Showing 32 publications by Junfu Bu
Coordinated Multi‐Component Gradient Engineering of Catalyst Layers for Advanced Polymer Electrolyte Fuel Cells
Zhou S, Tudball MP, Guo Y, Brandt B, Zucconi A et al. (2025), Advanced Functional Materials
BibTeX
@article{coordinatedmult-2025/11,
title={Coordinated Multi‐Component Gradient Engineering of Catalyst Layers for Advanced Polymer Electrolyte Fuel Cells},
author={Zhou S, Tudball MP, Guo Y, Brandt B, Zucconi A et al.},
journal={Advanced Functional Materials},
number={e18360},
publisher={Wiley},
year = "2025"
}
High plating currents without dendrites at the interface between a lithium anode and solid electrolyte
Melvin DLR, Siniscalchi M, Spencer-Jolly D, Hu B, Ning Z et al. (2025), Nature Energy, 1-10
BibTeX
@article{highplatingcurr-2025/9,
title={High plating currents without dendrites at the interface between a lithium anode and solid electrolyte},
author={Melvin DLR, Siniscalchi M, Spencer-Jolly D, Hu B, Ning Z et al.},
journal={Nature Energy},
pages={1-10},
publisher={Nature Research},
year = "2025"
}
X-ray computed laminography: a brief review of mechanisms, reconstruction, applications and perspectives
Du W, Iacoviello F, Mirza M, Zhou S, Bu J et al. (2025), Materials Today, 86, 267-281
BibTeX
@article{xraycomputedlam-2025/3,
title={X-ray computed laminography: a brief review of mechanisms, reconstruction, applications and perspectives},
author={Du W, Iacoviello F, Mirza M, Zhou S, Bu J et al.},
journal={Materials Today},
volume={86},
pages={267-281},
publisher={Elsevier},
year = "2025"
}
Visualizing the Li distribution in an all-solid-state battery composite electrode using combined plasma focused-ion beam microscopy and secondary-ion mass spectroscopy
Sun Y, Hughes GM, Bu J, Liu J, Grovenor CRM et al. (2024), Micron, 190
BibTeX
@article{visualizingthel-2024/11,
title={Visualizing the Li distribution in an all-solid-state battery composite electrode using combined plasma focused-ion beam microscopy and secondary-ion mass spectroscopy},
author={Sun Y, Hughes GM, Bu J, Liu J, Grovenor CRM et al.},
journal={Micron},
volume={190},
number={103746},
publisher={Elsevier},
year = "2024"
}
Fast-charging all-solid-state battery cathodes with long cycle life
Doerrer C, Gao X, Bu J, Wheeler S, Pasta M et al. (2024), Nano Energy, 134
BibTeX
@article{fastchargingall-2024/11,
title={Fast-charging all-solid-state battery cathodes with long cycle life},
author={Doerrer C, Gao X, Bu J, Wheeler S, Pasta M et al.},
journal={Nano Energy},
volume={134},
number={110531},
publisher={Elsevier},
year = "2024"
}
Spraying Li6PS5Cl and silver-carbon multilayers to facilitate large-scale fabrication of all-solid-state batteries
Doerrer C, Metzler M, Matthews G, Bu J, Spencer Jolly D et al. (2024), Device, 2(8)
BibTeX
@article{sprayinglipscla-2024/7,
title={Spraying Li6PS5Cl and silver-carbon multilayers to facilitate large-scale fabrication of all-solid-state batteries},
author={Doerrer C, Metzler M, Matthews G, Bu J, Spencer Jolly D et al.},
journal={Device},
volume={2},
number={100468},
publisher={Cell Press},
year = "2024"
}
