Christopher DelRe
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View article: Simple Strategies to Quantify and Control Polymer Threading into Micropores
Simple Strategies to Quantify and Control Polymer Threading into Micropores Open
Blends of polymers with microporous particles are essential to many modern technologies, including membranes, catalysts, nanocomposites, and porous liquids. However, the design space and performance of these technologies are substantially …
View article: Design Principles for Using Amphiphilic Polymers To Create Microporous Water
Design Principles for Using Amphiphilic Polymers To Create Microporous Water Open
Aqueous dispersions of microporous nanocrystals with dry, gas-accessible pores─referred to as "microporous water"─enable high densities of gas molecules to be transported through water. For many applications of microporous water, generaliz…
View article: Microporous water with high gas solubilities
Microporous water with high gas solubilities Open
View article: Conductive Ink with Circular Life Cycle for Printed Electronics
Conductive Ink with Circular Life Cycle for Printed Electronics Open
Electronic waste carries energetic costs and an environmental burden rivaling that of plastic waste due to the rarity and toxicity of the heavy‐metal components. Recyclable conductive composites are introduced for printed circuits formulat…
View article: Synergistic Enzyme Mixtures to Realize Near‐Complete Depolymerization in Biodegradable Polymer/Additive Blends
Synergistic Enzyme Mixtures to Realize Near‐Complete Depolymerization in Biodegradable Polymer/Additive Blends Open
Embedding catalysts inside of plastics affords accelerated chemical modification with programmable latency and pathways. Nanoscopically embedded enzymes can lead to near‐complete degradation of polyesters via chain‐end mediated processive …
View article: Synergistic Enzyme Mixtures to Realize Near-Complete Depolymerization in Biodegradable Polymer/Additive Blends
Synergistic Enzyme Mixtures to Realize Near-Complete Depolymerization in Biodegradable Polymer/Additive Blends Open
Embedding catalysts inside of plastics affords accelerated chemical modification with programmable latency and pathways. Nanoscopically embedded enzymes can lead to near complete degradation of polyesters via chain-end mediated processive …
View article: Near-complete depolymerization of polyesters with nano-dispersed enzymes
Near-complete depolymerization of polyesters with nano-dispersed enzymes Open
View article: Embedded Enzyme Nanoclusters Depolymerize Polyesters via Chain-End Mediated Processive Degradation
Embedded Enzyme Nanoclusters Depolymerize Polyesters via Chain-End Mediated Processive Degradation Open
Many bioactive elements, long perceived as non-viable for material development, are now emerging as viable building blocks to encode material lifecycle and to ensure our harmonious existence with nature. Yet, there is a significant knowled…
View article: Reusable Enzymatic Fiber Mats for Neurotoxin Remediation in Water
Reusable Enzymatic Fiber Mats for Neurotoxin Remediation in Water Open
Highly effective and reusable organophosphorus hydrolase (OPH)-loaded fiber mats have been fabricated that are capable of degrading toxic organophosphates (OPs) over a broad range of relevant concentrations (from 8 to 8250 ppm). The inhere…
View article: Rational Design of a Synthetic Peg-Like Polymer for Protein Stabilization
Rational Design of a Synthetic Peg-Like Polymer for Protein Stabilization Open
View article: Coaxial Electrospinning of Polyaniline-Sulfur Composite Fibers for Use as a Cathode in Lithium-Sulfur Batteries
Coaxial Electrospinning of Polyaniline-Sulfur Composite Fibers for Use as a Cathode in Lithium-Sulfur Batteries Open
Lithium-sulfur batteries possess the potential to significantly improve upon current commercialized battery technology. To produce viable cathodes for lithium-sulfur batteries, sulfur must be encapsulated in an electrically conducting netw…