Associate professor, chemical engineer: passionate about flow chemistry, continuous separation, bioprocess, sustainable process I @MIT'13 & '16 I @Columbia'11
Excited to share our new review article in Reaction Chemistry & Engineering! We explore how automation can turn dynamic separations (e.g., adsorption, chromatography) into continuous processes.
https://t.co/KfJGefkGTs
📣PhD available in our group focusing on Digital & Flow Chemistry for #MOF production. Based in Sch Chemistry & iPRD @UniLeeds. Start date: 1st Oct 2025. ⏰️Deadline 30th May. Please re-X to spread the word 🙏 https://t.co/HaXWPb8d1D
A new paper regarding "Formation of Capsule-in-Capsule under Flow" has been published in Scientific Reports! Congrats!!
マイクロ空間で、ある組成で液滴を作ると、自発的に多層カプセルが得られる という研究がScientific Reports誌から出版されました。
https://t.co/3tfi4WPNad
Our group at @polimi has still #PhD and #postdoc positions open on #organic#materials for catalysis and fine chemicals.
We have some very excited projects 😁- plus #Milan is a beautiful city to live and work!
Please send your CV and motivation letter to [email protected]
I’m thrilled to announce that the application for the 2025 edition of our @medialab and global synthetic biology course, “How to Grow (Almost) Anything” is now open! Application link in thread 👇
1st paper of 2025 is a fact: Turns out, adding gas bubbles can boost photon absorption in photoreactors by scattering and intensifying light intensity.
🔗@RSC_ReactionEng: https://t.co/bLeMVHQZWd
🙌: @JHASchuurmans, @StZondag, Arnab, Miguel, John and @tnoel82#flowchemistry
Excited to share our latest work in 2024 combining chemical & enzymatic reactions to achieve high yield & STY in continuous flow, synthesizing indole-3-acetic acid. Huge thanks to lead author @SippakornM295 & all contributors for their support!
https://t.co/V5Zse4e7KV
📢We are hiring!
Are you passionate about electro-, 💡photo- and 🌊flow chemistry? Come and work with us at Tallinn University of Technology, Estonia!
Please share and apply!
#PostdocPosition#OrganicChemistry#FlowChemistry
Happy to share my first @Nature paper! 🎉 We developed a new visible-light photocatalytic system that enables the degradation of “forever chemicals” PFAS! A step forward in tacking one oh the toughest environmental challenges! #PFAS https://t.co/ErFXTmMuXX
Dr. Watanabe and Kyoka met Prof. Nopphon again in CES-CHEM at Kyoto University. It was a precious time for us!!
6月に訪問したブラパ大学(タイ)のノッポン先生に京都大学でお会いできました!(解散直前の記念写真)
Quite a good response so far with many poster presentations and large industrial attendance! If you want and can free up some time, we can still accommodate your stay in Amsterdam 👇
Exciting opportunity for students, academics and industry!
Photon absorption losses in gas-liquid photoreactors are smaller than expected!
Reflection, refraction, and scattering—especially with smaller gas bubbles—enhance absorption, offering fresh insights for optimizing photochemical processes.
Now @ChemRxiv: https://t.co/qLPnSFrT0h
Huge thanks to Dr. Chetsada Khositanon, our lead author, and the incredible team: Dr. Taya, Mr. @vws97 Waichaya , Prof. Somboon, Prof. Sareeya, and Prof. Makoto! n/n
Excited to share our latest publication in ACS Sustainable Chemistry & Engineering! @ACSSustainable. We hit an impressive photocatalytic space-time yield for continuous flow benzene hydroxylation to benzene.
https://t.co/HHjT7A1x4Q
1/n
We leveraged a continuous flow flat-plate reactor with a large irradiation window and short photon penetration depth. The photocatalyst immobilization was uniform via smectite clays and a 3D-printed casting template. 2/n