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  1. Queen Mary University of London
  2. Research
  3. Publications

Publications: P Maria Crespo Ribadeneyra

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Titirici M, Johansson P, Crespo Ribadeneyra M, Au H, Innocenti A, Passerini S, Petavratzi E, Lusty P et al. ( 2024 ) . 2024 roadmap for sustainable batteries . Journal of Physics: Energy vol. 6 , ( 4 ) 041502 - 041502 .
Tagliaferri S, Gaspard L, Au H, Mattevi C, Titirici M-M, Crespo-Ribadeneyra M ( 2024 ) . Nature-inspired batteries: from biomaterials to biomimetic design strategies . Green Chemistry vol. 26 , ( 12 ) 6944 - 6958 .
Guo Z, Xu Z, Xie F, Jiang J, Zheng K, Alabidun S, Crespo‐Ribadeneyra M, Hu Y et al. ( 2023 ) . Investigating the Superior Performance of Hard Carbon Anodes in Sodium‐Ion Compared With Lithium‐ and Potassium‐Ion Batteries . Advanced Materials vol. 35 , ( 42 ) Article 2304091 ,
de Tomas C, Alabidun S, Chater L, Darby MT, Raffone F, Restuccia P, Au H, Titirici MM et al. ( 2023 ) . Doping carbon electrodes with sulfur achieves reversible sodium ion storage . Journal of Physics: Energy vol. 5 , ( 2 ) 024006 - 024006 .
Senokos E, Anthony DB, Rubio N, Ribadeneyra MC, Greenhalgh ES, Shaffer MSP ( 2023 ) . Robust Single‐Walled Carbon Nanotube‐Infiltrated Carbon Fiber Electrodes for Structural Supercapacitors: from Reductive Dissolution to High Performance Devices . Advanced Functional Materials vol. 33 , ( 16 ) Article 2212697 ,
Mercer MP, Nagarathinam M, Gavilán-Arriazu EM, Binjrajka A, Panda S, Au H, Crespo-Ribadeneyra M, Titirici M-M et al. ( 2023 ) . Sodiation energetics in pore size controlled hard carbons determined <i>via</i> entropy profiling . Journal of Materials Chemistry A vol. 11 , ( 12 ) 6543 - 6555 .
Au H, Crespo‐Ribadeneyra M ( 2022 ) . Polymers in Sodium‐Ion Batteries . Wiley
Guo Z, Cheng G, Xu Z, Xie F, Hu Y, Mattevi C, Titirici M, Crespo Ribadeneyra M ( 2022 ) . Sodium Dual‐Ion Batteries with Concentrated Electrolytes . ChemSusChem vol. 16 , ( 4 ) Article e202201583 ,
Olsson E, Cottom J, Alptekin H, Au H, Crespo‐Ribadeneyra M, Titirici M, Cai Q ( 2022 ) . Investigating the Role of Surface Roughness and Defects on EC Breakdown, as a Precursor to SEI Formation in Hard Carbon Sodium‐Ion Battery Anodes . Small vol. 18 , ( 43 ) Article 2200177 ,
Titirici M, Baird SG, Sparks TD, Yang SM, Brandt-Talbot A, Hosseinaei O, Harper DP, Parker RM et al. ( 2022 ) . The sustainable materials roadmap . Journal of Physics: Materials vol. 5 , ( 3 ) 032001 - 032001 .
Trotta F, Wang GJ, Guo Z, Xu Z, Crespo Ribadeneyra M, Au H, Edge JS, Titirici MM et al. ( 2022 ) . A Comparative Techno‐Economic and Lifecycle Analysis of Biomass‐Derived Anode Materials for Lithium‐ and Sodium‐Ion Batteries . Advanced Sustainable Systems vol. 6 , ( 6 ) Article 2200047 ,
Au H, Crespo-Ribadeneyra M, Titirici M-M ( 2022 ) . Beyond Li-ion batteries: performance, materials diversification, and sustainability . One Earth vol. 5 , ( 3 ) 207 - 211 .
Ribadeneyra MC, King J, Titirici MM, Szilágyi PÁ ( 2022 ) . A facile and sustainable one-pot approach to the aqueous and low-temperature PET-to-UiO-66(Zr) upcycling . Chemical Communications vol. 58 , ( 9 ) 1330 - 1333 .
Au H, Crespo-Ribadeneyra M ( 2022 ) . Polymers in Sodium-Ion Batteries: Understanding the Critical Role of Polymers in Battery Systems . Sodium Ion Batteries Materials Characterization and Technology Volume 1 , vol. 1 ,
Alptekin H, Au H, Olsson E, Cottom J, Jensen ACS, Headen TF, Cai Q, Drew AJ et al. ( 2021 ) . Elucidation of the Solid Electrolyte Interphase Formation Mechanism in Micro‐Mesoporous Hard‐Carbon Anodes . Advanced Materials Interfaces vol. 9 , ( 8 ) Article 2101267 ,
Nguyen KDQ, Crespo-Ribadeneyra M, Picot O, Colak B, Gautrot JE ( 2021 ) . Ultrafast Photo-Crosslinking of Thiol–Norbornene Opaque Silicone Elastomer Nanocomposites in Air . ACS Applied Polymer Materials vol. 3 , ( 11 ) 5373 - 5385 .
