M
Maria-Magdalena Titirici
Researcher at Imperial College London
Publications - 306
Citations - 32713
Maria-Magdalena Titirici is an academic researcher from Imperial College London. The author has contributed to research in topics: Carbon & Hydrothermal carbonization. The author has an hindex of 77, co-authored 253 publications receiving 25528 citations. Previous affiliations of Maria-Magdalena Titirici include Technical University of Dortmund & Max Planck Society.
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Journal ArticleDOI
Engineering Carbon Materials from the Hydrothermal Carbonization Process of Biomass
TL;DR: It will be demonstrated that the HTC process can rationally design a rich family of carbonaceous and hybrid functional carbon materials with important applications in a sustainable fashion.
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Hydrothermal carbonization of biomass residuals: a comparative review of the chemistry, processes and applications of wet and dry pyrolysis
Judy A. Libra,Kyoung S. Ro,Claudia Kammann,Axel Funke,Nicole D. Berge,York Neubauer,Maria-Magdalena Titirici,Christoph Fühner,Oliver Bens,Jürgen Kern,Karl-Heinz Emmerich +10 more
TL;DR: The wet pyrolysis process, also known as hydrothermal carbonization, opens up the field of potential feedstocks for char production to a range of nontraditional renewable and plentiful wet agricultural residues and municipal wastes as discussed by the authors.
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Chemistry and materials options of sustainable carbon materials made by hydrothermal carbonization
TL;DR: It will be shown that HTC does not only access carbonaceous materials under comparatively mild hydrothermal conditions, but also replaces the more technical and structurally well-defined charring by a controlled chemical process, leading to very different morphologies with miscellaneous applications, including modern carbon nanocomposites and hybrids.
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Hollow Carbon Nanospheres with Superior Rate Capability for Sodium‐Based Batteries
Kun Tang,Lijun Fu,Lijun Fu,Robin J. White,Linghui Yu,Maria-Magdalena Titirici,Markus Antonietti,Joachim Maier +7 more
TL;DR: In this paper, the authors discuss the increasing cost and an uneven geological distribution of the lithium source in recent years, and the need to increase the demand of lithium must grow proportionately and perhaps unsustainably.
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Superior storage performance of a Si@SiOx/C nanocomposite as anode material for lithium-ion batteries
Yong-Sheng Hu,Rezan Demir-Cakan,Maria-Magdalena Titirici,Jens-Oliver Müller,Robert Schlögl,Markus Antonietti,Joachim Maier +6 more
TL;DR: In this paper, the authors proposed the use of silicon as an anode material for lithium-ion batteries, which has the highest theoretical capacity (Li4.4Sio4200 mAhg) of all known materials.