Breaking the NIR-IIx Barrier: Organic Small-Molecule Fluorophores for Deep-Tissue Imaging
Researchers develop bright, stable organic dyes that enable precise deep-tissue imaging and disease detection in the NIR-IIx spectrum
Supramolecular Nanocomplex Overcomes Drug-Resistant Liver Cancer by Inducing Dual-Site Ferroptosis
A natural nanocomplex overcomes drug resistance in liver cancer by inducing ferroptosis through a three-part mechanism that reduces glutathione in cancer cells, weakening their antioxidant defenses and causing cell death
Triplet Energy Transfer Nanocomposites for Highly Sensitive Prostate-Specific Antigen Detection
A luminescent nanoparticle assay enables ultra-sensitive detection of prostate-specific antigen for early diagnosis and recurrence monitoring
![Diazine-Tetraphenylethylene Cyclo[6]arenes for Molecular Recognition in Solution and Aggregate States](https://www.chemistryviews.org/wp-content/uploads/2025/11/ChemistryViews-2.70171-125x94.png)
Diazine-Tetraphenylethylene Cyclo[6]arenes for Molecular Recognition in Solution and Aggregate States
1,2-diazine endo-functionalized tetraphenylethylene cyclo[6]arenes for cation binding in dilute solution and nitrophenol detection in the aggregate state
Highly Photoluminescent RGB Carbon Dots for Lighting–Energy Applications
By precise molar ratio control strategy, tricolor carbon dots with high quantum yields are prepared for integrated lighting–energy applications
Aqueous Circularly Polarized Luminescence Regulated by α-Helix in Homopolypeptid
Chain length and self-assembly temperature of α-helix controls aqueous circularly polarized luminescence in homopolypeptide self-assembly
Resonance Energy Transfer Enables Chiral Recognition in the Solid State
Förster resonance energy transfer enables efficient, noncovalent chiral recognition in solid-state systems when host and guest share the same chirality
Covalent Bond Regulation in Nanographene: Precise Aggregation State Modification
Covalent bond regulation controls azulene-mediated nanographene aggregation via acids, while quenchers and temperature dictate product selectivity
Reversible Self-Assembly of Organic Nanoparticles with Fluorescence Modulation
Organic nanoparticles reversibly self-assemble and show fatigue-resistant fluorescence modulation, offering new opportunities for smart optoelectronics
AIEgen-Based Cystatin C Quantitation for Chronic Kidney Disease Monitoring
Cost-effective smartphone phosphorescence detection of cystatin C supports early warning and proactive care in chronic kidney disease
A New Tb Cluster Scintillator for Temperature-Independent X-ray Imaging
A terbium cluster scintillator, a material that converts X-rays into visible light, enables temperature-independent X-ray imaging with 23.3 LP mm⁻¹ resolutio
![Cucurbit[7]uril-Based Polymers with Dual Photochromism and Fluorescence](https://www.chemistryviews.org/wp-content/uploads/2025/09/70145-125x94.png)
Cucurbit[7]uril-Based Polymers with Dual Photochromism and Fluorescence
Cucurbit[7]uril-based complexes with tunable assembly show adjustable photochromism and fluorescence for multilevel anti-counterfeiting and encryption
Fast, Accurate, and Data-Efficient: The Future of Electron Density Prediction
GED-CRN model reaches MP2-level accuracy with only 19 training molecules, revolutionizing the design of aggregation-induced emission (AIE) materials with 1000x faster computation
Nile Red Derivatives-Mediated Phototherapy Against Pathogenic Microorganisms
TPAOMCN, a novel Nile Red derivative, demonstrates potent broad-spectrum phototherapeutic efficacy against multidrug-resistant bacteria and monkeypox virus
An NIR Fluorescent Probe for Assessing Lysosomal Function
Combining a lysosome-targeted near-infrared (NIR) probe with AI-driven image interpretation offers a scalable platform for high-resolution monitoring of lysosomal function
A Nanosensor for Rapid Detection of 3-Chloro-1,2-Propanediol
A novel quartz crystal microbalance nanochip with a molecularly imprinted interface enables rapid detection of 3-chloro-1,2-propanediol (3-MCPD) in food contact materials
In-Situ Functional Crosslinking for High Performance All-Solid-State Batteries
A novel in-situ crosslinker two-in-one bis-diazirine molecule acts as rigid linker and electron-withdrawing inducer
Protein–Starch Clusters: A Strategy for Designing Diabetes-Fighting Foods
How wheat proteins control starch digestion revealed: Key mechanisms for designing low-glycemic foods with transformative diabetes-fighting potential
Ti/Mg Doping Inhibits Harmful Phase Transitions in High-Voltage LiCoO₂
This work presents a simple and effective modification protocol for high-voltage LCO cathodes and offers valuable insights for designing stable layered oxide cathode materials