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Jade Cisneros
@jade_cisneros
I love chemistry and crystalline materials 🩵🫧 MSc student at @MolinaGroup
Joined June 2020
157 Following
75 Followers
147 Posts
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Check out my very first paper❤️🔥 Huge thanks to @Ernerdsto_ @Navarro0502 and @MolinaGroup for all their teachings. 🫰🏻🫧
Do you like crystals?
Our newest paper on CT cocrystals with PTC ❤️🔥 and molecular motion ⚙️ published at Materials Advances!
https://t.co/pfZBRUZYS1
Awesome work led by @jadecisneeros 🇲🇽💫
Thanks to our collaborators M. Dračinský @IOCBPrague, @JanBlahut4 and Erika Bartůňková
We are on the cover @ChemPhotoChem! If You have a chance to take a look at this excellent contribution about the ESIPT modulation , do not miss out!
Excellent illustration by @Navarro0502 🇲🇽🔥 https://t.co/swdno1Qdff
🤯🤯🤯
🎉✨ Kicking off the New Year! In our 2025 Chem Mater, we uncover colossal thermal expansion (>140 MK⁻¹) in organic cocrystals, driven primarily by π–π stacking, while hydrogen bonds actively cooperate in the expansion process🔥
https://t.co/MBUOk6sHRt
🎉✨ Kicking off the New Year! In our 2025 Chem Mater, we uncover colossal thermal expansion (>140 MK⁻¹) in organic cocrystals, driven primarily by π–π stacking, while hydrogen bonds actively cooperate in the expansion process🔥
https://t.co/MBUOk6sHRt
This year’s #NobelPrize in Chemistry has gone to the architects of molecular “cages” that could be used for everything from carbon capture to drug delivery. https://t.co/V8pVahWl0r
Through the development of metal–organic frameworks, 2025 chemistry laureates Susumu Kitagawa, Richard Robson and Omar Yaghi have provided chemists with new opportunities for solving some of the challenges we face.
Following the laureates’ groundbreaking discoveries, researchers have created numerous different and functional metal–organic frameworks (MOF). So far, in most cases, the materials have only been used on a small scale. To harness the benefits of MOF materials for humanity, many companies are now investing in their mass production and commercialisation. Some have succeeded. For example, the electronics industry can now use MOF materials to contain some of the toxic gases required to produce semiconductors. Another MOF can instead break down harmful gases, including some that can be used as chemical weapons. Numerous companies are also testing materials that can capture carbon dioxide from factories and power stations, to reduce greenhouse gas emissions.
Some researchers believe that metal–organic frameworks have such huge potential that they will be the material of the twenty-first century.
#NobelPrize
BREAKING NEWS
The Royal Swedish Academy of Sciences has decided to award the 2025 #NobelPrize in Chemistry to Susumu Kitagawa, Richard Robson and Omar M. Yaghi “for the development of metal–organic frameworks.”
We had the enormous pleasure to witness how Obed López defended his thesis based on Charge-Transfer Cocrystals to obtain his BSc in Chemistry!! Shout out also to @Ernerdsto_ who acted as a technical supervisor! Congratulations Obed!!
#MiercolesDeSeminario
📷 Miércoles 10 de septiembre a las 12:00 horas
📷Nuestro invitado es el Dr. Dazaet Galicia Badillo, del Instituto de Química, UNAM, quien nos platicará sobre el tema:
"Development of coupled dynamics at macro- and nano-scales in amphidynamic crystals"
#CIQ
We are pleased to share our recently published review paper titled "Rotational Dynamics in Crystalline Molecular Machines: A Novel Paradigm for Tuning Solid-State Photophysical Properties" at Chemical Physics Reviews @ChemPhysRev !!
Congratulations to Tomita and Pingyu @ICReDDconnect !!
https://t.co/385eSi27MV
For the first time, researchers have created an all-carbon molecular ring that is stable in solution at room temperature, with a bit of supramolecular support. https://t.co/blr6acTBnO
The colorless solution develops color upon visible-light irradiation.
https://t.co/OIg6McsUIl
We elucidated the photoreaction mechanism of a fast negative photochromic molecule that becomes colorless upon visible-light irradiation and rapidly regains its color once the irradiation is stopped. -now published in @J_A_C_S
https://t.co/OIg6McsUIl
I’m excited to share my research at #ACSFall2025 Global Virtual Symposium. Here is a preview of me talk, titled “Dynamic organic crystals: Actuation, shape-memory, and self-healing”. Join me to learn more about recent progress in the field of dynamic molecular crystals.
Register for the Global Virtual Symposium here:
https://t.co/tMFuu43vTR
#OnTheCover Fine-Tuning the Motion of Tetrafluoro-1,4-Benzoquinone within Charge-Transfer Cocrystals Through Variation of the Donor: An Entropic & Enthalpic Point of View (B. Rodríguez-Molina et al.) ChemEurJ 42/2025 https://t.co/tZrfm7Eeib • https://t.co/vxOHyWHKzd
Molecular Rotors as Reactivity Probes: Predicting Electrophilicity from the Speed of Rotation (Ken D. Shimizu and co-workers) #AngewandteVIP • https://t.co/4BCyX7gCR6
Check out the fascinating world of carbazole and its derivatives in our new chapter!!
Congratulations to Alonso, Jade, Erick and Armando!! 🇲🇽🎊
https://t.co/Oxrcrh3N6p
🥹🤍
Happy that our collaboration led by @jade_cisneros published at Materials Advances has been selected for the
*2025 Popular Advances collection*
https://t.co/0CKl2Q6ORX
Congratulations!!
@Ernerdsto_ @Navarro0502 @IOCBPrague
Here at @iccoss2025 last week!!!
Now Available as a Hot paper @angew_chem !
Spring‐Like Behavior in [8]Helicene Diimides: How Helical Pitch Governs Optical Anisotropy and Electronic Conjugation https://t.co/bxlOepivua
![prince_ravat's tweet photo. Now Available as a Hot paper @angew_chem !
Spring‐Like Behavior in [8]Helicene Diimides: How Helical Pitch Governs Optical Anisotropy and Electronic Conjugation https://t.co/bxlOepivua https://t.co/IIuvoJ5qAy](https://pbs.twimg.com/media/Gv2OuThWMAAugnl.jpg)
Thin Layer Chromatography Departure ✈️
Hybridizing Carbonyl‐/Nitrogen‐ and Carbon‐/Nitrogen‐ Multiple Resonant Motifs for Efficient Pure Green TADF Emitters https://t.co/jFgvTlhF3J
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