Dendrite initiation and propagation in lithium metal solid-state batteries
Ning Z, Li G, Melvin DLR, Chen Y, Bu J et al. (2023), Nature, 618(7964), 287-293
BibTeX
@article{dendriteinitiat-2023/6,
title={Dendrite initiation and propagation in lithium metal solid-state batteries},
author={Ning Z, Li G, Melvin DLR, Chen Y, Bu J et al.},
journal={Nature},
volume={618},
pages={287-293},
publisher={Springer Nature},
year = "2023"
}
Interfaces between ceramic and polymer electrolytes: a comparison of oxide and sulfide solid electrolytes for hybrid solid-state batteries
Spencer Jolly D, Melvin D, Stephens I, Brugge R, Pu S et al. (2022), Inorganics, 10(5)
BibTeX
@article{interfacesbetwe-2022/4,
title={Interfaces between ceramic and polymer electrolytes: a comparison of oxide and sulfide solid electrolytes for hybrid solid-state batteries},
author={Spencer Jolly D, Melvin D, Stephens I, Brugge R, Pu S et al.},
journal={Inorganics},
volume={10},
number={60},
publisher={MDPI},
year = "2022"
}
Solid-state lithium battery cathodes operating at low pressures
Gao X, Liu B, Hu B, Ning Z, Jolly DS et al. (2022), Joule, 6(3), 636-646
BibTeX
@article{solidstatelithi-2022/3,
title={Solid-state lithium battery cathodes operating at low pressures},
author={Gao X, Liu B, Hu B, Ning Z, Jolly DS et al.},
journal={Joule},
volume={6},
pages={636-646},
publisher={Cell Press},
year = "2022"
}
Challenges and strategies of low-cost aluminum anodes for high-performance Al-based batteries
Jiang M, Fu C, Meng P, Ren J, Wang J et al. (2021), Advanced Materials, 34(2)
BibTeX
@article{challengesandst-2021/10,
title={Challenges and strategies of low-cost aluminum anodes for high-performance Al-based batteries},
author={Jiang M, Fu C, Meng P, Ren J, Wang J et al.},
journal={Advanced Materials},
volume={34},
number={e2102026},
publisher={Wiley},
year = "2021"
}
3D imaging of lithium protrusions in solid-state lithium batteries using x-ray computed tomography
Hao S, Bailey JJ, Iacoviello F, Bu J, Grant PS et al. (2020), Advanced Functional Materials, 31(10)
BibTeX
@article{dimagingoflithi-2020/12,
title={3D imaging of lithium protrusions in solid-state lithium batteries using x-ray computed tomography},
author={Hao S, Bailey JJ, Iacoviello F, Bu J, Grant PS et al.},
journal={Advanced Functional Materials},
volume={31},
number={2007564},
publisher={Wiley},
year = "2020"
}
2020 roadmap on solid-state batteries
Pasta M, Armstrong D, Brown Z, Bu J, Castell MR et al. (2020), Journal of Physics: Energy, 2(3)
BibTeX
@article{roadmaponsolids-2020/8,
title={2020 roadmap on solid-state batteries},
author={Pasta M, Armstrong D, Brown Z, Bu J, Castell MR et al.},
journal={Journal of Physics: Energy},
volume={2},
number={032008},
publisher={IOP Publishing},
year = "2020"
}
Single‐step spray printing of symmetric all‐organic solid‐state batteries based on porous textile dye electrodes
Leung P, Bu J, Quijano Velasco PQ, Roberts , Grobert N et al. (2019), Advanced Energy Materials, 9(39)
BibTeX
@article{singlestepspray-2019/9,
title={Single‐step spray printing of symmetric all‐organic solid‐state batteries based on porous textile dye electrodes},
