ENGINEERING Energy
@engenergy.bsky.social
ENGINEERING Energy (formerly Frontiers in Energy) is an international journal presenting frontiers, innovation, and interdisciplinary energy research.
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ENGINEERING Energy
As of January 1st, 2026, the title for this journal is changing to ENGINEERING Energy. ENGINEERING Energy, formerly known as Frontiers in Energy, is an ...
link.springer.com
🚨 Important Announcement
Frontiers in Energy has been renamed ENGINEERING Energy as of January 2026
The journal’s mission, scope, indexing, and submission platform remain unchanged
We look forward to exploring the frontiers of energy in ENGINEERING Energy
link.springer.com/journal/11708
Frontiers in Energy has been renamed ENGINEERING Energy as of January 2026
The journal’s mission, scope, indexing, and submission platform remain unchanged
We look forward to exploring the frontiers of energy in ENGINEERING Energy
link.springer.com/journal/11708
🔋 Proton exchange boosts low-cost LiMn₂O₄ catalysts, delivering strong oxygen reduction (0.81 V) and excellent durability—promising a Pt-free route for fuel cells & metal-air batteries. doi.org/10.1007/s117... #Electrocatalysis #FuelCells
February 5, 2026 at 3:56 AM
🔋 Proton exchange boosts low-cost LiMn₂O₄ catalysts, delivering strong oxygen reduction (0.81 V) and excellent durability—promising a Pt-free route for fuel cells & metal-air batteries. doi.org/10.1007/s117... #Electrocatalysis #FuelCells
🌍Trash → Treasure: New review reveals how we can turn waste CO2 into green methanol (liquid fuel!) using electricity. From nano-catalysts to real-world economics—here's the roadmap to make carbon-neutral fuel actually affordable.
doi.org/10.1007/s117...
#CO2Reduction #Methanol
doi.org/10.1007/s117...
#CO2Reduction #Methanol
January 28, 2026 at 4:28 AM
🌍Trash → Treasure: New review reveals how we can turn waste CO2 into green methanol (liquid fuel!) using electricity. From nano-catalysts to real-world economics—here's the roadmap to make carbon-neutral fuel actually affordable.
doi.org/10.1007/s117...
#CO2Reduction #Methanol
doi.org/10.1007/s117...
#CO2Reduction #Methanol
📢 Aqueous Zinc-ion Batteries are promising, but Zn dendrites & side reactions remain the main hurdles for commercialization. New paper maps out the latest stabilization strategies for Zn anodes!
👉Read the article: rdcu.be/eK2Qr
#EnergyStorage #Battery
👉Read the article: rdcu.be/eK2Qr
#EnergyStorage #Battery
January 22, 2026 at 2:50 AM
📢 Aqueous Zinc-ion Batteries are promising, but Zn dendrites & side reactions remain the main hurdles for commercialization. New paper maps out the latest stabilization strategies for Zn anodes!
👉Read the article: rdcu.be/eK2Qr
#EnergyStorage #Battery
👉Read the article: rdcu.be/eK2Qr
#EnergyStorage #Battery
✈️🌱 How can biomass waste become jet fuel?
This review reveals how catalytic hydrodeoxygenation (HDO) upgrades pyrolysis bio-oil into aviation fuels, highlighting key catalysts, reaction pathways, and future challenges.
👉 rdcu.be/eZDkn
#SustainableAviationFuel #BioJetFuel #Catalysis #Biomass
This review reveals how catalytic hydrodeoxygenation (HDO) upgrades pyrolysis bio-oil into aviation fuels, highlighting key catalysts, reaction pathways, and future challenges.
👉 rdcu.be/eZDkn
#SustainableAviationFuel #BioJetFuel #Catalysis #Biomass
January 19, 2026 at 3:25 AM
✈️🌱 How can biomass waste become jet fuel?
This review reveals how catalytic hydrodeoxygenation (HDO) upgrades pyrolysis bio-oil into aviation fuels, highlighting key catalysts, reaction pathways, and future challenges.
👉 rdcu.be/eZDkn
#SustainableAviationFuel #BioJetFuel #Catalysis #Biomass
This review reveals how catalytic hydrodeoxygenation (HDO) upgrades pyrolysis bio-oil into aviation fuels, highlighting key catalysts, reaction pathways, and future challenges.
