Mechanical exfoliation of bulk layered materials into atomic‐layer thin nanosheets has become a general strategy to obtain 2D nanomaterials, which seems intuitively unsuitable for non‐van der Waals crystals. However, a new method is proposed, namely, solvent‐assisted anisotropic cleavage (SAAC), for producing thin nanostructures from transition metal carbides (TMCs), including titanium carbide (TiC) and tungsten carbide (WC). The SAAC method harnesses the intrinsic anisotropic hardness properties of the TMC and enables efficient cleavage of bulk TMC into 2D layers. Under ultrasonication in appropriated solvent, TiC crystals show preferable cleavage along [110] direction and produce 2D nanoflakes. The obtained 2D nanoflakes are successfully applied for ultrafast photonics as saturable absorbers (SAs) in mode‐locked thulium fiber lasers, where stable third‐order harmonically mode‐locked dissipative solitons are realized at 2 μm. The success of the SAAC process opens a new pace toward preparation of 2D nanomaterials.

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