Studying the chemistry of actinide metal benzyne complexes is an important step to understanding the chemistry of f-block elements. Our group proposes the synthesis, characterization, and reactivity studies of the U(IV) dibenzyne complex, [Li]₂[U(2-C₆H₃CH₂NMe₂)₂(2-C₆H₄CH₂NMe₂)₂] (1). Reaction of UCl₄ with 6 equiv of [Li][ 2-C₆H₄CH₂NMe₂] affords complex 1 in moderate yields. The addition of 2 equiv of benzophenone, C₁₃H₁₀O,  to complex 1 affords the new U(IV) complex, [Li][U(2-C₆H₃CH₂NMe₂-3-COPh₂)₂(2-C₆H₄CH₂NMe₂)] (2),formed by the insertion of two benzophenone molecules into the U-benzyne bond. This chemistry results in the formation of two new C-C bonds between the former benzyne phenyl rings and the former ketone carbon. Similar insertion chemistry is observed when reacting complex 1 with 2 equiv phenylisocyanate,C₇H₅NO, which yields a different U(IV) complex, [Li][Li(THF)][U[(2-C₆H₃CH₂NMe₂-3-CONPh)](2-C₆H₃CH₂NMe₂)(2-C₆H₄CH₂NMe₂)₂] (3). Our structures were characterized through NMR spectroscopy and single crystal X-ray diffraction, and are indicative to high reactivity of the U(IV) dibenzyne complex with unique bond formation and insertion chemistry. Full characterization of our complexes with IR and UV-Visual spectroscopy is currently in progress and will provide data on their electronic structures, which will aid in further understanding benzyne and f-block chemistry.