🔝 ⚛ Read about this week's #ScientificHighlight: "Unravelling the origin of thermal anisotropy in PdSe2" 👉 https://bit.ly/3XsG3Gc Riccardo Rurali Sebastian Reparaz Alejandro Goni
INSTITUT DE CIÈNCIA DE MATERIALS DE BARCELONA (ICMAB-CSIC)
Servicios de investigación
Bellaterra, BARCELONA 8271 seguidores
Centre d'excel·lència científica en l'àrea de la recerca i tecnologia de nous materials funcionals
Sobre nosotros
The ICMAB is a research institute of the Consejo Superior de Investigaciones Científicas (CSIC), the largest research organization in Spain focusing on basic and applied research. The ICMAB, which is already 30 years old, keeps its initial enthusiasm which makes it a very attractive place to work for young researchers. At present the ICMAB includes about 300 people with 57 scientists as permanent staff. The initial and ongoing mission of the ICMAB is “to generate new knowledge in Materials Science and transfer it to the society, particularly to industry within the European Research Area“. Materials Science has evolved dramatically in the last 20 years and the cutting edge activities in this area are now deeply rooted in the Nanoscience revolution.
- Sitio web
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https://icmab.es
Enlace externo para INSTITUT DE CIÈNCIA DE MATERIALS DE BARCELONA (ICMAB-CSIC)
- Sector
- Servicios de investigación
- Tamaño de la empresa
- De 201 a 500 empleados
- Sede
- Bellaterra, BARCELONA
- Tipo
- Agencia gubernamental
- Fundación
- 1986
- Especialidades
- Materials for information science and electronics, Materials for energy and environment, Materials for nanomedicine y Nanomaterials
Ubicaciones
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Principal
Bellaterra, BARCELONA 08193, ES
Empleados en INSTITUT DE CIÈNCIA DE MATERIALS DE BARCELONA (ICMAB-CSIC)
Actualizaciones
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We are very sad about the passing of Honorific Emeritus Professor Miguel Ángel Alario Franco. Our thoughts are with his friends and family. https://lnkd.in/drHnV6uZ
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In situ shaping of intricated 3D bacterial cellulose constructs using sacrificial agarose and diverted oxygen inflow https://bit.ly/3YZ1FLd
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"The quantum metric of electrons with spin-momentum locking" by Giacomo Sala (9th Sep 2024) The Seminars and Training Committee kindly invites you to the following Invited Seminar: https://bit.ly/3YY3Vm0
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🚀 The Nanomol-Bio group from ICMAB-CSIC and CIBER-BBN is part of the European project PHOENIX, a key initiative aimed at advancing the transfer of nanopharmaceuticals from basic research to clinical trials. Are you ready to leverage our expertise? Don’t miss our PHOENIX Satellite Event online: "PHOENIX, a new player bridging nano-pharmaceutical innovation from design to clinic." 🗓 Date: September 13th, 10:00 AM CET 🔗 Register here: https://lnkd.in/dg-sqtmV 📌 More info at: https://lnkd.in/dBYK-kbk PHOENIX is dedicated to helping innovators overcome the notorious "innovation valley of death", facilitating the journey of nanopharmaceuticals from the lab bench to clinical trials. As an Open Innovation Test Bed (OITB), PHOENIX offers a seamless Single Entry Point (SEP) to a robust network of facilities, cutting-edge technologies, and expert services, covering every aspect of R&D, technology transfer, and beyond. From characterization and testing to scale-up, GMP manufacturing, and regulatory guidance, we ensure your innovations reach the clinic efficiently and cost-effectively. 🔍 PHOENIX-OITB services include: + Physicochemical characterization + In vitro characterization + In vivo characterization + Manufacturing + Innovation and regulatory support Join us to discover how PHOENIX can help you bring your nanopharmaceutical innovations to life! PHOENIX OITB #nanopharmacy #innovation
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Multifunctionalized zirconium-based MOF as a novel support for dispersed copper: application in CO2 adsorption and catalytic conversion https://bit.ly/3Mn7j2d
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INSTITUT DE CIÈNCIA DE MATERIALS DE BARCELONA (ICMAB-CSIC) ha compartido esto
🌍 The project ICONIC tackles carbon and nitrogen circularity, one of the global environmental challenges. Coordinated by ICFO Prof. F. Pelayo García de Arquer, the team aims to convert seawater carbonates and nitrates into widely used chemicals and other valuable feedstocks. 🧑🤝Meet the team: Delft University of Technology Technical University of Munich Trinity College Dublin Institut Català de Nanociència i Nanotecnologia (ICN2) INSTITUT DE CIÈNCIA DE MATERIALS DE BARCELONA (ICMAB-CSIC) https://iconicproject.eu
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INSTITUT DE CIÈNCIA DE MATERIALS DE BARCELONA (ICMAB-CSIC) ha compartido esto
💥 The Nanomol-bio group, which belongs to ICMAB-CSIC and CIBER-BBN, is participating in a public-private collaboration project funded by the AEI. In this project, together with the companies Esteve Química, S.A. and NANOMOL TECHNOLOGIES SL, new micro- and nanoparticulate pharmaceutical intermediates with controlled physicochemical properties are being produced to improve their pharmacological properties 🔝