👉 rdcu.be/eZDkn
#SustainableAviationFuel #BioJetFuel #Catalysis #Biomass
🚨 Important Announcement
Frontiers in Energy has been renamed ENGINEERING Energy as of January 2026
The journal’s mission, scope, indexing, and submission platform remain unchanged
We look forward to exploring the frontiers of energy in ENGINEERING Energy
link.springer.com/journal/11708
Frontiers in Energy has been renamed ENGINEERING Energy as of January 2026
The journal’s mission, scope, indexing, and submission platform remain unchanged
We look forward to exploring the frontiers of energy in ENGINEERING Energy
link.springer.com/journal/11708
ENGINEERING Energy
As of January 1st, 2026, the title for this journal is changing to ENGINEERING Energy. ENGINEERING Energy, formerly known as Frontiers in Energy, is an ...
link.springer.com
January 12, 2026 at 3:01 PM
🚨 Important Announcement
Frontiers in Energy has been renamed ENGINEERING Energy as of January 2026
The journal’s mission, scope, indexing, and submission platform remain unchanged
We look forward to exploring the frontiers of energy in ENGINEERING Energy
link.springer.com/journal/11708
Frontiers in Energy has been renamed ENGINEERING Energy as of January 2026
The journal’s mission, scope, indexing, and submission platform remain unchanged
We look forward to exploring the frontiers of energy in ENGINEERING Energy
link.springer.com/journal/11708
Non-toxic, high cetane number, smoke-free combustion — could DME power the future of maritime transport? 👀
Researchers highlight dimethyl ether as a promising green fuel for marine engines.
🔗 Read the full article: rdcu.be/eWQ1e
#MarineEnergy #GreenShipping #CleanFuels #DimethylEther #NetZero
Researchers highlight dimethyl ether as a promising green fuel for marine engines.
🔗 Read the full article: rdcu.be/eWQ1e
#MarineEnergy #GreenShipping #CleanFuels #DimethylEther #NetZero
December 30, 2025 at 5:41 AM
Non-toxic, high cetane number, smoke-free combustion — could DME power the future of maritime transport? 👀
Researchers highlight dimethyl ether as a promising green fuel for marine engines.
🔗 Read the full article: rdcu.be/eWQ1e
#MarineEnergy #GreenShipping #CleanFuels #DimethylEther #NetZero
Researchers highlight dimethyl ether as a promising green fuel for marine engines.
🔗 Read the full article: rdcu.be/eWQ1e
#MarineEnergy #GreenShipping #CleanFuels #DimethylEther #NetZero
🔋🚀 How can aqueous zinc-ion #batteries store more energy without sacrificing safety?
Researchers developed formamide-engineered VOPO₄ cathodes with expanded ion pathways, enabling ultra-high volumetric capacity even at practically high mass loadings.
👉https://rdcu.be/eWnld #Electrochemistry
Researchers developed formamide-engineered VOPO₄ cathodes with expanded ion pathways, enabling ultra-high volumetric capacity even at practically high mass loadings.
👉https://rdcu.be/eWnld #Electrochemistry
December 26, 2025 at 7:35 AM
🔋🚀 How can aqueous zinc-ion #batteries store more energy without sacrificing safety?
Researchers developed formamide-engineered VOPO₄ cathodes with expanded ion pathways, enabling ultra-high volumetric capacity even at practically high mass loadings.
👉https://rdcu.be/eWnld #Electrochemistry
Researchers developed formamide-engineered VOPO₄ cathodes with expanded ion pathways, enabling ultra-high volumetric capacity even at practically high mass loadings.
👉https://rdcu.be/eWnld #Electrochemistry
⚡🔋 Researchers designed a smart MXene–Co₃O₄ composite cathode that traps lithium polysulfides and speeds up sulfur redox reactions—delivering high rate performance and long cycle life in Li–S batteries.
