Senior Editor @ Nature Nanotechnology, Electrochemist, Battery Scientist, Open Science Supporter, Italian Expat, Antispecist. (((once scientist always scientist))) Views are all mine
📍Berlin 🇩🇪
Rinaldo Raccichini
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Ionics is important in electrochemical energy technologies… but what about electrodics? 🤔
Not sure what electrodics is? Then read the newly published article by @jelenaneuber.bsky.social in @natnano.nature.com 📰✨
www.nature.com/articles/s41...
Is the role of Co and Mn the same in single-crystal and polycrystalline Ni-rich battery positive electrode active materials? 🔎🤔🔋
You can find the answer to this question in the latest @natnano.nature.com battery research article 🤩😎
#battchat #batteries #energy
www.nature.com/articles/s41...
Is there a way to optimize the synthetic process of transition metal-doped Ni-rich battery positive electrodes? 🤔🔎⚗️🔋
You can find the answer to this question in the latest @natnano.nature.com battery research article 🤩😎
www.nature.com/articles/s41...
#batteries #battchat #electrochemistry
Do you want to understand and accurately evaluate the #sustainability of a #nanotechnology in the #energy and #electronic fields?🤔🌍♻️⚙️
Then read the new @natnano.nature.com review article by Jennifer Rupp from the Technical University of Munich and colleagues 📰🌟📢
www.nature.com/articles/s41...
Electrodics is the branch of electrochemistry that studies electrode processes, such as charge dynamics, at their interface with the electrolyte. In this Comment, I argue that more emphasis should be ...
This study elucidates nanoscopic strain evolution in single-crystal Ni-rich positive electrodes, demonstrating that mechanical failure results from lattice distortions, and redefines the roles of coba...
This Review establishes a roadmap to improve the sustainability of functional ceramics through a holistic approach that combines low-energy and low-CO2 production methods, recycling strategies and sup...
Electrodics is not a detail. It’s the control knob.
A new @natnano.nature.com research article shows how to tune polarity at the electrode|electrolyte solution interface to improve stability of #batteries.
If ionics is transport, electrodics is control.
www.nature.com/articles/s41...
#battchat
Composite solid-state battery electrolytes showing ionic conductivity ranging from 6.1 to 10.2 mS/cm at 25 °C have just been reported in the first 2026 battery research article published in @natnano.nature.com…check this out 😎
#batteries #battchat #electrochemistry
www.nature.com/articles/s41...
Rinaldo Raccichini
Rinaldo Raccichini
Are you wondering what electronic structure in positive electrodes enables oxygen participation during battery operation❓ 🤔
You could probably find the answer to this question in the latest @natnano.nature.com #openaccess battery research article 😎
#batteries #battchat
www.nature.com/articles/s41...
Can tuning the secondary solvation shells of liquid electrolyte solutions in zinc metal batteries improve their performance❓ 🤔
Check the latest @natnano.nature.com battery research article to find the answer to this question 😎
#batteries #battchat #electrochemistry
www.nature.com/articles/s41...
Rinaldo Raccichini
Can an interphase formed at the electrode|electrolyte interface in zinc #batteries be entirely liquid rather than solid❓🤔
Check the latest @natnano.nature.com #openaccess battery research article to find the answer 😎
#electrolytes #battchat #electrochemistry #energy
www.nature.com/articles/s41...
Are you involved in electrolyte solutions R&D for batteries?🔋 Struggling to connect fundamental properties to device performance? 🤔 Make life easier 😎 — check out the latest @natnano.nature.com review on this topic! 🚀 #batteries #electrolytes #energy #battchat
www.nature.com/articles/s41...
Rinaldo Raccichini
A molecular engineering strategy using self-assembled monolayers to modulate interfacial polarity stabilizes high-potential lithium metal batteries by regulating interfacial solvent interactions and s...
Highly ionically conductive and flexible solid-state composite battery electrolytes are engineered by alternately stacking inorganic LixMyPS3 (M = Cd or Mn) nanosheets with lithium-containing organic ...
Aqueous electrolyte solutions formulated to extend anion coordination into the secondary solvation shell improve the electrochemical utilization of the Zn metal electrode, leading to more efficient zi...
Redox electrons in lithium-based battery positive electrodes originate from hybridized orbitals. Combined characterization methods show that across the 3d transition metal series, their origin shifts,...
A hydrophobic, electrode‑philic ether additive self‑assembles into a nanoscale liquid electrolyte interphase that decouples interfacial and bulk electrolyte behaviour, suppresses water‑driven parasiti...
This Review provides insights into the nanoscale physicochemical and electrochemical processes in non-aqueous electrolyte solutions for lithium metal batteries and explores emerging research direction...