🌟 We are thrilled to announce a new partnership between leading small molecule API CMO Esteve Química, S.A., and NANOMOL TECHNOLOGIES SL, and INSTITUT DE CIÈNCIA DE MATERIALS DE BARCELONA (ICMAB-CSIC) research center, experts in particle engineering and characterization. Over the next three years, we aim to develop scalable, efficient, and sustainable techniques for producing micro- and nanoparticulate drug intermediates with enhanced solubility, bioavailability, and controlled solid form. 🤝 The drug development process is both expensive and risky. To overcome these challenges and add value, the three entities have joined forces in the PHASOL project, a public-private collaboration funded by the Agencia Estatal de Investigación (Spanish government) through MRR funds. PHASOL uses advanced particle technologies such as compressed fluid precipitation and spray drying. This initiative aims to foster collaboration between the three entities, leading to innovative solutions for the production of pharmaceutical intermediates, ultimately improving quality, efficacy, and safety. 🔬 The ICMAB-CSIC research is led by the Nanomol-bio group, which belongs to CIBER network and has the TECNIO recognition. The preparation of the particulate products using green compressed fluids is carried out at the SOFT service/U6 of the @Nanbiosis-ICTS. 🚀 Stay tuned as we revolutionize the pharmaceutical industry! #Pharmaceuticals #Innovation #Collaboration #DrugDevelopment #Bioavailability #Sustainability #SprayDrying #CompressedFluids
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INSTITUT DE CIÈNCIA DE MATERIALS DE BARCELONA (ICMAB-CSIC) ha compartido esto
🧪 ICN2 has collaborated on a study exploring the role of electronic spin configuration in #catalysts for improving chemical reactions and developing robust Lithium-sulfur #batteries. 🔋 🤝 IREC - Institut de Recerca en Energia de Catalunya | INSTITUT DE CIÈNCIA DE MATERIALS DE BARCELONA (ICMAB-CSIC) | ALBA Synchrotron | Università di Catania Lanzhou University | South China Normal University | University of Wollongong | Chengdu University (CDU) | Chongqing University of Technology - "重庆理工大学"
📢Latest developments towards enhancing Li-S batteries through electronic spin manipulation from IREC - Institut de Recerca en Energia de Catalunya researchers and co-workers. This research, conducted by Yu Jing and Chen Huang as first authors and co-led by ICREA Prof. andreu cabot, head of the Functional Nanomaterials department, explored the role of the electronic spin configuration in the design of catalytic additives in a study published in two prestigious journals: ACS Nano (from American Chemical Society) and Advanced Materials (from Wiley). In the recently published study “Electronic Spin Alignment within Homologous NiS2/NiSe2 Heterostructures to Promote Sulfur Redox Kinetics in Lithium-Sulfur Batteries” from Advanced Materials, researchers could activate the Li-S reaction using catalysts to maximize the capacity and stability of Li-S batteries. Here, hollow NiS2/NiSe2 heterostructures encapsulated in a nitrogen-doped carbon matrix (NiS2/NiSe2@NC) were synthesized and used as a catalytic additive in sulfur cathodes. The high spin configuration of the resulting heterostructure raises the electronic energy level, activating the electronic state. This accelerated the charge transfer and optimized the adsorption energy, lowering the reaction energy barrier of the polysulfides conversion. In the parallel study “Promoting Polysulfide Redox Reactions through Electronic Spin Manipulation” from ACS Nano, researchers manipulated the electronic spin configuration, through defect engineering, of a catalyst to improve LSB performance. Specifically, they introduced Co vacancies to CoSe nanosheets, the chosen catalytic material for the study. This manipulation changed how the electron spins were arranged increasing the number of unpaired electrons aligned in the same direction. Consequently, less energy was needed for the lithium-sulfur redox reaction to occur and the formation of Li2S was more consistent and even. In other words, the manipulation of the electronic spin configuration resulted in a more efficient and stable battery. These studies are relevant since they show that the manipulation of the spin state distribution resulted in highly improved LSB performance, with higher capacity, and longer-lasting stability. This demonstrates the need for considering electron spin distribution in the design of electrocatalysts, particularly for designing more efficient and cost-effective LSBs. This research was a collaborative effort, with invaluable contributions from researchers at the IREC - Institut de Recerca en Energia de Catalunya, Institut Català de Nanociència i Nanotecnologia (ICN2), INSTITUT DE CIÈNCIA DE MATERIALS DE BARCELONA (ICMAB-CSIC), ALBA Synchrotron, 兰州大学, 华南师范大学, University of Wollongong, among other. Their collective expertise and dedication have been instrumental in this pioneering study. 🔗https://lnkd.in/ddKnZwtz #IRECpapers
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INSTITUT DE CIÈNCIA DE MATERIALS DE BARCELONA (ICMAB-CSIC) ha compartido esto
🎉 After months of hard work and dedication, our article on flexible perovskite photovoltaics for IoTs has been published in the prestigious Nano Energy journal! 🥳 The article highlights the potential of indoor #flexible #perovskite #photovoltaics (f-PPV) for the Internet of Things (IoT). It provides an in-depth exploration of key metrics in dim indoor lighting conditions, focusing on different indoor light sources, optimal performance through perovskite #passivation, and the optimization of #bandgap and ideality factors to enhance the performance of indoor f-PPVs. Additionally, it examines strategies for boosting the #efficiency and #stability of f-PPVs, with a particular focus on selecting appropriate flexible #substrates and #fabrication techniques suitable for mass production. The article addresses significant challenges and offers guidelines for developing efficient and stable f-PPVs, aiming to support their #commercialization within the #IoT ecosystem. Link: https://lnkd.in/grb9m9Gg Many congratulations to Muhammad Zain Qamar on your first publication as lead author! Your hard work and dedication have truly paid off! 🎈👏 A heartfelt thank you to professors Yogendra Kumar Mishra, Wing Chung Tsoi, and Aung Ko Ko Kyaw for their invaluable contributions and support in enhancing the quality of this work. Your expertise and guidance have been instrumental in achieving this milestone. SDU Sønderborg - University of Southern Denmark Swansea University Southern University of Science and Technology INSTITUT DE CIÈNCIA DE MATERIALS DE BARCELONA (ICMAB-CSIC) Elsevier #research #publication #energy #chemistry #journal #science