Cyclooctatetraene: A Bioactive Cubane Paradigm Complement

Cubane was recently validated as a phenyl ring (bio)isostere, but highly strained caged carbocyclic systems lack π character, which is often critical for mediating key biological interactions. This electronic property restriction associated with cubane has been addressed herein with cyclooctatetraene (COT), using known pharmaceutical and agrochemical compounds as templates. COT either outperformed or matched cubane in multiple cases suggesting that versatile complementarity exists between the two systems for enhanced bioactive molecule discovery.

Scandium-Mediated Formation of a Bis(tetrahydropentalene)

The reactivity of Li[Sc(COT'')₂ ] (1; COT''=1,4-bis(trimethylsilyl)cyclooctatetraenyl) towards CoCl₂ is considerably different from that of related lanthanide triple-decker sandwich complexes. In addition to the expected triple-decker complex Sc₂ (COT'')₃ (2), the complex Sc₂ {μ-BTHP}(COT'')₂ (3) is formed, which comprises the novel BTHP^2- ligand (BTHP^2- =bis(3,5-bis(trimethylsilyl)-1,3a,6,6a-tetrahydropentalene-1-yl)diide or bis(2,7-bis(trimethylsilyl)bicyclo[3.3.0]octa-2,7-dien-4-yl)diide, C₁₆ H₁₀ (SiMe₃ )₄^2- ). The formation of 3 is likely facilitated by the fact that scandium prefers η⁸ ,η³  coordination rather than highly symmetric η⁸ ,η⁸  coordination, and the η³ -coordinated COT'' ligand in 1 is activated owing to a loss of aromaticity. Acid hydrolysis of 3 leads to air-stable H₂ BTHP (4).