From Ionic Nanoparticle Organic Hybrids to Ionic Nanocomposites: Structure, Dynamics, and Properties: A Review
Ionic nanoparticle organic hybrids have been the focus of research for almost 20 years,
however the substitution of ionic canopy by an ionic-entangled polymer matrix was …
however the substitution of ionic canopy by an ionic-entangled polymer matrix was …
Hybrid thermo-electrochemical conversion of plastic wastes commingled with marine biomass to value-added products using renewable energy
Surface plastics and microplastics commingled with biomass are emerging pollutants in the
marine environment. With the projected demand for plastics sharply increasing, innovative …
marine environment. With the projected demand for plastics sharply increasing, innovative …
Highly Tunable Syngas Product Ratios Enabled by Novel Nanoscale Hybrid Electrolytes Designed for Combined CO2 Capture and Electrochemical Conversion
Coupling renewable energy with the electrochemical conversion of CO2 to chemicals and
fuels has been proposed as a strategy to achieve a new circular carbon economy and help …
fuels has been proposed as a strategy to achieve a new circular carbon economy and help …
Encapsulation of Nanoparticle Organic Hybrid Materials within Electrospun Hydrophobic Polymer/Ceramic Fibers for Enhanced CO2 Capture
Liquid‐like nanoparticle organic hybrid materials (NOHMs) consisting of a silica core with
ionically grafted branched polyethyleneimine chains (referred to as NIPEI) are encapsulated …
ionically grafted branched polyethyleneimine chains (referred to as NIPEI) are encapsulated …
Electrolyte–Electrocatalyst Interfacial Effects of Polymeric Materials for Tandem CO2 Capture and Conversion Elucidated Using In Situ Electrochemical AFM
Integrating CO2 capture and electrochemical conversion has been proposed as a strategy to
reduce the net energy required for CO2 regeneration in traditional CO2 capture and …
reduce the net energy required for CO2 regeneration in traditional CO2 capture and …
Impacts of Bond Type and Grafting Density on the Thermal, Structural, and Transport Behaviors of Nanoparticle Organic Hybrid Materials‐Based Electrolytes
Abstract Nanoscale Organic Hybrid Materials (NOHMs) consist of polymers tethered to a
nanoparticle surface, and NOHMs formed with an ionic bond between the polymer and …
nanoparticle surface, and NOHMs formed with an ionic bond between the polymer and …
Nanoscale hybrid electrolytes with viscosity controlled using ionic stimulus for electrochemical energy conversion and storage
As renewable energy is rapidly integrated into the grid, the challenge has become storing
intermittent renewable electricity. Technologies including flow batteries and CO2 conversion …
intermittent renewable electricity. Technologies including flow batteries and CO2 conversion …
Mechanistic Study of Controlled Zinc Electrodeposition Behaviors Facilitated by Nanoscale Electrolyte Additives at the Electrode Interface
Nanoparticle organic hybrid materials (NOHMs) are liquid-like materials composed of an
inorganic core to which a polymeric canopy is ionically tethered. NOHMs have unique …
inorganic core to which a polymeric canopy is ionically tethered. NOHMs have unique …
Insights into the enhanced oxidative thermal stability of nanoparticle organic hybrid materials developed for carbon capture and energy storage
As a result of the growing need for direct air capture (DAC) and integrated carbon capture
and conversion technologies, CO2 capture materials that can withstand a wide range of …
and conversion technologies, CO2 capture materials that can withstand a wide range of …
Elucidating the assembly of nanoparticle organic hybrid materials (NOHMs) near an electrode interface with varying potential using neutron reflectivity
A critical concern regarding electrolyte formulation in an electrochemical environment is the
impact of the interaction of the multiple components (ie, supporting electrolyte or additive) …
impact of the interaction of the multiple components (ie, supporting electrolyte or additive) …