“Never charge to 100%” works for many chemistries, but LFP can be different. ⚙️ 

LFP has a flat mid-charge voltage, so many devices balance cells only near 100%. 
That last 5% finishes the sync. ✅ 

If you have LFP, how often do you do a full charge?

#BatteryScience #LFP

Fast to 80%, then a crawl? 🐢 That is your phone protecting the cell. As state of charge increases, voltage rises; the charger tapers current to limit stress and heat. The “slow” zone is a safety feature, not wasted time. Do you cap your daily charge or go to 100%?

#BatteryScience #EVerydayBatteries

🔋 Why does your phone battery get worse over time? Stress, heat, and chemical reactions slowly rob it of charge. Treat it gently, keep it cool, and accept its limits! 😅

Watch the full video 👉 youtube.com/shorts/ZRRNH...

#TeamCompSci #CraignDave #BatteryScience #TechExplained

Exciting advancements! 🌟 This research could truly revolutionize battery tech, enhancing safety and longevity. Here’s to a sustainable future powered by innovation! 🔋✨

#BatteryScience #Sustainability

Batteries 101:

– Voltage = measured outside the cell
– Potential = what’s happening inside, with the ions

Same number, different framing. Which term do you use without even thinking? 💡

#BatteryScience #Electrochemistry

Bringing deformability to lithium metal - Nature Energy Void formation between the solid electrolyte layer and electrode is a critical barrier to the long-term operation of solid-state batteries. Now, an electrochemically inactive yet mechanically soft metallic phase is integrated into the lithium metal anode, which preserves the electrical contact and enables reliable operation in practical cell settings.

Battery research update: New research on bringing deformability to lithium metal demonstrates potential advances in battery technology. ⚡ www.nature.com/articles/s41... #EnergyResearch #BatteryScience

Understanding the internal electrochemical inhomogeneity in cylindrical LFP cells based on a 3D lithium-ion battery model Electrochemical inhomogeneity in lithium-ion batteries (LIBs) significantly impacts performance and accelerates degradation over their lifespan. This …

Worth checking out: Is this what the battery industry needs? Could uneven lithium distribution inside cylindrical LFP cells be holding them back? A new 3D battery model reveals ele... www.sciencedirect.com/science/arti... #BatteryScience #EnergyResearch

Investigation into the thermal response of internal short-circuit treatment of a cylindrical lithium-ion battery cell jacketed with passive cooling This study investigates the influence of passive cooling of N-octadecane phase change material (PCM) on a cylindrical 18,650 Panasonic Lithium-ion (Li…

Reading about compelling research: Battery efficiency gains possible through innovative investigation into the thermal response of internal short-circuit treatment of a cylindrical li... www.sciencedirect.com/science/arti... #BatteryScience #CleanEnergy

Highly conductive locally graphitized sheath on fibrous micro-Si anode for high-energy Li-ion battery Silicon (Si) is a promising anode material for developing high-energy-density lithium-ion batteries, yet challenges remain in improving its mechanical…

Anyone else seen this? Study highlights how highly conductive locally graphitized sheath on fibrous micro-si anode for high-energy li-ion battery could impact future energy stor... www.sciencedirect.com/science/arti... #BatteryScience #BatteryTechnology

Lithium-exchanged molecular sieve-functionalized liquid crystal elastomer solid-state electrolyte for high-performance lithium metal batteries Interfacial problems associated with conventional polymer electrolytes, specifically lithium dendrite growth and side reactions, critically hinder sol…

Study highlights how lithium-exchanged molecular sieve-functionalized liquid crystal elastomer solid-state electrolyte for high-performance lithium metal batteries could impact ... www.sciencedirect.com/science/arti... #BatteryTechnology #BatteryScience

Inconsistency assessment of lithium-ion battery pack for electric vehicles based on randomized charging segments With the widespread application of electric vehicles, the inconsistency problem within lithium-ion battery packs is becoming increasingly serious, whi…

Following this research: 🔋 Battery breakthrough? Scientists exploring inconsistency assessment of lithium-ion battery pack for electric vehicles based on randomized charging segme... www.sciencedirect.com/science/arti... #BatteryScience #EnergyResearch

Enhanced stability analysis of a delayed T–S fuzzy load frequency control system integrated with a battery energy storage system This paper investigates the delay-dependent stability of load frequency control (LFC) power systems integrated with a battery energy storage system (B…

