Karthish Manthiram - Caltech Lab: Home

The Manthiram Lab has moved to Caltech!

Research

The Manthiram Lab, led by Karthish Manthiram in Caltech’s Division of Chemistry and Chemical Engineering, creates electrically-powered catalysts that use nitrogen gas, carbon dioxide, and water as sustainable inputs for chemical synthesis. We take pride in not just the science we do, but how we do it.

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

Suppressing Carboxylate Nucleophilicity with Inorganic Salts Enables Selective Electrocarboxylation without Sacrificial Anodes
Nathan Corbin, Dengtao Yang, Nikifar Lazouski, Katherine Steinberg, Karthish Manthiram Chemical Science , - (2021)
Probing metal-organic frameworks during water oxidation electrocatalysis
Minju Chung, Karthish Manthiram Matter 4,8, 2593-2595 (2021)
Electrochemical Modulation of Carbon Monoxide-Mediated Cell Signaling
Jimin Park, Joy S. Zeng, Atharva Sahasrabudhe, Kyoungsuk Jin, Yoel Fink, Karthish Manthiram, Polina Anikeeva Angewandte Chemie International Edition , - (2021)

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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 LabFollow2531,871

Student-run Twitter for Manthiram Lab at Caltech (starting late 2021). Using electricity to make/break bonds! Managed by @adityal and @ReadMeLikeANook

Manthiram Lab @ManthiramLab·

August 25 1430628491163144195

Check out our latest paper! Nathan et al. show how to perform electrocarboxylation without sacrificial anodes by rational electrolyte design, a key milestone toward making the process sustainable and practical.

#MyFirstChemSci #OrganicElectrosynthesis

https://pubs.rsc.org/en/content/articlelanding/2021/sc/d1sc02413b

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Chemical Science@ChemicalScience·

August 23 1429805626364891141

NEW in @ChemicalScience 📣 Suppressing carboxylate nucleophilicity with inorganic salts enables selective electrocarboxylation without sacrificial anodes by Karthish Manthiram et al. at @ManthiramLab 😍

Read it here ➡️ http://ow.ly/j6l550FURJ4

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Manthiram Lab @ManthiramLab·

August 17 1427696707744059395

We had a fun time this weekend hiking Mount Monadnock! Here we are at the very peak of the thermodynamic landscape of southern New Hampshire. #AllDownhillFromHere #HighEnergy #TransitionState #InsertWittyJokeAboutVolcanoPlots

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Matter_CP @Matter_CP·

August 13 1426172939209216003

.@manthiramlab’s @chung_minju & @Kmanthiram take inspiration from the use of operando x-ray spectroscopy to understand active sites in #MOFs for #electrocatalysis!

#MatterIssue26 Preview: https://bit.ly/3yJFsAT
@NatureEnergyJnl Research Article: https://go.nature.com/3lXTwTT

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Manthiram Lab @ManthiramLab·

July 25 1419396734149595139

A huge congratulations to Zack Schiffer, the Manthiram Lab’s newly minted PhD! 🎓 Dr. Schiffer defended his thesis titled “Kinetic and Thermodynamic Aspects of Voltage as a Driving Force for Ammonia Activation” on Thursday.

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Karthish Manthiram @KManthiram·

July 23 1418565381870931968

Congratulations to Dr. Zack Schiffer on his thesis defense! Zack was a member of our 1st cohort of students - he established a clear vision for electrification of synthesis with a thermodynamic basis and new methods of generating C-N bonds, always blending theory and experiment.

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CALIFORNIA INSTITUTE OF TECHNOLOGY

Division of Chemistry and Chemical Engineering

Karthish (PI): 617-715-5740 / karthish@caltech.edu

Caltech | Division of Chemistry and Chemical Engineering

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