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.

Our lab is also launching new efforts on facilitating efficient electron transfers to living cells – graduate students and postdocs interested in working in this new area are encouraged to reach out to Karthish.

Learn More

publications

Sustainable ammonia synthesis: Just around the corner?
Channing K. Klein, Karthish Manthiram Joule 6, 1971-1973 (2022)
Tuning Single-Atom Dopants on Manganese Oxide for Selective Electrocatalytic Cyclooctene Epoxidation
Minju Chung, Kyoungsuk Jin, Joy S. Zeng, Thu N. Ton, Karthish Manthiram J. Am. Chem. Soc. , - (2022)
Ammonium Formate as a Safe, Energy-Dense Electrochemical Fuel Ionic Liquid
Zachary J. Schiffer, Sayandeep Biswas, Karthish Manthiram ACS Energy Lett. 7, 3260-3267 (2022)

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 LabFollow3052,468

Student-run Twitter for Manthiram Lab at Caltech (w/ some folx still at MIT). Using electricity to make/break bonds! Managed by @racheljbaker17

Manthiram Lab @ManthiramLab·

September 27 1574562729762820096

Meet Haochen (@Chenically)! He received his Ph.D. in Chemical Engineering from Tsinghua University, developing efficient electrocatalysts for CO2/CO reduction and alkane activation employing kinetics, DFT calculations, and spectroscopy under the supervision of Professor Qi Lu

Reply on Twitter 1574562729762820096 Retweet on Twitter 15745627297628200962 Like on Twitter 157456272976282009635 Twitter 1574562729762820096

Retweet on Twitter Manthiram Lab Retweeted

Channing Klein @radicalchem·

September 22 1573028033358794752

Very honored to have written a preview for the Chorkendorff lab's excellent work on sustainable ammonia synthesis in the most recent issue of @Joule_CP, now online! Thanks to @KManthiram and @Joule_CP for the opportunity.
Read here: https://www.cell.com/joule/fulltext/S2542-4351(22)00419-6

Reply on Twitter 1573028033358794752 Retweet on Twitter 157302803335879475211 Like on Twitter 157302803335879475260 Twitter 1573028033358794752

Manthiram Lab @ManthiramLab·

September 21 1572384811926560769

Check out our newest paper in @ACSEnergyLett! @ZJSchiffer et al. report on the use of ammonium formate as a safe, solid energy carrier, achieving excellent faradaic efficiencies at both the anode and cathode.
#ionicliquid

https://pubs.acs.org/doi/10.1021/acsenergylett.2c01826

Reply on Twitter 1572384811926560769 Retweet on Twitter 157238481192656076913 Like on Twitter 157238481192656076954 Twitter 1572384811926560769

Retweet on Twitter Manthiram Lab Retweeted

Rachel Baker @racheljbaker17·

September 16 1570916467960610821

That’s a wrap for the Echem GRC! Such an amazing experience representing the @ManthiramLab with @js_zeng and of course the wonderful @KManthiram! Looking forward to 2024 already! @GordonConf

Reply on Twitter 1570916467960610821 Retweet on Twitter 15709164679606108213 Like on Twitter 157091646796061082149 Twitter 1570916467960610821

Manthiram Lab @ManthiramLab·

September 13 1569816345528905729

Introducing… Jeff DuBose! Our newest postdoc did his PhD with @KamatlabND, where he utilized spectroscopic and electrochemical techniques to probe photocatalytic and photovoltaic materials.

@dubose_jeff

Reply on Twitter 1569816345528905729 Retweet on Twitter 15698163455289057291 Like on Twitter 156981634552890572946 Twitter 1569816345528905729

Retweet on Twitter Manthiram Lab Retweeted

ACSEnergyLett @ACSEnergyLett·

September 6 1567233584057942016

Members of @KManthiram lab demonstrate an electrochemical cell that decomposes ammonium formate at 105 °C, where it is an ionic liquid. Here, hydrogen evolves at the cathode and formate oxidizes at the anode, both with ca. 100% Faradaic efficiency. https://pubs.acs.org/doi/10.1021/acsenergylett.2c01826#.YxefaDzXOtA.twitter

Reply on Twitter 1567233584057942016 Retweet on Twitter 156723358405794201613 Like on Twitter 156723358405794201638 Twitter 1567233584057942016

CALIFORNIA INSTITUTE OF TECHNOLOGY

Division of Chemistry and Chemical Engineering

Karthish (PI): 626-395-3140 / karthish@caltech.edu / Spalding 225

Martha (Admin): 626-395-2423 / martha@cheme.caltech.edu / Spalding 208

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