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A Red‐Phosphorous‐Assisted Ball‐Milling Synthesis of Few‐Layered Ti<sub>3</sub>C<sub>2</sub>T<sub><i>x</i></sub> (MXene) Nanodot Composite

Tianran ZhangDepartment of Chemical and Biomolecular Engineering National University of Singapore 10 Kent Ridge Crescent Singapore 119260 SingaporeXi JiangDepartment of Chemical and Biomolecular Engineering National University of Singapore 10 Kent Ridge Crescent Singapore 119260 SingaporeGuochun LiDepartment of Chemical and Biomolecular Engineering National University of Singapore 10 Kent Ridge Crescent Singapore 119260 SingaporeQiaofeng YaoDepartment of Chemical and Biomolecular Engineering National University of Singapore 10 Kent Ridge Crescent Singapore 119260 SingaporeJim Yang LeeDepartment of Chemical and Biomolecular Engineering National University of Singapore 10 Kent Ridge Crescent Singapore 119260 Singapore
2017en
ABI

Аннотация

Abstract Layered two‐dimensional (2D) early transition metal carbides (MXenes) are a new class of 2D materials with established activity for electrochemical energy conversion and storage. The use of MXenes is expected to increase by reducing their lateral size to the nanoscale. Herein, using Ti 3 C 2 T x (T=O, OH, F) MXenes as an example, we show that μm‐sized MXenes can be reduced in size to ≈6 nm nanodots by ball‐milling with red phosphorous (P). It is remarkable almost all starting MXenes were converted to nanodots with this method. The Ti 3 C 2 T x surface O groups interacted with P strongly and chemically to drive the nanodots formation. Ti 3 C 2 T x nanodots (TNDs) with different sizes could also be obtained by ball‐milling Ti 3 C 2 T x with other solid‐state elements such as carbon, sulfur and silicon. The as‐prepared TNDs and P composite was evaluated as a sodium‐ion battery anode material. A good sodiation capacity (≈600 mA h g −1 ) at 260 mA g −1 and good cycle stability for 150 cycles were shown.

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