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We know MOF melts, HOIP melts, but are they networked liquids? anisotropic? This review tries to describe these functional (supercooled) liquids with reference to metal-ionic liquids, and porous liquids. Thanks Chemical Science for this opportunity🙇

The electronic structure of Prussian blue glass is very distinct from the crystalline state and enhanced CO2 photocatalytic property is observed. 温故知新. J. Am. Chem. Soc. VISTEC pubs.acs.org/doi/10.1021/ja…

The first circular of ISMSC2025@Kyoto is now available! For the first information on the speakers, we are delighted to announce that we will be welcoming Prof. Sir Fraser Stoddart, Prof. Jean-Pierre Sauvage and Prof. Julius Rebek, Jr. as plenary speakers! ismsc2025.com

現代化学8月号は未来材料祭り！ 固体化学に携わる化学者３名、物理学者３名の座談会「固体化学の現在」の模様が掲載されています🙌陰山さんが司会をされています😊固体化学がこれから新たなフェイズに入っていくことが、ひしひしと感じられること間違いありません😎 tkd-pbl.com/news/n184.html

Melt kneading of Cu-azolate coordination polymers yields unique ductile alloys. The fracture point reaches 128% without binder/filler; ductility is retained when soaked in liquid N2. J. Am. Chem. Soc. #OpenAccess VISTEC pubs.acs.org/doi/10.1021/ja…

Metal-linker bonds become more labile (and soft modes become softer) in MOF nanoparticles, leading to size-dependent phase changes. Thanks to Audrey for leading the effort and for another great collaboration with Satoshi Horike University of Oregon UO Chem and Biochem pubs.acs.org/doi/full/10.10…

部屋の明かり消して仕事終えたところで、オフィス越しに見えた五山送り火！ 京都の夏も落ち着きましたかね。今日は良い夜です。

Did you read 'Entropically driven melting of Cu-based 1D coordination polymers' by Shin-ichiro Noro, Daniel M. Packwood Satoshi Horike et al? @UnivKyoto, Hokkaido University buff.ly/4ebZxV4

Interpenetrated Metal–Organic Framework Glass dx.doi.org/10.1021/acs.ch…

京大理化・金相研に山本隆文さん Takafumi Yamamoto が着任されました。無機化学、固体化学を盛り上げてゆければと思っています。よろしくお願いします。 Prof. Takafumi Yamamoto Takafumi Yamamoto has been appointed to our department at Kyoto Univ. He's an expert in solid-state chemistry💎

Can we extend the design principles of MOFs to their amorphous counterparts? We aim to explore this in our latest study published in Chemical Science with Ameloot Group Satoshi Horike and Ken-ichi Otake pubs.rsc.org/en/content/art…

Creating glass architectures has been a great challenge in chemistry Nature Chemistry Precious moment working with glass experts led by Thomas D. Bennett

CO2 as a building block for molecular porous materials in Acc. Chem. Res. #OpenAccess It includes future challenges in synthesis and CO2 circulation/upgrading.🧙 pubs.acs.org/doi/10.1021/ac…

京大理の歴史ある講演会、今年は化学の番です。世の中にまだない新物質をどう予測して、どう創るのか、理論化学と超分子化学の世界最先端を明日、講演いただきます。登録不要、誰でも参加できます。二時、農G南の益川ホールまで！ Yagai Group Hokkaido University ICReDD

The entanglement of the coordination polymer glasses is modulated by mechanical shear forces in melt-processing. A simple way to control mechanical/thermal/optical properties and perhaps porosity. Low-dimensional structures are exciting! Chemical Science pubs.rsc.org/en/Content/Art…

Creating Functional Perovskite Glasses on FindAPhD.com I have a fully funded PhD position open University of Canterbury to look at creating exciting new glass materials from perovskites. Open to all nationalities. Come be part of the team here!

Melting CP/MOF approaches material microstructures to discover new phases. J. Am. Chem. Soc. We created a binary phase diagram and optimized the composition to have a latent heat storage function. VISTEC pubs.acs.org/doi/10.1021/ja…

We use many CO2 to make amorphous and soft MOFs. It's #OpenAccess please check this synthesis idea! J. Mater. Chem. family pubs.rsc.org/en/Content/Art…

We started a new research group in Kyushu U today!!

Our attempt to create functional liquids from coordination polymers, recently published in Angewandte Chemie #OpenAccess doi.org/10.1002/anie.2…