author={Leung P, Bu J, Quijano Velasco PQ, Roberts , Grobert N et al.},
journal={Advanced Energy Materials},
volume={9},
number={1901418},
publisher={Wiley},
year = "2019"
}
Co-spray printing of LiFePO4 and PEO-Li1.5Al0.5Ge1.5(PO4)(3) hybrid electrodes for all-solid-state Li-ion battery applications
Bu J, Leung P, Huang C, Lee S & Grant P (2019), Journal of Materials Chemistry A, 7(32), 19094-19103
BibTeX
@article{cosprayprinting-2019/8,
title={Co-spray printing of LiFePO4 and PEO-Li1.5Al0.5Ge1.5(PO4)(3) hybrid electrodes for all-solid-state Li-ion battery applications},
author={Bu J, Leung P, Huang C, Lee S & Grant P},
journal={Journal of Materials Chemistry A},
volume={7},
pages={19094-19103},
publisher={Royal Society of Chemistry},
year = "2019"
}
Electrical conductivities of translucent BaZrxCe0.8-xY0.2O3-δ (x=0.5, 0.6, 0.7) ceramics
Bu J, Jönsson PG & Zhao Z (2016), Scripta Materialia, 115, 87-90
BibTeX
@article{electricalcondu-2016/4,
title={Electrical conductivities of translucent BaZrxCe0.8-xY0.2O3-δ (x=0.5, 0.6, 0.7) ceramics},
author={Bu J, Jönsson PG & Zhao Z},
journal={Scripta Materialia},
volume={115},
pages={87-90},
publisher={Elsevier},
year = "2016"
}
Transport properties of BaZr0.5Ce0.3Y0.2O3−δ proton conductor prepared by spark plasma sintering
Bu J, Jönsson PG & Zhao Z (2016), Ceramics International, 42(3), 4393-4399
BibTeX
@article{transportproper-2016/2,
title={Transport properties of BaZr0.5Ce0.3Y0.2O3−δ proton conductor prepared by spark plasma sintering},
author={Bu J, Jönsson PG & Zhao Z},
journal={Ceramics International},
volume={42},
pages={4393-4399},
publisher={Elsevier},
year = "2016"
}
A new Dy-doped BaCeO 3 –BaZrO 3 proton-conducting material as a promising electrolyte for reversible solid oxide fuel cells
Lyagaeva J, Danilov N, Vdovin G, Bu J, Medvedev D et al. (2016), Journal of Materials Chemistry A, 4(40), 15390-15399
BibTeX
@article{anewdydopedbace-2016/,
title={A new Dy-doped BaCeO 3 –BaZrO 3 proton-conducting material as a promising electrolyte for reversible solid oxide fuel cells},
author={Lyagaeva J, Danilov N, Vdovin G, Bu J, Medvedev D et al.},
journal={Journal of Materials Chemistry A},
volume={4},
pages={15390-15399},
publisher={Royal Society of Chemistry (RSC)},
year = "2016"
}
The effect of NiO on the conductivity of BaZr 0.5 Ce 0.3 Y 0.2 O 3−δ based electrolytes
Bu J, Jönsson PG & Zhao Z (2016), RSC Advances, 6(67), 62368-62377
BibTeX
@article{theeffectofnioo-2016/,
title={The effect of NiO on the conductivity of BaZr 0.5 Ce 0.3 Y 0.2 O 3−δ based electrolytes},
author={Bu J, Jönsson PG & Zhao Z},
journal={RSC Advances},
volume={6},
pages={62368-62377},
publisher={Royal Society of Chemistry (RSC)},
year = "2016"
}
Dense and translucent BaZr x Ce0.8− x Y0.2O3− δ (x =0.5, 0.6, 0.7) proton conductors prepared by spark plasma sintering
Bu J, Jönsson PG & Zhao Z (2015), Scripta Materialia, 107, 145-148
BibTeX
@article{denseandtranslu-2015/10,
title={Dense and translucent BaZr x Ce0.8− x Y0.2O3− δ (x =0.5, 0.6, 0.7) proton conductors prepared by spark plasma sintering},