👉 Read:https://rdcu.be/eWgzf
#Batter #EnergyStorage #Electrocatalysis
👉 Read:https://rdcu.be/eWgzf
#Batter #EnergyStorage #Electrocatalysis
December 25, 2025 at 6:53 AM
⚡🔋 Researchers designed a smart MXene–Co₃O₄ composite cathode that traps lithium polysulfides and speeds up sulfur redox reactions—delivering high rate performance and long cycle life in Li–S batteries.
👉 Read:https://rdcu.be/eWgzf
#Batter #EnergyStorage #Electrocatalysis
👉 Read:https://rdcu.be/eWgzf
#Batter #EnergyStorage #Electrocatalysis
✨ Turning CO₂ from air into fuels and chemicals
This review explores Integrated Direct Air Capture & Utilization—capturing CO₂ from ambient air and converting it in situ using dual-functional materials.
👉 rdcu.be/eVYdI
#Catalysis #CarbonNeutral
This review explores Integrated Direct Air Capture & Utilization—capturing CO₂ from ambient air and converting it in situ using dual-functional materials.
👉 rdcu.be/eVYdI
#Catalysis #CarbonNeutral
December 23, 2025 at 7:32 AM
✨ Turning CO₂ from air into fuels and chemicals
This review explores Integrated Direct Air Capture & Utilization—capturing CO₂ from ambient air and converting it in situ using dual-functional materials.
👉 rdcu.be/eVYdI
#Catalysis #CarbonNeutral
This review explores Integrated Direct Air Capture & Utilization—capturing CO₂ from ambient air and converting it in situ using dual-functional materials.
👉 rdcu.be/eVYdI
#Catalysis #CarbonNeutral
🔬 New review in Frontiers in Energy: Mesoporous carbon materials: Synthesis and applications in PEMFCs!
High-surface-area carbons with 2–50 nm pores boost fuel-cell power, slash O₂ resistance & Pt loading.
Free Read: rdcu.be/exiU3
#FuelCell #GreenEnergy
High-surface-area carbons with 2–50 nm pores boost fuel-cell power, slash O₂ resistance & Pt loading.
Free Read: rdcu.be/exiU3
#FuelCell #GreenEnergy
December 16, 2025 at 6:57 AM
🔬 New review in Frontiers in Energy: Mesoporous carbon materials: Synthesis and applications in PEMFCs!
High-surface-area carbons with 2–50 nm pores boost fuel-cell power, slash O₂ resistance & Pt loading.
Free Read: rdcu.be/exiU3
#FuelCell #GreenEnergy
High-surface-area carbons with 2–50 nm pores boost fuel-cell power, slash O₂ resistance & Pt loading.
Free Read: rdcu.be/exiU3
#FuelCell #GreenEnergy
🔬 Researchers summarize how dielectric-barrier-discharge #plasma enables low-temperature, atmospheric-pressure #ammonia synthesis—a promising route for green ammonia production and hydrogen/electricity storage.
Read it: rdcu.be/eTY2b
#RenewableEnergy #EnergyStorage
Read it: rdcu.be/eTY2b
#RenewableEnergy #EnergyStorage
December 10, 2025 at 7:39 AM
🔬 Researchers summarize how dielectric-barrier-discharge #plasma enables low-temperature, atmospheric-pressure #ammonia synthesis—a promising route for green ammonia production and hydrogen/electricity storage.
Read it: rdcu.be/eTY2b
#RenewableEnergy #EnergyStorage
Read it: rdcu.be/eTY2b
#RenewableEnergy #EnergyStorage
📢 New in Frontiers in Energy!
A smart composite electrode boosts methane conversion, enabling high C₂ yield and 80% selectivity at 850 °C 🔥—a step toward cleaner methane use and low-carbon energy 🌱.
🔗 rdcu.be/eTMAs
#EOCM #SOEC #Catalysis #MethaneConversion #Energy
A smart composite electrode boosts methane conversion, enabling high C₂ yield and 80% selectivity at 850 °C 🔥—a step toward cleaner methane use and low-carbon energy 🌱.
🔗 rdcu.be/eTMAs
#EOCM #SOEC #Catalysis #MethaneConversion #Energy
December 9, 2025 at 6:31 AM
📢 New in Frontiers in Energy!
A smart composite electrode boosts methane conversion, enabling high C₂ yield and 80% selectivity at 850 °C 🔥—a step toward cleaner methane use and low-carbon energy 🌱.
