Palladium-Doped CsAgBiBr with 1300 nm Near-Infrared Photoresponse.

Lead-free halide double perovskite (HDP) CsAgBiBr has set a benchmark for research in HDP photoelectric applications due to its attractive optoelectronic properties. However, its narrow absorption range is a key limitation of this material. Herein, a novel dopant, palladium (Pd), is doped into CsAgBiBr and significantly extends the absorption to ≈1400 nm.

Lewis Acidic Aluminosilicates: Synthesis, Al MQ/MAS NMR, and DFT-Calculated Al NMR Parameters.

Porous aluminosilicates are functional materials of paramount importance as Lewis acid catalysts in the synthetic industry, yet the participating aluminum species remain poorly studied. Herein, a series of model aluminosilicate networks containing [L-AlO] (L = THF, EtN, pyridine, triethylphosphine oxide (TEPO)) and [AlO] centers were prepared through nonhydrolytic sol-gel condensation reactions of the spherosilicate building block (MeSn)SiO with L-AlX (X = Cl, Me, Et) and [MeN] [AlCl] compounds in THF or toluene. The substoichiometric dosage of the Al precursors ensured complete condensation and uniform incorporation, with the bulky spherosilicate forcing a separation between neighboring aluminum centers.

Biodegradable Covalently Crosslinked Poly[-(2-Hydroxypropyl) Methacrylamide] Nanogels: Preparation and Physicochemical Properties.

Recently, suitably sized polymer-based nanogels containing functional groups for the binding of biologically active substances and ultimately degradable to products that can be removed by glomerular filtration have become extensively studied systems in the field of drug delivery. Herein, we designed and tailored the synthesis of hydrophilic and biodegradable poly[-(2-hydroxypropyl) methacrylamide-co-,'-bis(acryloyl) cystamine-6-methacrylamidohexanoyl hydrazine] (PHPMA-BAC-BMH) nanogels. The facile and versatile dispersion polymerization enabled the preparation of nanogels with a diameter below 50 nm, which is the key parameter for efficient and selective passive tumor targeting.

"Activated Borane": A Porous Borane Cluster Polymer as an Efficient Lewis Acid-Based Catalyst.

Borane cluster-based porous covalent networks, named activated borane (), were prepared by cothermolysis of decaborane(14) (-BH) and selected hydrocarbons (toluene, cyclohexane, ; and -hexane, ) under anaerobic conditions. These amorphous solid powders exhibit different textural and Lewis acid (LA) properties that vary depending on the nature of the constituent organic linker. For , its LA strength even approaches that of the commonly used molecular LA, B(CF).

Soft Hydrogels with Double Porosity Modified with RGDS for Tissue Engineering.

This study develops and characterizes novel biodegradable soft hydrogels with dual porosity based on N-(2-hydroxypropyl)methacrylamide (HPMA) copolymers cross-linked by hydrolytically degradable linkers. The structure and properties of the hydrogels are designed as scaffolds for tissue engineering and they are tested in vitro with model mesenchymal stem cells (rMSCs). Detailed morphological characterization confirms dual porosity suitable for cell growth and nutrient transport.