A game changer for #wearableTech : Electrode ⚡️ material allows 33x more #energy storage in #wearables
ow.ly/m3Ww50RlRsI
#ElectrodeMaterial #EnergyStorage #WearableGadgets #SmartTech #WearableDevices
Robertson and (Chemistry Edinburgh, Physics Astro @ Edin, Job Thijssen (he/him)) introduced a thiourea #Bismuth iodide complex as an #ElectrodeMaterial for #Supercapacitors with a 600 times higher #Capacitance compared to similar 0‐dimensional bismuth halide materials.
doi.wiley.com/10.1002/batt.2…
📢 Read our Review paper
📚 Novel Materials for #HeavyMetalRemoval in #CapacitiveDeionization
🔗 mdpi.com/2076-3417/13/9…
👨🔬 by Prof. Dr. Yuehui Chen et al.
#electrodematerial #electrosorption
MDPI Encyclopedia MDPI MDPI Engineering
Eco-friendly, electrochemically active #electrodematerial based on covalently linked amino acid arginine via its guanidine group to #graphene surface was prepared via #chemistry of #fluorographene . Czech Advanced Technology and Research Institute Univerzita Palackého VŠB – Technická univerzita Ostrava IT4Innovations …mistry-europe.onlinelibrary.wiley.com/doi/epdf/10.10…
Weak or imperfect welds, improperly located welds, electrode tip sticking, or slowed cycle times? #ElectrodeMaterial hub.am/1gsVx1W
The chemistry of bismuth can be applied across multiple fields #IYPT_WileyChem : Robertson et al. @NeReChem The University of Edinburgh report thiourea bismuth iodide as an #ElectrodeMaterial for supercapacitors Batteries & Supercaps ow.ly/9aLW50xBRbq
Li, Chen and co-workers (Jiangsu University) reported the use of #IronPhosphide on #Carbon as a #BinderFree #ElectrodeMaterial for #SodiumIonBatteries . Check it out!
#FreeToRead at doiwoley.com/10.1002/batt.2…
TiSb2 is a promising #ElectrodeMaterial for #EnergyStorage . Goikolea, Ajuria and co-workers (@cicenergigune, UPV/EHU) combined TiSb2 with #ActivatedCarbon in a #LithiumIonCapacitor and achieved outstanding #EnergyDensity .
#FreeToRead at doi.wiley.com/10.1002/batt.2…
An international research team from the UNSW investigated a new type of positive #electrodematerial with “unprecedented stability”, that can be used in durable solid-state #batteries to power #electriccars and more.
To read the full story, visit: buff.ly/3FQGWPL
#EV
Aluminium-ion #batteries with improved capacity: Gauthier Studer, Birgit Esser POLiS_Cluster & #livMatS researchers Ingo Krossing and Anna Fischer develop organic redox polymer as positive #ElectrodeMaterial based on phenothiazine. #energy #energy storage
➡️livmats.uni-freiburg.de/en/news-press/…
Engineered #electrodematerial moves #battery development closer to fast charging Science Magazine phys.org/news/2020-10-e…
Wondering what today's question is about? Just click on the video and find out. #clusterpolis #electrodematerial #gravimetricenergydensity #battchat
[Highlight Review]
Boron-doped diamond powder (BDDP) | Boron-doped nanodiamond (BDND) | Electrochemistry
Review by Dr. Takeshi Kondo Tokyo University of Science (TUS) (Tokyo University of Science) is available as Open Access
#ElectrodeMaterial #Boron #Nanodiamond #Conductivity
journal.csj.jp/doi/abs/10.124…
New Special Issue: Amperometric Sensing
Editors: Maria Rachele Guascito, Francesco Milano, Livia Giotta
Submission Deadline: 15 August 2019
More details at mdpi.com/si/22093
#AmperometricSensing #Lab -on-chip #Microfluidic #electrodematerial
MnO2 is a promising #electrodematerial due to its high theoretical #capacitance and neutral electrolytes. However, it is challenging to achieve a high capacitance at important high active mass loadings. (2/5)
Engineered #electrodematerial moves #battery development closer to fast charging Science Magazine phys.org/news/2020-10-e…
Check out this article from Acta Cryst B titled 'Resolving the structure of V3O7·H2O and Mo-substituted V3O7·H2O.'
ow.ly/zQwy50LkrA5
#OpenAccess
IUCr #HydratedVanadate #ElectrodeMaterial
Shi et al report how intercalation of Ni into SnS2 results in metallic-state 2D #nanosheets . for use as an #electrodematerial in high-performance #SodiumIonBattery with high reversible capacity and good rate capability. doi.wiley.com/10.1002/cssc.2…