author={Bu J, Jönsson PG & Zhao Z},
journal={Scripta Materialia},
volume={107},
pages={145-148},
publisher={Elsevier},
year = "2015"
}
Sintering behaviour of the protonic conductors BaZrxCe0.8-xLn0.2O3-δ (x=0.8, 0.5, 0.1; Ln=Y, Sm, Gd, Dy) during the solid-state reactive-sintering process
Bu J, Jönsson PG & Zhao Z (2015), Ceramics International, 41(2), 2558-2564
BibTeX
@article{sinteringbehavi-2015/3,
title={Sintering behaviour of the protonic conductors BaZrxCe0.8-xLn0.2O3-δ (x=0.8, 0.5, 0.1; Ln=Y, Sm, Gd, Dy) during the solid-state reactive-sintering process},
author={Bu J, Jönsson PG & Zhao Z},
journal={Ceramics International},
volume={41},
pages={2558-2564},
publisher={Elsevier},
year = "2015"
}
Preparation of 30mol.% Y-doped hafnia (Hf0.7Y0.3O2-δ) using a modified solid-state reaction method
Bu J, Jönsson PG & Zhao Z (2015), Ceramics International, 41(2), 2611-2615
BibTeX
@article{preparationofmo-2015/3,
title={Preparation of 30mol.% Y-doped hafnia (Hf0.7Y0.3O2-δ) using a modified solid-state reaction method},
author={Bu J, Jönsson PG & Zhao Z},
journal={Ceramics International},
volume={41},
pages={2611-2615},
publisher={Elsevier},
year = "2015"
}
Ionic conductivity of dense BaZr0.5Ce0.3Ln0.2O3−δ (Ln = Y, Sm, Gd, Dy) electrolytes
Bu J, Jönsson PG & Zhao Z (2014), Journal of Power Sources, 272, 786-793
BibTeX
@article{ionicconductivi-2014/12,
title={Ionic conductivity of dense BaZr0.5Ce0.3Ln0.2O3−δ (Ln = Y, Sm, Gd, Dy) electrolytes},
author={Bu J, Jönsson PG & Zhao Z},
journal={Journal of Power Sources},
volume={272},
pages={786-793},
publisher={Elsevier},
year = "2014"
}
Preparation of Protonic Conductor BaZr0.5Ce0.3Ln0.2O3-δ (Ln=Y, Sm, Gd, Dy) by Using a Solid State Reactive Sintering Method
Bu JF, Jönsson PG & Zhao Z (2014), Advances in Science and Technology, 87, 1-5
BibTeX
@inproceedings{preparationofpr-2014/12,
title={Preparation of Protonic Conductor BaZr0.5Ce0.3Ln0.2O3-δ (Ln=Y, Sm, Gd, Dy) by Using a Solid State Reactive Sintering Method},
author={Bu JF, Jönsson PG & Zhao Z},
booktitle={13th International Ceramics Congress - Part A},
pages={1-5},
year = "2014"
}
Preparation of Potential Protonic Conductor Yttria Doped Hafnia by Using the Modified Solid State Reaction Method
Bu J, Jönsson PG & Zhao Z (2014), ECS Transactions, 59(1), 315-320
BibTeX
@inproceedings{preparationofpo-2014/8,
title={Preparation of Potential Protonic Conductor Yttria Doped Hafnia by Using the Modified Solid State Reaction Method},
author={Bu J, Jönsson PG & Zhao Z},
pages={315-320},
year = "2014"
}
Yttrium Doped Hafnium Oxide Hf0.69Y0.31O2-δ used for Solid Oxide Fuel Cells Electrolyte and Electronic Materials
Bu J, Jönsson P & Zhao Z (2014), ECS Meeting Abstracts, MA2014-03(3), 461-461
BibTeX
@article{yttriumdopedhaf-2014/4,
title={Yttrium Doped Hafnium Oxide Hf0.69Y0.31O2-δ used for Solid Oxide Fuel Cells Electrolyte and Electronic Materials},
author={Bu J, Jönsson P & Zhao Z},
journal={ECS Meeting Abstracts},
volume={MA2014-03},
pages={461-461},
publisher={The Electrochemical Society},
year = "2014"
}
Recent progress in corrosion protection of magnesium alloys by organic coatings