Battery research update: 🚗 Is this what the battery industry needs? Can fuzzy logic make batteries smarter? This study shows how integrating T–S fuzzy control with energy storage... www.sciencedirect.com/science/arti... #RenewableEnergy #BatteryScience

An expansion force-based method for accurate state of charge estimation across the entire lifecycle of lithium-ion batteries Accurate state-of-charge (SOC) estimation is critical for lithium-ion battery safety and performance. Conventional approaches relying solely on voltag…

Interesting findings here: Exciting development in an expansion force-based method for accurate state of charge estimation across the entire lifecycle of lithium-ion batteries could a... www.sciencedirect.com/science/arti... #CleanEnergy #BatteryScience

Dual-function triethyl phosphate@fumed silica-based gel electrolytes for enhancing anode performance in lead‑carbon batteries The irreversible sulfation of the anode and hydrogen evolution issues in lead-acid batteries pose critical challenges that constrain their development…

🔬 Study highlights how dual-function triethyl phosphate@fumed silica-based gel electrolytes for enhancing anode performance in lead‑carbon batteries could impact future energy sto... www.sciencedirect.com/science/arti... #Sustainability #BatteryScience

Novel equivalent circuit battery model with adaptive parameters for hybrid state of charge estimation Due to the increasing demand in electric vehicles (EVs), developments in lithium-ion battery technology are progressing rapidly. As the performance, r…

Reading about fascinating research: 🚀 New research on novel equivalent circuit battery model with adaptive parameters for hybrid state of charge estimation demonstrates potential... www.sciencedirect.com/science/arti... #RenewableEnergy #BatteryScience

Effect of terminal resistance and SoH asymmetry on parallel cell interaction and battery system degradation In large-scale battery systems, differences in internal and terminal resistance among individual cells induce current imbalance and circulating curren…

Fascinating approach: Why do some battery packs degrade faster? This study reveals how resistance differences and state-of-health imbalances between parallel cells accelerate wear—ins... www.sciencedirect.com/science/arti... #CleanEnergy #BatteryScience

Hybrid metallic phase change materials based battery thermal management system embedded with circular hollow fins for higher discharge rates Battery thermal management systems (BTMS) require advanced and effective solutions for fast charging/discharging scenarios. The application of phase c…

Spotted fascinating research: Battery efficiency gains possible through innovative hybrid metallic phase change materials based battery thermal management system embedded with cir... www.sciencedirect.com/science/arti... #BatteryScience #RenewableEnergy

Solvent-free processing of lithium-ion batteries via plasma treatment of electrodes for adhesive interfaces The demand for lithium-ion batteries (LIBs) continues to increase as the world shifts toward sustainable energy solutions. However, conventional elect…

Discovered impressive research: 🌱 Solvent-free processing of lithium-ion batteries via plasma treatment of electrodes for adhesive interfaces might transform how we think about en... www.sciencedirect.com/science/arti... #EnergyResearch #BatteryScience

Next steps for battery diagnostics Batteries are a cornerstone of expanding sustainable infrastructure. Battery behavior has an impact on consumers recharging their electric vehicles, i…

Thoughts on this research? Next steps for battery diagnostics might transform how we think about energy storage. 🚀 www.sciencedirect.com/science/arti... #BatteryChat #BatteryScience

Rechargeable asymmetric zinc-nitrate/glycerol batteries synergizing chemical valorization and energy conversion Aqueous rechargeable zinc (Zn)-based batteries are promising for safe and sustainable energy storage. In addition to energy storage, Zn-based batteries can be utilized for value-adding electro-reducti...

⚡ I think this promising innovation! what if your battery could store energy and make valuable chemicals? zinc-nitrate/glycerol batteries do just that—combining energy storage with chemical valorizati... pubs.rsc.org/en/Content/A... #EnergyResearch #BatteryScience

Sulfur-assisted thermal reduction synthesis of MoO2/Mo4O11 materials as high-performance cathodes for aqueous zinc-ion batteries A MoO2/Mo4O11 hetero-junction material prepared by a simple sulfur-assisted thermal reduction technique as the cathode of a water-based zinc-ion batte…

🌱 Study highlights how sulfur-assisted thermal reduction synthesis of moo2/mo4o11 materials as high-performance cathodes for aqueous zinc-ion batteries could impact future energy ... www.sciencedirect.com/science/arti... #BatteryScience #EnergyResearch

