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Research

The Manthiram Lab is focused on creating electrically-powered catalysts which drive oxidation and reduction steps involved in chemical synthesis, using nitrogen gas, carbon dioxide, and water as sustainable synthons.

CO₂ as C-atom source

Carbon-negative functionalization of molecules using carbon dioxide

N₂ as N-atom source

Dissociating dinitrogen molecules for chemical synthesis

H₂O as O-atom source

Transferring oxygen atoms from water to organic molecules

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publications

Heterogeneous molecular catalysts for electrocatalytic CO₂ reduction
N. Corbin, J. Zeng, K. Williams, K. Manthiram Nano Research 12, 2093-2125 (2019)
Direct electrochemical carboxylation of benzylic C-N bonds with carbon dioxide
D. Yang, M. Zhu, Z. J. Schiffer, K. Williams, X. Song, X. Liu, K. Manthiram ACS Catalysis 9, 4699-4705 (2019)
Epoxidation of Cyclooctene Using Water as the Oxygen Atom Source at Manganese Oxide Electrocatalysts
K. Jin, J. H. Maalouf, N. Lazouski, N. Corbin, D. Yang, and K. Manthiram Journal of the American Chemical Society 141, 6413-6418 (2019) Highlighted in The Chemical Engineer by A. Jasi,MIT News by A. Trafton,C&EN by L. Boerner,Energy Futures by N. Stauffer,C&EN Year in Review

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TEAM

Members of our team deeply analyzing carbon and oxygen atoms – sadly, candlepin bowling does not provide nitrogen atoms.

Meet Our Team

NEWS

Manthiram LabFollow136551

Student-run Twitter for the Manthiram Lab at MIT. We use electricity to make and break chemical bonds!

Manthiram Lab @ManthiramLab·

February 7 1225572405759725568

We're "hard at work" @BrookhavenLab - definitely "totally focused on XAS"

Gotta stay awake somehow 🚲🚲🚲🚲

#StayBetweenTheLines #AvoidTheWhiteLine #XraySafety #WhyArentYouGuysWearingHelmetsTho

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Manthiram Lab @ManthiramLab·

February 4 1224492058796118017

Our group also quickly tried to reproduce the Bi #NRR work and also saw zero catalytic activity. Good to see someone taking the time to rigorously reproduce it.

Alexandr Simonov@Simonov_A_N

We attempted hard, but Bi is not electrocatalytically active for the reduction of nitrogen to #ammonia.

If you believe you have a genuine #NRR catalyst (Bi or any other) - @DRMacFarlane and I at @ChemistryMonash @ARC_ACES will be happy to test it for you

https://chemrxiv.org/articles/Promoting_Nitrogen_Electroreduction_to_Ammonia_with_Bismuth_Nanocrystals_and_Potassium_Cations_in_Water/11768814

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Karthish Manthiram @KManthiram·

January 30 1222922262887718919

How do you electrify and decarbonize the production of chemicals and materials? A big thank you to @johnkwerner for making this @TEDxMIT talk happen! @MIT @MITChemE @mitenergy @MITEngineering @TEDtalks https://www.ted.com/talks/karthish_manthiram_electrification_and_decarbonization_of_chemical_manufacturing?utm_campaign=tedspread&utm_medium=referral&utm_source=tedcomshare

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MIT Energy Initiative @mitenergy·

January 31 1223287352619098112

🗞️ ☀️ This week in MITEI news: cheaper solar cells + understanding combustion + greener raw materials for consumer products: https://mailchi.mp/mit.edu/152-the-cheaper-solar-cells-edition

@KManthiram @ManthiramLab @MITEnergyConf @ClimateMIT @MITGlobalChange @MITMechE @MITEngineering

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Manthiram Lab @ManthiramLab·

January 15 1217319395682160642

*Group chanting* "One of us! One of us!"

Come join the team!

Karthish Manthiram@KManthiram

Please RT - looking for talented postdocs!
Interested in electrifying and decarbonizing chemical synthesis? Our team is innovating at the interface of organic synthesis, catalysis, and electrochemistry.
Check out https://manthiramlab.com/join-us to learn more. @MITChemE

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Manthiram Lab @ManthiramLab·

January 7 1214417934619045888

Hot & fresh: @adityal's latest paper with @WillardLab! We are glad to have a co-advised theorist in the group who helps us to think about the EDL more deeply.

Adam Willard@WillardLab

Check out our latest publication. We use theory to examine interfacial electron transfer within the double layer. Great work Adi! @adityal https://pubs.acs.org/doi/abs/10.1021/acs.jpcc.9b08438

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MASSACHUSETTS INSTITUTE OF TECHNOLOGY

Department of Chemical Engineering

Karthish (PI): 617-715-5740 / karthish@mit.edu / 66-550

Helen (Admin): 617-258-7036 / harroyo@mit.edu / 66-552

CO2 as C-atom source

N2 as N-atom source

H2O as O-atom source

CO₂ as C-atom source

N₂ as N-atom source

H₂O as O-atom source