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Hard–Soft Acid–Base Theory Explains Photoexcited Carrier Dynamics in Porphyrin/CNT Nanohybrids: Time-Domain Atomistic Analysis

Uttam Kumar Chowdhury, Shrabanti Mondal, Subhajit Dey, Md Habib, Ritabrata Sarkar, Shriya Gumber, Pabitra Chattopadhyay, Pranab Sarkar, Oleg V. Prezhdo, Sougata Pal

2025Journal of the American Chemical Society6 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide We employ the fundamental chemical concepts of hard–soft acid–base to formulate general principles governing excited-state dynamics in zinc porphyrin (ZnP)/carbon nanotube (CNT) hybrids for energy photoconversion. Atomistic quantum dynamics simulations demonstrate that electron-withdrawing and donating substituents at the ZnP β-pyrrolic position strongly influence the dynamics. ZnP photoexcitation produces subpicosecond electron transfer (ET) from ZnP to CNT, in agreement with the experiment. Substitutions of CN by H and t Bu accelerate the ET. The trend is directly related to the hard–soft acid–base concept because the soft–soft interaction between the t Bu-ZnP acid and the mild CNT base enhances the donor–acceptor coupling. Longer coherence and more active vibrational modes facilitate the ET in t Bu-ZnP/CNT. Electron–hole recombination in CN-ZnP/CNT occurs on a hundred picosecond time scale, nicely corroborated by the experiment. The exciton lifetime is extended beyond a nanosecond by the substitutions. The soft–soft interaction in t Bu-ZnP/CNT increases the splitting between the highest occupied orbitals of the two subsystems, reduces their mixing, and decreases nonadiabatic coupling between the ground and excited states. Rapid decoherence and involvement of low-frequency vibrations favor longer lifetimes. Our investigation reveals that larger p K a of the β-pyrrolic acid gives rapid ET and slow recombination and provides detailed mechanistic information, essential for future optoelectronic applications.

Topics & Concepts

ChemistryPorphyrinDynamics (music)Time domainDomain (mathematical analysis)Chemical physicsNanotechnologyMolecular dynamicsComputational chemistryPhotochemistryPhysicsMathematicsComputer scienceAcousticsMaterials scienceComputer visionMathematical analysisSpectroscopy and Quantum Chemical StudiesPorphyrin and Phthalocyanine ChemistryPhotochemistry and Electron Transfer Studies