Fully Degradable Polyphosphoester Cubosomes for Sustainable Agrochemical Delivery.

Microplastic pollution and the urgent need for sustainable agriculture have raised interest in developing degradable carriers for controlled agrochemical release. Porous polymeric particles are particularly promising due to their unique release profiles compared to solid or core-shell carriers. However, creating degradable, mesoporous (2-50 nm) microparticles is challenging, and their potential for agrochemical delivery is largely unexplored.

Photocleavable Polymer Cubosomes: Synthesis, Self-Assembly, and Photorelease.

Polymer cubosomes (PCs) are a recent class of self-assembled block copolymer (BCP) microparticles with an accessible periodic channel system. Most reported PCs consist of a polystyrene scaffold, which provides mechanical stability for templating but has a limited intrinsic functionality. Here, we report the synthesis of photocleavable BCPs with compositions suitable for PC formation.

Challenges of nanoparticle albumin bound (nab™) technology: Comparative study of Abraxane® with a newly developed albumin-stabilized itraconazole nanosuspension.

Nanoparticle albumin bound™ (nab™) technology is an established delivery platform for development of albumin stabilized nanoparticles as drug delivery systems for poorly water-soluble drugs. By using albumin for particle stabilization, nab™ technology does not require solubilizers or emulsifiers for the formulation of poorly water-soluble drugs for intravenous use. Despite the great potential, however, to date only two products based on nab™ technology have been approved by the Food and Drug Administration: Abraxane® (nab™ paclitaxel) and Fyarro® (nab™ rapamycin).

Water-soluble polyphosphonate-based bottlebrush copolymers aqueous ring-opening metathesis polymerization.

Ring-opening metathesis polymerization (ROMP) is a versatile method for synthesizing complex macromolecules from various functional monomers. In this work, we report the synthesis of water-soluble and degradable bottlebrush polymers, based on polyphosphoesters (PPEs) ROMP. First, PPE-macromonomers were synthesized organocatalytic anionic ring-opening polymerization of 2-ethyl-2-oxo-1,3,2-dioxaphospholane using -(hydroxyethyl)--5-norbornene--2,3-dicarboximide as the initiator and 1,8-diazabicyclo[5.

Triglyceride-filled albumin-based nanocapsules: A promising new system to avoid discarding poorly water-soluble drug candidates.

Even though current drug discovery provides a variety of potential drug candidates, many of those substances are difficult to formulate due to their poor water-solubility. To overcome this obstacle a technological formulation is crucial. Albumin-based nanocarriers are a possible intravenous delivery system which is already approved and commercially available.

Janus nanoplates, -bowls, and -cups: controlling size and curvature terpolymer/homopolymer blending in 3D confinement.

The synthesis and properties of Janus nanoparticles with spherical, cylindrical, and disk-like shapes are nowadays rather well understood. Other topologies such as nanorings and bowl-shaped Janus nanoparticles are believed to show distinctly different solution behavior and interaction with interfaces, but limitations in their synthesis currently prevents a proper investigation of these properties. Especially the combination of shape- and surface-anisotropy of bowl-shaped Janus nanoparticles could result in enhanced selectivity in uptake of cargo and enhanced directional diffusion.

Prismatic Block Copolymer Hexosomes.

Cubosomes and hexosomes are recent solution morphologies with an ordered porous structure and are observed for lipids and amphiphilic block copolymers (BCPs) with high hydrophobic fractions. Whereas lipid hexosomes typically exhibit a prismatic shape, BCP hexosomes have so far only been observed as closed microspheres where inner channels are not connected to the surrounding medium. Here, we describe the formation of flat, prismatic BCP hexosomes with pronounced faceting and a highly ordered lattice of hexagonally packed channels.

Confinement Assembly of Terpolymer-Based Janus Nanoparticles.

While the confinement assembly of block copolymers into functional microparticles has been extensively studied, little is known about the behavior of Janus nanoparticles (JNPs) in spherical confinement. Here, the confinement self-assembly of JNPs in drying emulsion droplets is investigated and their behavior compared to their ABC triblock terpolymer precursors. Emulsions of both materials are prepared using Shirasu Porous Glass membranes leading to narrow size distributions of the microparticles with average hydrodynamic radii in the range of R  = 250-500 nm (depending on the membrane pore radius, R ).

Morphology and Degradation of Multicompartment Microparticles Based on Semi-Crystalline Polystyrene--Polybutadiene--Poly(-lactide) Triblock Terpolymers.

The confinement assembly of block copolymers shows great potential regarding the formation of functional microparticles with compartmentalized structure. Although a large variety of block chemistries have already been used, less is known about microdomain degradation, which could lead to mesoporous microparticles with particularly complex morphologies for ABC triblock terpolymers. Here, we report on the formation of triblock terpolymer-based, multicompartment microparticles (MMs) and the selective degradation of domains into mesoporous microparticles.

Biodegradable supramolecular micelles host-guest interaction of cyclodextrin-terminated polypeptides and adamantane-terminated polycaprolactones.

Biodegradable supramolecular micelles were prepared exploiting the host-guest interaction of cyclodextrin and adamantane. Cyclodextrin-initiated polypeptides acted as the hydrophilic corona, whereas adamantane-terminated polycaprolactones served as the hydrophobic core.