![Two-Step Spin-Transition Iron(III) Compound with a Wide [High Spin-Low Spin] Plateau | Inorganic Chemistry Two-Step Spin-Transition Iron(III) Compound with a Wide [High Spin-Low Spin] Plateau | Inorganic Chemistry](https://pubs.acs.org/cms/10.1021/ic801973x/asset/images/medium/ic-2008-01973x_0012.gif)
Two-Step Spin-Transition Iron(III) Compound with a Wide [High Spin-Low Spin] Plateau | Inorganic Chemistry
![Valentina MEUCCI | Professor (Associate) | Pharmaceutical Chemistry | Università di Pisa, Pisa | UNIPI | Department of Veterinary Sciences | Research profile Valentina MEUCCI | Professor (Associate) | Pharmaceutical Chemistry | Università di Pisa, Pisa | UNIPI | Department of Veterinary Sciences | Research profile](https://i1.rgstatic.net/ii/profile.image/916836904357889-1595602360297_Q512/Valentina-Meucci.jpg)
Valentina MEUCCI | Professor (Associate) | Pharmaceutical Chemistry | Università di Pisa, Pisa | UNIPI | Department of Veterinary Sciences | Research profile
GenXers” at a Glance. A rundown of temporal attributes and… | by Anthony Eichberger | Aug, 2023 | Medium
![Phosphates Sensing: Two Polyamino-Phenolic Zinc Receptors Able to Discriminate and Signal Phosphates in Water | Inorganic Chemistry Phosphates Sensing: Two Polyamino-Phenolic Zinc Receptors Able to Discriminate and Signal Phosphates in Water | Inorganic Chemistry](https://pubs.acs.org/cms/10.1021/ic900231h/asset/images/medium/ic-2009-00231h_0011.gif)
Phosphates Sensing: Two Polyamino-Phenolic Zinc Receptors Able to Discriminate and Signal Phosphates in Water | Inorganic Chemistry
Phosphates Sensing: Two Polyamino-Phenolic Zinc Receptors Able to Discriminate and Signal Phosphates in Water | Inorganic Chemistry
![From the Birth of the Boss to the Loss of a “Rebel Without a Cause” | by Stephen Dalton | Sep, 2023 | Rock n' Heavy From the Birth of the Boss to the Loss of a “Rebel Without a Cause” | by Stephen Dalton | Sep, 2023 | Rock n' Heavy](https://miro.medium.com/v2/resize:fit:1200/1*a5apaTPH9rv8HTmzBC07bQ.png)