Karthish Manthiram - MIT Lab: Home

Research

The Manthiram Lab, led by Karthish Manthiram in MIT Chemical Engineering, creates electrically-powered catalysts that use nitrogen gas, carbon dioxide, and water as sustainable inputs for chemical synthesis.

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

We innovate in the development of catalysts which drive selective organic electrosynthesis – this requires deep understanding of electrochemistry, organic chemistry, and materials chemistry, from both an experimental and theoretical perspective.

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publications

Redox Reservoirs: Enabling More Modular Electrochemical Synthesis
Joy S.Zeng and Karthish Manthiram Trends in Chemistry , - (2021)
Bayesian Data Analysis Reveals No Preference for Cardinal Tafel Slopes in CO₂ Reduction Electrocatalysis
A. M. Limaye, J. S. Zeng, A. Willard, K. Manthiram Nature Communications (accepted) , - (2021)
Thermodynamic Discrimination between Energy Sources for Chemical Reactions
Z. J. Schiffer, A. M. Limaye, K. Manthiram Joule 5, 1-14 (2021)

See All Publications

TEAM

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

Meet Our Team

NEWS

Manthiram LabFollow2301,345

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

Manthiram Lab @ManthiramLab·

January 11 1348752221370941440

Great example of "office musings" yielding useful frameworks - Zack and @adityal take us another step toward understanding chemistry not as "either/or," EChem v. Thermochem, but as universally dependent upon multiple thermo variables. Out now in @Joule_CP! https://www.cell.com/joule/fulltext/S2542-4351(20)30613-9

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Joule @Joule_CP·

January 11 1348731160499609602

Online Now: Thermodynamic Discrimination between Energy Sources for Chemical Reactions from @ManthiramLab and @KManthiram http://dlvr.it/RqMYk5 #chemistry #energy #Joule #electrochemistry #thermodynamics

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Manthiram Lab @ManthiramLab·

December 12 1337835655775145984

Huge congrats to Katie (@kjsteinb) for passing her thesis proposal! A bright future full of lithium chemistry awaits! #NitrogenReduction #BreakingBonds #TakingNames Pic credit may possibly go to Juniper the cat?? 🐱

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Manthiram Lab @ManthiramLab·

November 22 1330622262534316033

We're stoked to welcome 3 new grad students to the team: Sayandeep, Simar, and Trent! Onboarding is not the same right now, but we're looking forward to learning and growing with you, & gradually ramping up research as public health measures allow! #VoltageBoost #LabExcitedState

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Manthiram Lab @ManthiramLab·

November 18 1328903725470027776

This one has been a long time coming, but finally in the midst of #AIChE2020 it has arrived! @chung_minju demonstrates chlorine-mediated ethylene epoxidation in saline water. If you love high rates, high FEs, and industrially-relevant EChem, we got you: https://pubs.acs.org/doi/full/10.1021/acscatal.0c02810

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Manthiram Lab @ManthiramLab·

November 16 1328222332020682754

We're at #AIChE2020! Come find us:

Mon: Carboxylation (Nathan)
Tue: O-atom Transfer (@KManthiram )
Wed: Thermodynamics of E Sources (Zack)
Thu: C-H Activation (@ReadMeLikeANook) & Amination (Zack)
Fri: CO2R Modeling (@js_zeng) & Bayesian Tafel Slope Analysis (@adityal)

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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

MIT | MIT ChemE | Accessibility

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