Shaping the Electrocatalytic Performance of Metal Complexes for CO<sub>2</sub> Reduction

Gotico, Philipp; Leibl, Winfried; Halime, Zakaria; Aukauloo, Ally

doi:10.1002/celc.202100476

Cited by 8 publications

(16 citation statements)

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“…This anodic shift follows the π-delocalization trend of the Fe-Por reported above. 46–48 Furthermore, the faradaic efficiency for CO (FE CO ) is higher for Fe-TBTPP than for either Fe-TPP or Fe-TbcTPP across the entire potential range (Fig. 3b and S5†), with a maximum of 91% at −0.55 V vs. RHE.…”

Section: Resultsmentioning

confidence: 98%

“…[25][26][27] Molecular components offer additional versatility compared to metals because their electronic and structural features can be tuned via synthetic modications. [28][29][30][31] While the examples are still limited, studies in the literature on tandem catalysts including CO-producing molecular catalysts and Cu are encouraging. [25][26][27] For example, the addition of either an iron porphyrin or a cobalt phthalocyanine to sputtered Cu resulted in enhanced C 2+ product yields.…”

Section: Introductionmentioning

confidence: 99%

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Tandem electrocatalytic CO₂ reduction with Fe-porphyrins and Cu nanocubes enhances ethylene production

et al. 2022

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Section: Resultsmentioning

confidence: 98%

Section: Introductionmentioning

confidence: 99%

Tandem electrocatalytic CO₂ reduction with Fe-porphyrins and Cu nanocubes enhances ethylene production

et al. 2022

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“…The addition of chemical functionalities in the second coordination shell to establish local proton sources, hydrogen bond relays, and electrostatic activators in the vicinity of the active site has led to unprecedented enhancement in the catalytic properties. [24][25][26][27] Herein, we take a closer inspection to the rarely investigated bimetallic strategy (homo-vs hetero-bimetallic) in activating and reducing CO 2 .…”

Section: Molecular Bimetallic Catalystsmentioning

confidence: 99%

Bimetallic Molecular Catalyst Design for Carbon Dioxide Reduction

et al. 2023

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The core challenge in developing cost‐efficient catalysts for carbon dioxide (CO2) conversion mainly lies in controlling its complex reaction pathways. One such strategy exploits bimetallic cooperativity, which relies on the synergistic interaction between two metal centers to activate and convert the CO2 substrate. While this approach has seen an important trend in heterogeneous catalysis as a handle to control stabilities of surface intermediates, it has not often been utilized in molecular and heterogenized molecular catalytic systems. In this review, we gather general principles on how natural CO2 activating enzymes take advantage of bimetallic strategy and how phosphines, cyclams, polypyridyls, porphyrins, and cryptates‐based homo‐ and hetero‐bimetallic molecular catalysts can help understand the synergistic effect of two metal centers.

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“…141,205,210,212 However, the effects exerted by second-sphere substituents seem to play a significant role as suggested by several recent reports. 114,[213][214][215] Therefore, it is imperative to consider those effects which may contribute to the efficiency of -COOH decorated molecular catalysts. Based on mechanism studies, molecular catalysts substituted with hydroxyl (-OH), amino (-NH2), carboxylic (-COOH) groups have been shown to behave as proton donors or Hbond donors during CO2 adsorption by central metal atom and its subsequent conversion to *COOH.…”

Section: Electrochemical Tests: Fe and Current Densitymentioning

confidence: 99%

“…Recent studies have shown that the position of functional group in this second sphere also plays an important role towards performance enhancement by modulating the electronic structure and affecting the ability of the catalyst molecules to interact with CO2 and its intermediates. 38,214 Substituents in the second coordination sphere may play the role of proton donor, 222 stabilize CO2 and reaction intermediates via Hbonding, 117 exert through-space electrostatic effects, 123 or exert inductive/mesomeric effects. 223 Ortho position on phenyl rings of second coordination sphere has typically been shown to improve the catalytic performance due to its proximity to the catalytic sites resulting into enhanced ability to exert various effects.…”

