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Creators/Authors contains:
"Maindan, Karan"
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Rajasree, Sreehari Surendran; Yu, Jierui; Fajardo-Rojas, Fernando; Fry, H. Christopher; Anderson, Ryther; Li, Xinlin; Xu, Wenqian; Duan, Jiaxin; Goswami, Subhadip; Maindan, Karan; et al (, Journal of the American Chemical Society)
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Li, Xinlin; Yu, Jierui; Lu, Zhiyong; Duan, Jiaxin; Fry, H. Christopher; Gosztola, David J.; Maindan, Karan; Rajasree, Sreehari Surendran; Deria, Pravas (, Journal of the American Chemical Society)
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Li, Xinlin; Surendran Rajasree, Sreehari; Gude, Venkatesh; Maindan, Karan; Deria, Pravas (, Angewandte Chemie International Edition)Abstract Traditional MOF e‐CRR, constructed from catalytic linkers, manifest a kinetic bottleneck during their multi‐electron activation. Decoupling catalysis and charge transport can address such issues. Here, we build two MOF/e‐CRR systems, CoPc@NU‐1000 and TPP(Co)@NU‐1000, by installing cobalt metalated phthalocyanine and tetraphenylporphyrin electrocatalysts within the redox active NU‐1000 MOF. For CoPc@NU‐1000, the e‐CRR responsive CoI/0potential is close to that of NU‐1000 reduction compared to the TPP(Co)@NU‐1000. Efficient charge delivery, defined by a higher diffusion (Dhop=4.1×10−12 cm2 s−1) and low charge‐transport resistance (=59.5 Ω) in CoPC@NU‐1000 led FECO=80 %. In contrast, TPP(Co)@NU‐1000 fared a poor FECO=24 % (Dhop=1.4×10−12 cm2 s−1and=91.4 Ω). For such a decoupling strategy, careful choice of the host framework is critical in pairing up with the underlying electrochemical properties of the catalysts to facilitate the charge delivery for its activation.more » « less
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Yu, Jierui; Anderson, Ryther; Li, Xinlin; Xu, Wenqian; Goswami, Subhadip; Rajasree, Sreehari Surendran; Maindan, Karan; Gómez-Gualdrón, Diego A.; Deria, Pravas (, Journal of the American Chemical Society)null (Ed.)
