Researchers from Germany, Italy, and the UK have achieved a major advance in the development of materials suitable for on-chip energy harvesting.
Tech Xplore’s Post
More Relevant Posts
-
📚 Thrilled to share our recent review article: "Recent Advances on Nitrogen-doped Porous Carbons Towards Electrochemical Supercapacitor Applications" ⚡🔋 🔬 In this comprehensive review, we delve into the latest developments in nitrogen-doped porous carbons, exploring their potential for revolutionizing electrochemical supercapacitor technology. This work reflects the collective efforts of our research team in bridging the gap between materials science and sustainable energy solutions. 💡 🌟 I'm immensely grateful for the guidance and support provided by my supervisor, Dr. Manzar Sohail throughout the journey of crafting this review. His expertise has been invaluable in shaping this research. 🤝 🌐 For those interested, the full article can be accessed here https://lnkd.in/dwn2ic6B #Supercapacitors #MaterialsScience #NitrogenDopedCarbons #EnergyStorage #ReviewArticle #Innovation #Electrochemical #Research #NitrogenDopedCarbons
Recent Advances on Nitrogen‐doped Porous Carbons Towards Electrochemical Supercapacitor Applications
onlinelibrary.wiley.com
To view or add a comment, sign in
-
Faculty Member @ São Carlos Institute of Chemistry, of University of São Paulo | QTNano Group | Center of Innovation on New Energies | ⚛️ Computational Materials Science, Physics, and Chemistry | Researcher CNPq 1A ...
#QTNano: In 2018, our research group embarked on theoretical inquiries into energy storage systems, employing molecular dynamics grounded in force-field calculations. After considering various potential paths, including Li-ion batteries, our collaborative endeavors directed us towards concentrating on Na-ion batteries, acknowledging their considerable promise in the realm of energy storage, particularly for stationary applications. We are delighted to share an illuminating dissemination article from Northvolts (Sweden), highlighting their state-of-the-art Na-ion battery technology. Below, we offer links to several of our related studies: https://lnkd.in/dHbFyv6F https://lnkd.in/deE3VTTi https://lnkd.in/dYcDk8fG https://lnkd.in/dWQ3R8vH https://lnkd.in/dXC8H4Rg https://lnkd.in/dRrjk6q5 https://lnkd.in/dj3JcZEr https://lnkd.in/dMY8DrEt For additional papers, please, look at our ResearchGate, https://lnkd.in/dj4Jx874 #energy #storage #sodium #batteries #mechanism #transport #electrolytes #descarbonização #moleculardynamics #atomistic #simulations #northvolt https://lnkd.in/dzJ3wFtx
Northvolt develops state-of-the-art sodium-ion battery
northvolt.com
To view or add a comment, sign in
-
ORNL researchers are developing innovative #battery technologies that tackle #climatechange by expanding #renewableenergy use and capturing airborne carbon dioxide.
Carbon-capture batteries developed to store renewable energy, help climate | ORNL
ornl.gov
To view or add a comment, sign in
-
#PublicationAlert Thrilled to announce the publication of my latest research article on CZTS-based solar cell in #ScientificReports. This work delves into the numerical modeling and simulation of CZTS-based solar cell utilizing various copper-based HTLs. Check it out now! https://lnkd.in/gimmGpaZ https://rdcu.be/dpC9H #publicationalert #solarcell #CZTS #ecofriendly #simulationsoftware
SCAPS study on the effect of various hole transport layer on highly efficient 31.86% eco-friendly CZTS based solar cell - Scientific Reports
nature.com
To view or add a comment, sign in
-
⚡ Rewiring photosynthetic electron transport chains for solar energy conversion | Nature Discover more at "voltsbase.com/energy" #Energy #Voltsbase
Rewiring photosynthetic electron transport chains for solar energy conversion
nature.com
To view or add a comment, sign in
-
