Electron donor-acceptor (DA) hybrids comprised of single-wall carbon nanotubes (SWCNTs) are promising functional materials for light energy conversion. However, the DA hybrids built on SWCNTs have failed to reveal the much-sought long-lived charge separation (CS) due to the close proximity of the DA entities facilitating charge recombination. Here, we address this issue and report an elegant strategy to build multi-modular DA hybrids capable of producing longlived CS states. For this, a nano tweezer featuring Vshape configured BODIPY was synthesized to host SWCNTs of different diameters via π-stacking. Supported by spectral, electrochemical, and computational studies, the established energy scheme revealed the possibility of sequential electron transfer. Systematic pump-probe studies covering wide spatial and temporal scales provided evidence of CS from the initial 1 BODI-PY* ultimately resulting in C 60 *À -BODIPY-SWCNT * + CS states of lifetimes in the 20-microsecond range.
Electron donor-acceptor (DA) hybrids comprised of single-wall carbon nanotubes (SWCNTs) are promising functional materials for light energy conversion. However, the DA hybrids built on SWCNTs have failed to reveal the much-sought long-lived charge separation (CS) due to the close proximity of the DA entities facilitating charge recombination. Here, we address this issue and report an elegant strategy to build multi-modular DA hybrids capable of producing longlived CS states. For this, a nano tweezer featuring Vshape configured BODIPY was synthesized to host SWCNTs of different diameters via π-stacking. Supported by spectral, electrochemical, and computational studies, the established energy scheme revealed the possibility of sequential electron transfer. Systematic pump-probe studies covering wide spatial and temporal scales provided evidence of CS from the initial 1 BODI-PY* ultimately resulting in C 60 *À -BODIPY-SWCNT * + CS states of lifetimes in the 20-microsecond range.
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