Tapia-Ruiz N, Armstrong AR, Alptekin H, Amores MA, Au H, Barker J, Boston R, Brant WR et al. ( 2021 ) . 2021 roadmap for sodium-ion batteries . Journal of Physics: Energy vol. 3 , ( 3 ) 031503 - 031503 .
Hérou S, Bailey JJ, Kok M, Schlee P, Jervis R, Brett DJL, Shearing PR, Ribadeneyra MC et al. ( 2021 ) . High‐Density Lignin‐Derived Carbon Nanofiber Supercapacitors with Enhanced Volumetric Energy Density . Advanced Science vol. 8 , ( 17 ) Article 2100016 ,
Hérou S, Crespo Ribadeneyra M, Schlee P, Luo H, Cristian Tanase L, Roβberg C, Titirici M ( 2021 ) . The impact of having an oxygen-rich microporous surface in carbon electrodes for high-power aqueous supercapacitors . Journal of Energy Chemistry vol. 53 , 36 - 48 .
Au H, Alptekin H, Jensen ACS, Olsson E, O’Keefe CA, Smith T, Crespo-Ribadeneyra M, Headen TF et al. ( 2021 ) . Correction: A revised mechanistic model for sodium insertion in hard carbons . Energy &amp; Environmental Science vol. 14 , ( 5 ) 3216 - 3216 .
Ribadeneyra MC, Grogan L, Au H, Schlee P, Herou S, Neville T, Cullen PL, Kok MDR et al. ( 2020 ) . Lignin-derived electrospun freestanding carbons as alternative electrodes for redox flow batteries . Carbon vol. 157 , 847 - 856 .
Au H, Alptekin H, Jensen ACS, Olsson E, O’Keefe CA, Smith T, Crespo-Ribadeneyra M, Headen TF et al. ( 2020 ) . A revised mechanistic model for sodium insertion in hard carbons . Energy &amp; Environmental Science vol. 13 , ( 10 ) 3469 - 3479 .
Hérou S, Crespo M, Titirici M ( 2020 ) . Investigating the effects of activating agent morphology on the porosity and related capacitance of nanoporous carbons . CrystEngComm vol. 22 , ( 9 ) 1560 - 1567 .
Crespo M, Santagiuliana G, Picot O, Portale G, Bilotti E, Gautrot JE ( 2019 ) . Photo‐Responsive Graphene: A Photoaddressable Liquid Crystalline Phase Transition in Graphene Oxide Nanocomposites (Adv. Funct. Mater. 24/2019) . Advanced Functional Materials vol. 29 , ( 24 ) Article 1970165 ,
Crespo M, Santagiuliana G, Picot O, Portale G, Bilotti E, Gautrot JE ( 2019 ) . A Photoaddressable Liquid Crystalline Phase Transition in Graphene Oxide Nanocomposites . Advanced Functional Materials vol. 29 , ( 24 ) Article 1900738 ,
Li D, Wu L, Qu F, Ribadeneyra MC, Tu G, Gautrot J ( 2019 ) . Core-independent approach for polymer brush-functionalised nanomaterials with a fluorescent tag for RNA delivery . Chemical Communications vol. 55 , ( 94 ) 14166 - 14169 .
Herou S, Ribadeneyra MC, Madhu R, Araullo-Peters V, Jensen A, Schlee P, Titirici M ( 2019 ) . Ordered mesoporous carbons from lignin: a new class of biobased electrodes for supercapacitors . Green Chemistry vol. 21 , ( 3 ) 550 - 559 .
Santagiuliana G, Picot OT, Crespo M, Porwal H, Zhang H, Li Y, Rubini L, Colonna S et al. ( 2018 ) . Breaking the Nanoparticle Loading–Dispersion Dichotomy in Polymer Nanocomposites with the Art of Croissant-Making . ACS Nano vol. 12 , ( 9 ) 9040 - 9050 .
Li Y, Zhang H, Crespo M, Porwal H, Picot O, Santagiuliana G, Huang Z, Barbieri E et al. ( 2016 ) . In Situ Exfoliation of Graphene in Epoxy Resins: A Facile Strategy to Efficient and Large Scale Graphene Nanocomposites . ACS Applied Materials &amp; Interfaces vol. 8 , ( 36 ) 24112 - 24122 .
González M, Crespo M, Baselga J, Pozuelo J ( 2016 ) . Carbon nanotube scaffolds with controlled porosity as electromagnetic absorbing materials in the gigahertz range . Nanoscale vol. 8 , ( 20 ) 10724 - 10730 .
Crespo M, Méndez N, González M, Baselga J, Pozuelo J ( 2014 ) . Synergistic effect of magnetite nanoparticles and carbon nanofibres in electromagnetic absorbing composites . Carbon vol. 74 , 63 - 72 .
Crespo M, González M, Elías AL, Pulickal Rajukumar L, Baselga J, Terrones M, Pozuelo J ( 2014 ) . Ultra-light carbon nanotube sponge as an efficient electromagnetic shielding material in the GHz range . physica status solidi (RRL) - Rapid Research Letters vol. 8 , ( 8 ) 698 - 704 .
Crespo M, González M, Pozuelo J ( 2014 ) . Magnetic silica:epoxy composites with a nano- and micro-scale control . Materials Chemistry and Physics vol. 144 , ( 3 ) 335 - 342 .
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