I am pleased to inform you that the work entitled "Improvement of positive plate grid corrosion resistance through two methods of boric acid addition to lead-acid battery electrolyte" has been accepted for publication in the Journal of Energy Storage. In this investigation, boric acid (H3BO3) was studied as an electrolyte additive to increase the corrosion resistance of the positive plate of a Lead-Acid Battery (LAB). Thus, the innovation provided by this work is based on the method of addition employed. So, the H3BO3 effect on the LAB performance was measured when the addition was performed before and after the LAB formation. Furthermore, a previous electrochemical characterization was carried out in a three electrode cell to understand the effect of this additive on the grid of a positive plate. Lastly, I would like to thank my PhD directors (Professor P. Ocón and Dr. J. Valenciano) and my colleagues at the Universidad Autónoma de Madrid and the R&D Exide Group team, especially R. Tomey and Dr. H. Fricke, for all their work and help. Pilar Ocon Jesús Valenciano Dr. Holger Fricke Rafael Tomey Prieto #leadacidbattery #LAB #boricacid #corrosion #electrochemistry #testing #battery #energystorage
Improvement of positive plate grid corrosion resistance through two methods of boric acid addition to lead-acid battery electrolyte
sciencedirect.com
To view or add a comment, sign in
-
“Now, scientists at the University of Würzburg in Bavaria, Germany believe they may have discovered the structure needed to massively enhance solar power production. Researchers recently published a study in the journal Chem demonstrating the use of a URPB system – standing for ultraviolet, red, purple, and blue, which is based on the photosynthetic antennae in plants and bacteria that are capable of efficiently capturing sunlight.” Read more about this new discovery in solar panel energy from OilPrice.com. https://lnkd.in/g-9hx2A9
New Technology Could Revolutionize Solar Power | OilPrice.com
oilprice.com
To view or add a comment, sign in
-
📢 Exciting News! Our team has just published a groundbreaking review article in the prestigious Journal of Energy Storage, one of the top-ranked journals in the field of electrochemistry. 📚 🔋 Titled "Review on current state, challenges, and potential solutions in solid-state batteries research” our review delves deep into the world of Solid-State Electrolytes (SEs) and their incredible potential to revolutionize energy storage. 🌟 Here's a sneak peek at what our article covers: ✅ SEs as a superior alternative to conventional liquid electrolytes. ✅ Enhanced energy density, safety, and solutions to Li-ion battery challenges. ✅ High thermal stability, wide electrochemical window, and more! 🛠️ But that's not all! We also discuss the challenges that need further exploration, such as mechanical and chemical stability, ionic transport, and more. Plus, we shed light on potential solutions and future research directions. 💡 Our article even makes a case for multi-scale computational techniques, using a blend of quantum mechanics, molecular dynamics, and macro-scale mathematical modeling. 🧪📊 🔬 Join us in exploring the electrifying world of Solid-State Batteries! Read the full article here: https://lnkd.in/gSBrQ_cV 🎓I had the honour to collaborate with Zahra Moradi, Ramavtar Tyagi, PhD, and Seshasai Srinivasan in this work. #EnergyStorage #SolidStateBatteries #ResearchBreakthrough
Review on current state, challenges, and potential solutions in solid-state batteries research
sciencedirect.com
To view or add a comment, sign in
-
Happy to share our latest publication in Renewable and Sustainable Energy Reviews (Impact Factor: 16.3) titled "Empowering metal oxide photoanodes via zeolitic imidazolate frameworks for efficient photoelectrochemical water splitting: Current advances and future perspectives." This review highlights the promising roles of zeolitic imidazolate framework catalysts (ZIF-8 and ZIF-67) in advancing the efficiencies of well-established metal oxide photoanodes toward photoelectrochemical (PEC) water splitting. From the fundamentals of PEC water splitting to the synergistic effects of ZIFs, this comprehensive review covers critical mechanisms, existing challenges, and future research directions in ZIF-based PEC water splitting systems. Special thanks to my advisor Prof. Jun-Seok Ha and all co-authors for their invaluable contributions! #RenewableEnergy #SustainableEnergy #Photoelectrochemical #WaterSplitting #ZIFs #Photoelectrodes https://lnkd.in/gVi4mKNb
Empowering metal oxide photoanodes via zeolitic imidazolate frameworks for efficient photoelectrochemical water splitting: Current advances and future perspectives
sciencedirect.com
To view or add a comment, sign in