🔗 rdcu.be/eTMAs
#EOCM #SOEC #Catalysis #MethaneConversion #Energy
A smart composite electrode boosts methane conversion, enabling high C₂ yield and 80% selectivity at 850 °C 🔥—a step toward cleaner methane use and low-carbon energy 🌱.
🔗 rdcu.be/eTMAs
#EOCM #SOEC #Catalysis #MethaneConversion #Energy
📢 New in Frontiers in Energy!
A smart composite electrode boosts methane conversion, enabling high C₂ yield and 80% selectivity at 850 °C 🔥—a step toward cleaner methane use and low-carbon energy 🌱.
🔗 rdcu.be/eTMAs
#EOCM #SOEC #Catalysis #MethaneConversion #Energy
A smart composite electrode boosts methane conversion, enabling high C₂ yield and 80% selectivity at 850 °C 🔥—a step toward cleaner methane use and low-carbon energy 🌱.
🔗 rdcu.be/eTMAs
#EOCM #SOEC #Catalysis #MethaneConversion #Energy
December 9, 2025 at 6:30 AM
📢 New in Frontiers in Energy!
A smart composite electrode boosts methane conversion, enabling high C₂ yield and 80% selectivity at 850 °C 🔥—a step toward cleaner methane use and low-carbon energy 🌱.
🔗 rdcu.be/eTMAs
#EOCM #SOEC #Catalysis #MethaneConversion #Energy
A smart composite electrode boosts methane conversion, enabling high C₂ yield and 80% selectivity at 850 °C 🔥—a step toward cleaner methane use and low-carbon energy 🌱.
🔗 rdcu.be/eTMAs
#EOCM #SOEC #Catalysis #MethaneConversion #Energy
A new study finds a smart way to make sodium-ion batteries last longer and charge faster by stabilizing their internal structure with aluminum! This helps keep sodium moving smoothly and boosts performance even at high current.
Read it: rdcu.be/eTBa3
#Battery #Energy
Read it: rdcu.be/eTBa3
#Battery #Energy
December 8, 2025 at 5:46 AM
A new study finds a smart way to make sodium-ion batteries last longer and charge faster by stabilizing their internal structure with aluminum! This helps keep sodium moving smoothly and boosts performance even at high current.
Read it: rdcu.be/eTBa3
#Battery #Energy
Read it: rdcu.be/eTBa3
#Battery #Energy
Researchers anchored ultrasmall Pd nanoparticles on zirconium phosphate (Zr₃(PO₄)₄), achieving 92.1% Faradaic efficiency for ethanol in CO₂RR.
🎥 Watch the video to learn more & explore the paper here: rdcu.be/eTeUP
#CO2RR #Electrocatalysis #CarbonNeutrality #Ethanol #EnergyTransition
🎥 Watch the video to learn more & explore the paper here: rdcu.be/eTeUP
#CO2RR #Electrocatalysis #CarbonNeutrality #Ethanol #EnergyTransition
December 5, 2025 at 6:01 AM
Researchers anchored ultrasmall Pd nanoparticles on zirconium phosphate (Zr₃(PO₄)₄), achieving 92.1% Faradaic efficiency for ethanol in CO₂RR.
🎥 Watch the video to learn more & explore the paper here: rdcu.be/eTeUP
#CO2RR #Electrocatalysis #CarbonNeutrality #Ethanol #EnergyTransition
🎥 Watch the video to learn more & explore the paper here: rdcu.be/eTeUP
#CO2RR #Electrocatalysis #CarbonNeutrality #Ethanol #EnergyTransition
🍃 Anchoring Pd nanoparticles on zirconium phosphate boosts CO₂ electroreduction, achieving 92.1% Faradaic efficiency for ethanol at −0.8 V! A step toward greener fuel production.
Free Read: rdcu.be/eFIZ9
#Electrocatalysis #CleanEnergy
Free Read: rdcu.be/eFIZ9
#Electrocatalysis #CleanEnergy
November 28, 2025 at 5:58 AM
🍃 Anchoring Pd nanoparticles on zirconium phosphate boosts CO₂ electroreduction, achieving 92.1% Faradaic efficiency for ethanol at −0.8 V! A step toward greener fuel production.
