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In redox conducting MOFs, electric conductivity is a function of the redox state, and maximizes at the standard potential. JINGGUO LI @Drbenjohnsoniii Department of Chemistry - Ångström nature.com/articles/s4146…

Been wanting to get into CO2-electrolysis? Tom Burdyny’s lab has your back! 🙌🏻 In our latest ACSEnergyLett Viewpoint we detail our setup and guide you through al steps for assembly and operation of lab-scale CO2 electrolyzers. Thank you, PKamat! pubs.acs.org/doi/10.1021/ac…

We are excited to share our work on molecular loaded bismuth vanadate photoanodes for solar water splitting in Advanced Functional Materials: onlinelibrary.wiley.com/doi/full/10.10…! Many thanks to our collaborators and to Greta Ricarda Patzke URPP LightChEC UZH Chemistry @_Victor_Mougel

The @UU_University MOF symposium is in the books. Thanks to StefanKaskel AJ Morris Lab at VT Cohen Lab Lauren Macreadie S. Kitagawa Group @DincaGroupMIT and many others for fantastic talks. Now off to the #NobelSymposium

Haining Tian wants to develop a climate-friendly "solar fuel" with sunshine, carbon dioxide and water. He wants to mimic what the plants are doing to create green #energy #KAW100 #Fuel #GreenEnergy #Research #science #technology @UU_University #climate youtu.be/0LT5ICc1cXQ

So honored to participate such a wonderful #NobelSymposium on MOFs, learned a lot form pioneers in the field. Thanks to organisers to make it happen and to my supervisor The Ott Laboratory for all the support.

Electrochromism in Isoreticular Metal–Organic Framework Thin Films with Record High Coloration Efficiency dx.doi.org/10.1021/acsnan…

Thank you, Sascha! It's a wonderful project with a wonderful team. Big congrats to Amol Kumar Amol Kumar on your first 'first author' research output. 😀

Leveraging differing pi-systems in isoreticular Zn-pyrazolate MOF thin films for bright and fast electrochromism. The Ott Laboratory , SMC Program , Department of Chemistry - Ångström go.acs.org/6Jx

Upcoming O-I-M Seminar - Sascha Ott , Uppsala University, Department of Chemistry - February 2nd, 2024 @ 3:00 pm, 110 WIL Hall

Great opportunity in a friendly research group! Highly recommended!

A very joyful project with redox-conductive MOFs, with many different colours and more importantly a good platform for mechanistic studies. Another great teamwork with The Ott Laboratory Amol Kumar and thanks to @wise_materials SMC Program Department of Chemistry - Ångström for funding our research!

In addition to solar fuel production, Pdots can selectively oxidize alcohols while simultaneously producing hydrogen peroxide. Check out our latest work nature.com/articles/s4146…

The metalation of bipyridine binding sites in #MOFs may, or may not, lead to core-shell architectures. Insightful collaboration with Daniel Primetzhofer , now OA in DaltonTransactions pubs.rsc.org/en/content/art…

Congrats to Thuan & Anna from team Jonathan McCarthy. The [2+2]cycloaddition of a silene and a ketone give rise to silaoxetane, which collapse to alkenes. Towards a non-ionic Peterson olefination onlinelibrary.wiley.com/doi/epdf/10.10… SMC Program Department of Chemistry - Ångström

If you’re interested in redox-conducting #MOFs, how to differentiate them from other MOFs, and how to think about them, then this #OA paper in Accounts of Chemical Research is for you! Big thanks to JINGGUO LI

Electron transport through redox-conducting MOFs is not all diffusion, but emerging electric fields cause migration that has been overlooked until now. It can be measured by steady-state experiments. Collaboration with Ben Johnson pubs.rsc.org/en/content/art…

Interested in how surface layers can impact photocurrents from illuminated semiconductors? This is illustrated in MOF-coated semiconductor photoelectrodes. Check it out, open access in J. Am. Chem. Soc. Congrats to JINGGUO LI and Amol Kumar pubs.acs.org/doi/epdf/10.10…

More to consider when modifying semiconductor surfaces for photoelectrochemistry.

The double edged effect of interfacial charge accumulation on hematite photoanode surfaces, special thanks to Greta Ricarda Patzke for continuous support, to all collaborators, and to @jacs for spreading our research.