Remote-controlled artificial cells ‘could transform cancer treatment’ Molecules activated by magnets may one day function as tiny drug factories inside the body to target the disease, a study suggests

⚡ Chem Frontier: Researchers built remote-controlled synthetic cells that can release drugs on demand. Potential game-changer for cancer therapy. #NatureChemistry #BioDesign

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Uncategorized – Atom & Eve Posts about Uncategorized written by Atomeve

🧪 Nano Boundary Pushed: Chemists trapped a cerium–carbon triple bond inside a fullerene cage—a bonding combo previously thought impossible. Topology goals unlocked. #NatureChemistry #BondingSurprises

🧪 Niche Chem Alert: Scientists engineered strain-promoted reactions of 1,2,3-cyclohexatriene—a fleeting diradicaloid—in living cells. It defies conventional bonding rules and opens doors to “impossible” molecules. Bold, weird, beautiful. #NatureChemistry #StrainChem

New Chemistry Alert
Phosphate just got fancy. Scientists have harnessed a biocompatible Lossen rearrangement inside E. coli. What’s more, it can turn plastic (PET) into PABA and even paracetamol. This could revolutionize drug production and plastic recycling. ♻️🧪 #GreenChemistry #NatureChemistry

Isolation of halogen-substituted silylium ions - Nature Chemistry Halogen-substituted silylium ions are compounds for which Lewis superacidity has been predicted, but their synthesis has proven challenging. Now a series of ionic halosilylium Lewis superacids have be...

The study has been published in Nature Chemistry: www.nature.com/articles/s41...

#NatureChemistry #chemistry #catalysis #research #sciencenews @nature.com

Remote control of chirality in hybrid perovskite materials - Nature Chemistry Chirality in hybrid perovskite semiconductors can advance their application in modern electronics, but their production — traditionally involving the incorporation of chiral organic cations into the p...

Beautiful work showcasing remote chirality transfer in low-dimensional #perovskites with broad implications!🧪Congratulations !🙌🏼 It has been a pleasure to highlight such inspiring research #NatureChemistry with #GhewaAlsabeh & #MengqiongZ- exciting perspectives🧬🔸 www.nature.com/articles/s41...

Designing artificial fluorescent proteins and biosensors by genetically encoding molecular rotor-based amino acids - Nature Chemistry The toolbox of artificial fluorescent proteins can be expanded by engineering mimics of the molecular rotor-based fluorophore found in the green fluorescent protein (GFP) into diverse protein scaffold...

This approach enables the generation of artificial fluorescent proteins and the development of biosensors from potentially any protein of interest with minor modifications. #NatureChemistry

www.nature.com/articles/s41...

Multi-stage and multi-colour liquid crystal reflections using a chiral triptycene photoswitchable dopant - Nature Chemistry Understanding how photoswitchable chiral dopants can control the helical pitch of host liquid crystals will aid the development of smart and adaptive soft materials. Now the molecular-level mechanisms...

Congrats to Indu, Lippert lab @SMU
& team for the latest in #NatureChemistry
We gained fundamental insights into how triptycene-based switchable chiral dopants interact with host LCs, and used the knowledge to design stable multicolor LC displays #chemsky 🧪