Nature Reviews Bioengineering is hosting the ultimate bioengineering challenge, asking students and postdocs to theoretically tackle some of the most pressing bioengineering challenges. Learn more here: https://lnkd.in/e6S2UrEp
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We invite you to submit your manuscript to our special issue "Advances in Biomedical Data Science: Methods and Applications" of the journal Bioengineering (IF 4.6).
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Bioengineering is where life sciences and engineering meet. In 2002, Stanford Bioengineering opened its doors and became the first department at the university to be jointly managed by two schools, the School of Engineering and the School of Medicine. Whether inventing transformative technologies that allow researchers to control brain cells with light, engineering new-age plants that can withstand climate change, or shaping profound new understandings of why life works — and, sometimes, why it doesn’t — the insights and innovations that come out of the Stanford Bioengineering benefit people everywhere, every day. In this video, bioengineers at Stanford take us through the last two decades of their research and teaching, and share their well-earned optimism for the future of the field. 🗞️: stanford.io/46Hb7Uy 🎥: Todd Holland
Bioengineering: Where life sciences and engineering meet
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The Science of Smiles: How Tissue Adhesive Hydrogels are Improving Patient Outcomes?? As a dentist, your top priority is ensuring your patients' smiles are healthy and beautiful. With tissue adhesive hydrogels, you can now take that commitment to the next level. By using cutting-edge techniques to bond oral tissues together, you can help your patients achieve optimal oral health and function. Let's dive into the science behind tissue adhesive hydrogels and their potential applications in dentistry...
Please check our recent paper on engineering an ultra-strong multifunctional tissue adhesive hydrogel just published in Bioactive Materials and featured on the cover! Congratulations to our wonderful PhD student, Yuting Zheng for her excellent work! UCLA Henry Samueli School of Engineering and Applied Science, UCLA Department of Bioengineering https://lnkd.in/ez7h9qMt
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"As an interdisciplinary scientist, I know team science is the best science." 🔶 🤝 🔷 Callan Luetkemeyer, an assistant professor of Mechanical Science and Engineering at the University of Illinois, joined the Beckman team as a faculty researcher. Her work aims to develop non-invasive diagnostic imaging that uses large-scale mechanics to see small-scale structure indicative of disease and degeneration. Welcome, Professor Luetkemeyer! 👏 Illinois BIOE
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Unlock the future of biomedical imaging with University of Sydney Zhuopin (Pin) Sun! Peering into the complexities of the human brain with chemical engineering skills, Zhuopin Sun is translating her curiosity and technical prowess into pioneering contributions in biomedical research. 'I was genuinely curious about understanding the brain, but given my background in chemical engineering, I also wanted to use some of my engineering skills to tackle unsolved problems in the field of biomedical research.' Take a closer look: https://lnkd.in/gKqgMKvM #MyStemPHD #MagnifyAU
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Two of our PhD students, Nerea Garcia de Albeniz Lopez de Aberasturi and Laia Ortiz Membrado, attended last week at the FEMS EUROMAT Conference in Frankfurt: 🔬 Nerea Garcia de Albeniz Lopez de Aberasturi presented her work on "Enhancement of the biological properties of 3Y-TZP by topographical modification approaches," offering promising insights into biomedical materials. 🚗 Laia Ortiz Membrado discussed "Micromechanical and microstructural characterization of the cut edge damage of Complex-Phase and Dual-Phase steels for automotive applications," contributing research to the automotive materials field.
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Copp Lab led by UC Irvine’s Stacy Copp, assistant professor of materials science and engineering, Engineers Stronger Programmable DNA Nanostructures A UC Irvine-led team of researchers is making exciting advances in DNA nanotechnologies. DNA’s sequence-encoded properties enable researchers to harness DNA as a custom molecular building block for engineering nanomaterials. These programmable nanomaterials platforms hold significant promise for a range of fields from bioelectronics and chemical sensing to nanorobotics and biomedicine. However, many of these materials also suffer from a lack of stability and can degrade in harsh environments. To read more, Link: https://lnkd.in/gCt7v3HC #materialscience #materialscienceandengineering #uci #uciengineering #article #education #engineer #engineering #DNA #Nanostructure
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Founder Director at Institute of Advanced Materials; Among World’s Top 2% Scientists; Global President at International Institute of Water; JSPS, Marie Curie, SI Fellow; Green Technology; Net Zero Translational Research
I am pleased to share the publication of our article, "The Logic Devices for Biomolecular Computing: Progress, Strategies, and Future Directions," in the prestigious journal, Nano Today (Impact Factor: 17.4). This achievement reflects over 15 years of dedicated research in programmable bioelectronics, supported by grants from European Commission and Swedish Research Council. Download Full Article: https://lnkd.in/dsdR4szb Special thanks to the International Association of Advanced Materials (IAAM) for their support through the international PhD program, pivotal in our research success. Acknowledging Debopriya Bose and all collaborators for their invaluable contributions. Interested candidates can apply for our PhD programme at research@iaam.se Our work focuses on nucleic acid-based programmable devices merging computation and biology, emphasizing DNA's data storage potential and the integration of environment-sensitive logic circuits. By employing chemical molecules for micro-environment sensing, we are ushering in a new era in bio-computing. The intersection of biology and computation has spurred innovative biomolecular logic devices, showcasing the vast capabilities of smart biotechnology. This article sheds light on current advancements and future research paths, emphasizing the transformative role of nanomaterials in computational logic devices interfacing with biological components. #Bioelectronics #BiomolecularComputing #NanoToday #Research #Innovation #BioComputing #PhD #IAAM #SmartBiotechnology #Nanomaterials Anthony Turner Zhong Lin (ZL) Wang Ali Khademhosseini Lokman Uzun Suddhasatwa Basu, FNASc, FNAE, FRSC (UK), FIE, FIAAM John J. MYERS PE, FACI, FASCE, FIAAM, FIIFC, FTMS, FVEST Dynamic Biosensors Elsevier Materials Today
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Ph.D (Mechanical Engineering) | 5+ years of research experience in nanomaterials | molecular dynamics | design
I am very pleased to share that one of our work entitled "Random topological defects in double-walled carbon nanotubes: On characterization and programmable defect-engineering of spatio-mechanical properties" has been published in a reputed Q1 journal "Advances in Nano research" #research #moleculardynamics #researchlife #researchleadership https://lnkd.in/g_Ju4PAR
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🌐 ChE Seminar Alert! 🌐 Join us for an insightful seminar on "Structural Effects in Nanoscale Electrocatalysts for Energy and Sustainability" featuring the brilliant Dr. Anna Klinkova from University of Waterloo. 🔬 🌟 About the Speaker: Professor Anna Klinkova’s research is focused on developing efficient and scalable synthetic approaches to advanced nanomaterials for applications in sustainable energy and catalysis. Her current research goals include: (1) gaining a systematic understanding of the effects of nanocrystal composition, morphology, and surface chemistry on their physicochemical properties relevant to conventional thermal catalysis, photo- and electrocatalysis, and (2) building functional (electro)catalytic devices for addressing current energy and sustainability challenges. 🔍 Seminar Highlights: Explore the structural nuances of nanoscale electrocatalysts. Understand their pivotal role in advancing energy technologies. Gain insights into sustainable applications for a greener future. 🗓️ Date: Feb 14, 2024 🕒 Time: 10:30 am 📍 Venue: HSC 1A6 #ResearchSeminar #nanoscale #sustainability #waterloo
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