Free Read: rdcu.be/eFIZ9
#Electrocatalysis #CleanEnergy
Free Read: rdcu.be/eFIZ9
#Electrocatalysis #CleanEnergy
Researchers engineered a composite LSM/Ce-Mn-W@GDC electrode that stabilizes reactive oxygen species for efficient electrochemical methane coupling to C₂ products under SOEC conditions — achieving up to 80.3% selectivity.
🔗 rdcu.be/eRYOo
#CarbonNeutrality #Catalysis
🔗 rdcu.be/eRYOo
#CarbonNeutrality #Catalysis
November 27, 2025 at 2:20 AM
Researchers engineered a composite LSM/Ce-Mn-W@GDC electrode that stabilizes reactive oxygen species for efficient electrochemical methane coupling to C₂ products under SOEC conditions — achieving up to 80.3% selectivity.
🔗 rdcu.be/eRYOo
#CarbonNeutrality #Catalysis
🔗 rdcu.be/eRYOo
#CarbonNeutrality #Catalysis
New in #EnergyCatalysis ⚡
Researchers anchored molecular Fe-phthalocyanine onto ZIF-derived Co–N–C, delivering excellent bifunctional ORR/OER performance and powering durable #ZincAirBatteries 💡
🔗https://rdcu.be/eRr99
Researchers anchored molecular Fe-phthalocyanine onto ZIF-derived Co–N–C, delivering excellent bifunctional ORR/OER performance and powering durable #ZincAirBatteries 💡
🔗https://rdcu.be/eRr99
November 24, 2025 at 6:55 AM
New in #EnergyCatalysis ⚡
Researchers anchored molecular Fe-phthalocyanine onto ZIF-derived Co–N–C, delivering excellent bifunctional ORR/OER performance and powering durable #ZincAirBatteries 💡
🔗https://rdcu.be/eRr99
Researchers anchored molecular Fe-phthalocyanine onto ZIF-derived Co–N–C, delivering excellent bifunctional ORR/OER performance and powering durable #ZincAirBatteries 💡
🔗https://rdcu.be/eRr99
☀️A multi-interface engineered PtSe₂/ZnSe/TiO₂ nanotube photoanode achieves ~6× higher photocurrent for solar-assisted water oxidation
·Dual type-II heterojunctions
·Enhanced light harvesting & charge separation
·Improved PEC stability🔗https://rdcu.be/eQQx8
#Hydrogen #Solar
·Dual type-II heterojunctions
·Enhanced light harvesting & charge separation
·Improved PEC stability🔗https://rdcu.be/eQQx8
#Hydrogen #Solar
November 20, 2025 at 3:06 AM
☀️A multi-interface engineered PtSe₂/ZnSe/TiO₂ nanotube photoanode achieves ~6× higher photocurrent for solar-assisted water oxidation
·Dual type-II heterojunctions
·Enhanced light harvesting & charge separation
·Improved PEC stability🔗https://rdcu.be/eQQx8
#Hydrogen #Solar
·Dual type-II heterojunctions
·Enhanced light harvesting & charge separation
·Improved PEC stability🔗https://rdcu.be/eQQx8
#Hydrogen #Solar
November 20, 2025 at 3:06 AM
🚀 Researchers engineer formamide-intercalated VOPO₄ nanosheet cathodes with expanded ion pathways.
🔹 Volumetric capacity: 733 mAh/cm³
🔹 High mass loading: up to 20 mg/cm²
🔹 Long-term stability: 82.1% retention after 1000 cycles
🔗 Read more: rdcu.be/eQeXA
#EnergyStorage #Battery
🔹 Volumetric capacity: 733 mAh/cm³
🔹 High mass loading: up to 20 mg/cm²
🔹 Long-term stability: 82.1% retention after 1000 cycles
🔗 Read more: rdcu.be/eQeXA
#EnergyStorage #Battery
November 17, 2025 at 2:39 AM
🚀 Researchers engineer formamide-intercalated VOPO₄ nanosheet cathodes with expanded ion pathways.