Section: Tuning Of Second Coordination Spherementioning

confidence: 99%

Heterogeneous reduction of CO2 to CO under aqueous conditions using transition metal based molecular catalysts

Reddu¹

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Yuecheng Peng for fruitful discussions and helping me solve silliest to serious problems in the lab, on a day-to-day basis. I would also like to thank my friend and a senior, Dr. Jean Marie Vianney Nsanzimana, for his motivating words and for pushing me to reach several milestones of my PhD journey. I would like to acknowledge the technical and administrative staff of SCBE and technical staff of FACTS for their immense support pertaining to instrument training and various aspects of research and financial matters. I would also like to thank Prof. Rong Xu and her research group for being kind enough to allow me to use their lab equipment in dire situations. I would like to express my sincere thanks to Mr. Sivagnanam, my counsellor at the University Wellbeing Centre, for taking care of my mental health in the difficult times. A special shout-out to friends and peers from SCBE-GSC, NTU-GSA, and TEDxNTU. You guys were amazing, and I truly enjoyed working with each one of you. vii This thesis would not have been possible without Garima and Shuddhodana, who were like a family and a home in Singapore, present during the highs and the lows, a part of countless memories, and the rock of my PhD life. Thanks to Shashank for being the best neighbour and a friend one could ask for. Special thanks to Neha, Nupur, and Arunima for being there for me in the most testing times, especially over the last few years. Thank you for your fun company over countless lunches, cups of tea, and evening walks. I would like to extend a heartfelt thanks to my friends, Jayesh, Akshay, Deepam, Mehra, Avaneesh, Ambar, Vasavi, and Madhu, who are back in India but stayed in touch and supported me during all these years. With more than a decade of your love and friendship, you folks are truly special. Thanks to Dr. Sneha and Dr. Sulagna for being a wonderful company in the office. A special mention and thanks to Mahasweta for teaching me how to bake a cake. I would like to express a deep sense of gratitude to my mother Mrs. Nirmala Devi, my father Mr. Kalyan Singh, and my brother Mr. Amit Reddu, for their unconditional love and support and for persevering with me during my research career. This journey would not have been feasible without you. Last, but not the least, I would like to thank School of Chemical and Biomedical Engineering, Nanyang Technological University, and various funding agencies for supporting my research and graduate studies in Singapore and for the opportunity of a lifetime. viii Table of ContentsStatement of Originality .

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Shaping the Electrocatalytic Performance of Metal Complexes for CO₂ Reduction

Cited by 8 publications

References 77 publications

Tandem electrocatalytic CO₂ reduction with Fe-porphyrins and Cu nanocubes enhances ethylene production

Tandem electrocatalytic CO₂ reduction with Fe-porphyrins and Cu nanocubes enhances ethylene production

Bimetallic Molecular Catalyst Design for Carbon Dioxide Reduction

Heterogeneous reduction of CO2 to CO under aqueous conditions using transition metal based molecular catalysts

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Shaping the Electrocatalytic Performance of Metal Complexes for CO2 Reduction

Cited by 8 publications

References 77 publications

Tandem electrocatalytic CO2 reduction with Fe-porphyrins and Cu nanocubes enhances ethylene production

Tandem electrocatalytic CO2 reduction with Fe-porphyrins and Cu nanocubes enhances ethylene production

Bimetallic Molecular Catalyst Design for Carbon Dioxide Reduction

Heterogeneous reduction of CO2 to CO under aqueous conditions using transition metal based molecular catalysts

Contact Info

Product

Resources

About

Shaping the Electrocatalytic Performance of Metal Complexes for CO₂ Reduction

Tandem electrocatalytic CO₂ reduction with Fe-porphyrins and Cu nanocubes enhances ethylene production

Tandem electrocatalytic CO₂ reduction with Fe-porphyrins and Cu nanocubes enhances ethylene production