Combined effect of cycle aging and temperature on the variation of the open-circuit voltage of lithium cobalt oxide batteries A key focus in studying lithium-ion batteries (LiBs) is the estimation of their actual capacity. To this end, many algorithms rely on the relationship…

Really excited about this research: Research team tackles combined effect of cycle aging and temperature on the variation of the open-circuit voltage of lithium cobalt oxide batter... www.sciencedirect.com/science/arti... #BatteryScience #EnergyResearch

Sea urchin-like NiCo2O4/Fe3O4 nanocomposite as a high-performance dual-functional material for advanced lithium-ion batteries and supercapacitors The development of advanced electrode materials with multifunctional electrochemical properties is critical for next-generation energy storage systems…

Worth checking out: Will this accelerate EV adoption? Can a sea urchin-inspired nanocomposite power the future? NiCo₂O₄/Fe₃O₄ designs deliver superior e... www.sciencedirect.com/science/arti... #BatteryTech #Innovation #BatteryTechnology #BatteryScience

Complete solid-solution reaction and reversible anionic redox chemistry in sodium-ion batteries enabled by local structure regulation and charge compensation Layered iron/manganese-based oxides, recognized as promising cathode candidates for sustainable energy storage due to their high energy density and na…

Battery research update: Game-changing potential: Sodium-ion batteries just got a boost! By tweaking local structures, this study unlocks reversible anionic redox chemistry, paving... www.sciencedirect.com/science/arti... #Sustainability #BatteryScience

A hierarchical channel structured separator with regulated ion transport and high thermal stability for lithium-ion batteries The separator plays an important role in transporting ions and preventing thermal runaway, which affects the safety of lithium-ion batteries (LIBs). H…

Impressed by this research: Could a hierarchical channel structured separator with regulated ion transport and high thermal stability for lithium-ion batteries be the key to better... www.sciencedirect.com/science/arti... #Sustainability #BatteryScience

Temperature prediction by graph convolutional network with transformer for lithium-ion battery to improve the thermal management system As lithium-ion batteries become increasingly popular, their safety and performance need to be improved to ensure reliability for users. This can be ac…

Thoughts on this research? Breakthrough material! 🪫 I'm excited to see how this can ai predict battery temperatures better? using a graph convolutional network combined with a tra... www.sciencedirect.com/science/arti... #BatteryScience #EnergyResearch

A high-precision multi-channel rapid detection method for dynamic and static impedance spectroscopy of lithium batteries based on programmable current excitation Electrochemical Impedance Spectroscopy (EIS) is an efficient technique for evaluating the health status and sorting of lithium-ion batteries. This stu…

Study highlights how a high-precision multi-channel rapid detection method for dynamic and static impedance spectroscopy of lithium batteries based on programmable current excitation ... www.sciencedirect.com/science/arti... #BatteryChat #BatteryScience

Consumers' local and general acceptance of energy storage systems utilizing retired electric vehicle batteries As electric vehicles become a key option for transport decarbonization, the issue of managing retired electric vehicle batteries is drawing attention …

New research on consumers' local and general acceptance of energy storage systems utilizing retired electric vehicle batteries demonstrates potential advances in battery technolog... www.sciencedirect.com/science/arti... #RenewableEnergy #BatteryScience

Fe-Zn bimetallic synergistic catalysts derived from hollow ZIF-8 for efficient ORR/OER bifunctional catalysis in rechargeable zinc-air batteries The Zinc-air battery with high theoretical energy density and long-term stability are regarded as crucial for clean energy conversion devices. Neverth…

Anyone else seen this? 🚀 Just published: fe-zn bimetallic synergistic catalysts derived from hollow zif-8 for efficient orr/oer bifunctional catalysis in rechargeable zinc-air bat... www.sciencedirect.com/science/arti... #EnergyResearch #BatteryScience

Dual oxygen and sulfur vacancies modulation of SnO2/SnS2/C anodes for high performance Li/Na-ion batteries The rational design of the structure of tin-based electrode materials is crucial to alleviate their volume expansion and capacity decay during energy …

Just found interesting research: 🚀 New research on dual oxygen and sulfur vacancies modulation of sno2/sns2/c anodes for high performance li/na-ion batteries demonstrates potenti... www.sciencedirect.com/science/arti... #BatteryScience #RenewableEnergy