🔹 Volumetric capacity: 733 mAh/cm³
🔹 High mass loading: up to 20 mg/cm²
🔹 Long-term stability: 82.1% retention after 1000 cycles
🔗 Read more: rdcu.be/eQeXA
#EnergyStorage #Battery
🔹 Volumetric capacity: 733 mAh/cm³
🔹 High mass loading: up to 20 mg/cm²
🔹 Long-term stability: 82.1% retention after 1000 cycles
🔗 Read more: rdcu.be/eQeXA
#EnergyStorage #Battery
Bird-skeleton-inspired 3D hollow diamond foam greatly boosts PEG-based PCMs, achieving 378%↑ thermal conductivity and 86.5% photothermal efficiency for solar-thermal storage and electronics cooling.
🔗 rdcu.be/ePP3Y
#ThermalManagement #SolarEnergy #EnergyMaterials #FrontiersInEnergy
🔗 rdcu.be/ePP3Y
#ThermalManagement #SolarEnergy #EnergyMaterials #FrontiersInEnergy
November 14, 2025 at 5:49 AM
Bird-skeleton-inspired 3D hollow diamond foam greatly boosts PEG-based PCMs, achieving 378%↑ thermal conductivity and 86.5% photothermal efficiency for solar-thermal storage and electronics cooling.
🔗 rdcu.be/ePP3Y
#ThermalManagement #SolarEnergy #EnergyMaterials #FrontiersInEnergy
🔗 rdcu.be/ePP3Y
#ThermalManagement #SolarEnergy #EnergyMaterials #FrontiersInEnergy
This study unveils a novel unassisted hybrid system for #Photoelectrochemical water splitting using Spectral Beam Splitting.
🎥 Watch the full video: See how this technology significantly boosts current densities and #solar utilization!
Free Read: rdcu.be/ePDJC
🎥 Watch the full video: See how this technology significantly boosts current densities and #solar utilization!
Free Read: rdcu.be/ePDJC
November 13, 2025 at 1:02 AM
This study unveils a novel unassisted hybrid system for #Photoelectrochemical water splitting using Spectral Beam Splitting.
🎥 Watch the full video: See how this technology significantly boosts current densities and #solar utilization!
Free Read: rdcu.be/ePDJC
🎥 Watch the full video: See how this technology significantly boosts current densities and #solar utilization!
Free Read: rdcu.be/ePDJC
🔥 Top 8 Global Climate & Energy Events of 2024 published! China's milestone carbon laws, G7 coal phase-out, record-high clean energy investment, and the crucial COP29 Baku Pact.
Read more:https://rdcu.be/ePfP7
#ClimateAction #EnergyTransition
Read more:https://rdcu.be/ePfP7
#ClimateAction #EnergyTransition
November 11, 2025 at 6:24 AM
🔥 Top 8 Global Climate & Energy Events of 2024 published! China's milestone carbon laws, G7 coal phase-out, record-high clean energy investment, and the crucial COP29 Baku Pact.
Read more:https://rdcu.be/ePfP7
#ClimateAction #EnergyTransition
Read more:https://rdcu.be/ePfP7
#ClimateAction #EnergyTransition
🌞 2024 saw record-breaking progress in solar tech!
Silicon, perovskite & tandem solar cells each hit new world-record efficiencies.
Researchers review the year’s top confirmed efficiencies & trends across mainstream PV techs.
🎬 rdcu.be/eOGFT
#SolarEnergy #PV
Silicon, perovskite & tandem solar cells each hit new world-record efficiencies.
Researchers review the year’s top confirmed efficiencies & trends across mainstream PV techs.
🎬 rdcu.be/eOGFT
#SolarEnergy #PV
November 7, 2025 at 2:29 AM
🌞 2024 saw record-breaking progress in solar tech!
Silicon, perovskite & tandem solar cells each hit new world-record efficiencies.
Researchers review the year’s top confirmed efficiencies & trends across mainstream PV techs.
🎬 rdcu.be/eOGFT
#SolarEnergy #PV
Silicon, perovskite & tandem solar cells each hit new world-record efficiencies.
Researchers review the year’s top confirmed efficiencies & trends across mainstream PV techs.
🎬 rdcu.be/eOGFT
#SolarEnergy #PV