures in neurological diseases

INL researchers are part of the European consortium CROSSBRAIN – a groundbreaking project aimed at developing microbots to predict and prevent seizures in individuals suffering from conditions such as epilepsy or Alzheimer’s disease. Within the complexity of our brains, neurons communicate through various signalling mechanisms, including chemical, thermal, and electrical changes. Many neurological disorders affecting the brain originate from abnormal electrical activity, leading to conditions such as epileptic seizures. When these abnormalities in electrical activity occur, prompt identification and swift intervention are vital for effective treatment. However, current technologies for monitoring and modulating brain activity with precision are very limited. CROSSBRAIN brings together leading researchers from across Europe to develop a new solution for predicting and preventing seizures in neurological conditions. Coordinated by researchers from Tor Vergata University of Rome, the consortium aims to create micro-sized robots that can be implanted in our brains. By combining cutting-edge computing and nanomaterials, CROSSBRAIN will enable precise modulation of brain tissue using various stimulation methods, including electrical, mechanical, thermal, and optical principles. The microbots, powered wirelessly by a compact central unit, will then be implanted through blood vessels, with the capability to deliver genetic material. Once integrated into the network of neurons, these […]

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Olesia Dudik, focused on the development of an electrochemical sensing platform for alkali metal ion detection

Olesia Dudik, focused on the development of an electrochemical sensing platform for alkali metal ion detection

Welcome to a new interview highlighting the indispensable role of women in science. We aim to showcase the remarkable contributions of women working at INL across various disciplines and career stages. Join us as we celebrate their achievements, share their stories, and inspire future generations of female scientists. Olesia Dudik is currently a Research Fellow in the Water Quality Group at the International Iberian Nanotechnology Laboratory (INL). Her research area focuses on sensor development (optical, electrochemical). She holds a BSc and an MSc in organic chemistry from the Taurida National V.I. Vernadsky University (Ukraine) and obtained a PhD degree in Physics and Chemistry of Surface from the Chuiko Institute of Surface Chemistry of NAS of Ukraine in 2014, studying adsorption-desorption processes and mechanisms and kinetics of chemical transformations of aliphatic and biologically active amines (anaesthetics) on the surface of dispersed oxides. Can you give us an update on what you’re currently working on? When I joined INL two years ago, the transition to working in the area of sensor development (optical, electrochemical) from a tissue engineering and regenerative medicine field was a bit challenging. Nevertheless, I was excited by the opportunity to gain new knowledge, and skills and implement them in discoveries. The acquired knowledge helps me grow further professionally.  Nowadays, my research area focuses on […]

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Portugal’s Ministers Elvira Fortunato and António Costa Silva visited INL today

Portugal’s Ministers Elvira Fortunato and António Costa Silva visited INL today

To highlight the crucial importance of INL – International Iberian Nanotechnology Laboratory in driving scientific advancements and economic growth, Portugal’s Minister of Science, Technology, and Higher Education, Elvira Fortunato, alongside António Costa Silva, Minister of Economy and the Sea, visited INL today. The purpose of their visit was to showcase INL’s significant contributions on both national and international fronts, to delve into its strategic positioning within Portugal’s Recovery and Resilience Plans (PRRs) and its collaborations at the national and European levels, and to discuss INL’s future challenges and its positioning regarding ChipsAct. During the visit, the ministers underscored INL’s strategic alignment with Portugal’s PRRs, highlighting the laboratory’s integral involvement in driving forward key initiatives aimed at strengthening the research and innovation national ecosystem. INL’s collaborative efforts with national partners were also brought to the forefront, showcasing the laboratory’s commitment to fostering synergies within the external scientific and industrial community. Looking towards the future, the ministers addressed the challenges lying ahead for INL, particularly in the context of the burgeoning semiconductor industry. With the global semiconductor landscape evolving rapidly, INL faces the imperative of solidifying its position within initiatives like ChipsAct, aimed at fortifying Europe’s semiconductor capabilities. Ministers Fortunato and Silva […]

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Beatriz Costa, developing 3D scaffolds integrated with nanodiamond photonics platforms

Beatriz Costa, developing 3D scaffolds integrated with nanodiamond photonics platforms

Welcome to a new interview highlighting the indispensable role of women in science. We aim to showcase the remarkable contributions of women working at INL across various disciplines and career stages. Join us as we celebrate their achievements, share their stories, and inspire future generations of female scientists. Today you can meet Beatriz Costa, Junior Research Fellow in the Ultrafast Bio- and Nanophotonics group at INL under the supervision of Dr. Jana B. Nieder. Why did you decide to work in the Ultrafast Bio- and Nanophotonics area? My decision to pursue research in the Ultrafast Bio- and Nanophotonics area stems from its interdisciplinary nature and potential applications in biomedical engineering. With a background in Biomedical Engineering and a Major in Medical Electronics, I sought a field that would enable me to integrate diverse disciplines and cutting-edge technologies to address pressing healthcare challenges. The Ultrafast Bio- and Nanophotonics area offers a unique convergence of optics, nanotechnology, and biology, providing opportunities to develop novel diagnostic and therapeutic approaches. Can you tell us what you are working on at present? Currently, I am engaged in a research project focused on developing 3D scaffolds integrated with nanodiamond photonics platforms. These scaffolds serve as intricate […]

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Detecting food allergens with paper microfluidics and a smartphone

Detecting food allergens with paper microfluidics and a smartphone

Every day, millions are at risk of falling ill due to undetected allergens or contaminants in their food. However, a groundbreaking solution may be on the horizon, as researchers investigate a game-changing technology to combat foodborne risks. The Food Quality and Safety research group recently published a study describing a cutting-edge technology that provides faster, cheaper, and more reliable detection of allergens like β-lactoglobulin in our food. Traditionally, detecting allergens in food products has been a complex and costly process. Current methods, including enzyme-linked immunosorbent assays (ELISA) and polymerase chain reaction (PCR), require specialised equipment and highly-trained personnel, making them difficult to use. INL researchers are contributing to reshaping the landscape of food safety with a new nanotechnology approach. Their pioneering approach? Fluorescent carbon quantum dots combined with aptamers, which are short, single-stranded DNA or RNA molecules that can bind to specific target molecules with high affinity and specificity. By leveraging the unique properties of carbon quantum dots and aptamers, the researchers have developed a highly sensitive and portable detection method for β-lactoglobulin, the primary allergenic whey protein found in cow’s milk. What sets this technology apart is its simplicity and effectiveness. The team has created a user-friendly platform that […]

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