Hu R-G, Zhang S, Bu J-F, Lin C-J & Song G-L (2012), Progress in Organic Coatings, 73(2-3), 129-141
BibTeX
@article{recentprogressi-2012/2,
title={Recent progress in corrosion protection of magnesium alloys by organic coatings},
author={Hu R-G, Zhang S, Bu J-F, Lin C-J & Song G-L},
journal={Progress in Organic Coatings},
volume={73},
pages={129-141},
publisher={Elsevier},
year = "2012"
}
Electrophoresis Deposition of TiO2 Nanoparticles on Etched Aluminum Foil for Enhanced Specific Capacitance
Sun L, Bu J, Guo W, Wang Y, Wang M et al. (2012), Electrochemical and Solid-State Letters, 15(1), e1
BibTeX
@article{electrophoresis-2012/,
title={Electrophoresis Deposition of TiO2 Nanoparticles on Etched Aluminum Foil for Enhanced Specific Capacitance},
author={Sun L, Bu J, Guo W, Wang Y, Wang M et al.},
journal={Electrochemical and Solid-State Letters},
volume={15},
pages={e1},
publisher={The Electrochemical Society},
year = "2012"
}
Al2O3-TiO2 composite oxide films on etched aluminum foil fabricated by electrodeposition and anodization
Bu J, Sun L, Wu Q, Wang M & Lin C (2011), Science China Chemistry, 54(10), 1558
BibTeX
@article{alotiocomposite-2011/10,
title={Al2O3-TiO2 composite oxide films on etched aluminum foil fabricated by electrodeposition and anodization},
author={Bu J, Sun L, Wu Q, Wang M & Lin C},
journal={Science China Chemistry},
volume={54},
pages={1558},
publisher={Springer Nature},
year = "2011"
}
Synthesis of single-crystal PbS nanorods via a simple hydrothermal process using PEO–PPO–PEO triblock copolymer as a structure-directing agent
Bu J, Nie C, Liang J, Sun L, Xie Z et al. (2011), Nanotechnology, 22(12), 125602
BibTeX
@article{synthesisofsing-2011/3,
title={Synthesis of single-crystal PbS nanorods via a simple hydrothermal process using PEO–PPO–PEO triblock copolymer as a structure-directing agent},
author={Bu J, Nie C, Liang J, Sun L, Xie Z et al.},
journal={Nanotechnology},
volume={22},
pages={125602},
publisher={IOP Publishing},
year = "2011"
}
High plating currents without dendrites at the lithium anode/solid electrolyte interface
Melvin DLR, Siniscalchi M, Spencer-Jolly D, Hu B, Ning Z et al. (0)
BibTeX
@misc{highplatingcurr-/,
title={High plating currents without dendrites at the lithium anode/solid electrolyte interface},
author={Melvin DLR, Siniscalchi M, Spencer-Jolly D, Hu B, Ning Z et al.}
}
High plating currents without dendrites at the lithium anode/solid electrolyte interface
Melvin DLR, Siniscalchi M, Spencer-Jolly D, Hu B, Ning Z et al. (0)
BibTeX
@misc{highplatingcurr-/,
title={High plating currents without dendrites at the lithium anode/solid electrolyte interface},
author={Melvin DLR, Siniscalchi M, Spencer-Jolly D, Hu B, Ning Z et al.}
}
High plating currents without dendrites at the lithium anode/solid electrolyte interface
Melvin DLR, Siniscalchi M, Spencer-Jolly D, Hu B, Ning Z et al. (0)
BibTeX
@misc{highplatingcurr-/,
title={High plating currents without dendrites at the lithium anode/solid electrolyte interface},
author={Melvin DLR, Siniscalchi M, Spencer-Jolly D, Hu B, Ning Z et al.}
}