Polymer cubosomes (PCs) are an emerging class of mesoporous microparticles that are produced through solution self-assembly of highly asymmetric block copolymers (BCPs). They
Renewable energy conversion and storage technologies provide a clean and sustainable approach to ameliorate the reliance on fossil fuels and associated environmental
Various catalytic groups have expanded the application scope of macrocycles in both enzyme catalysis and organocatalysis. Also, the supramolecular assembly and covalent crosslinking of
Supramolecular organic frameworks (SOFs) are a class of three-dimensional, potentially porous materials obtained by the self-assembly of organic building blocks held together by weak
As an extension of single-atom catalysts, dual-atomic-site catalysts (DASCs) with high metal loading, sophisticated and flexible active
Sulfur electrode tolerance and polysulfide conversion promoted by the supramolecular binder with rare-earth catalysis in lithium-sulfur batteries Energy Storage Materials ( IF 18.9 ) Pub Date :
Through this comprehensive examination, we aim to contribute to the ongoing discourse on improving battery performance and addressing the ever-growing energy storage
To address these challenges, herein we report a dimeric guanosine monophosphate (GMP)-based supramolecular hydrogel that self-assembles into a fibrillar
Supramolecular gel materials have been synthesized and their properties have been explored. The hierarchical pores, high surface area with tailorable strength, and the
Abstract Increasing concerns over climate change and energy shortage have driven the development of clean energy devices such as batteries,
Welcome papers on syntheses and assembly of coordinated supramolecular materials with potential applications relevant but not limited to H 2 production, CO 2 reduction,
Herein, we summarize the use of supramolecular hydrogels in catalysis and as nanoreactors for efficient chemical transformations in aqueous
Materials for energy and catalysis are materials with electrochemical properties that makes them suitable for use in energy storage applications, such as batteries, and
In this Review, we present the multiscale supramolecular engineering of cellulose nanocomposites and their fabrication and processing into materials.
The PL color or intensity of a smart PL-responsive system can also be regulated by altering the energy transfer pathway through photoisomerization of a particular photoswitch.
Over the last decade, pioneering studies have demonstrated the potential of supramolecular catalysis for energy conversion and storage, 7,
In particular, biomass-derived 2D carbon materials, a group of promising electrode materials for high-performance electrochemical energy storage devices, have
Supramolecular polymeric materials have exhibited attractive features such as self-healing, reversibility and stimuli-responsiveness but because of the weak bonding nature
Semantic Scholar extracted view of "Sulfur Electrode Tolerance and Polysulfide Conversion Promoted by the Supramolecular Binder with Rare-Earth Catalysis in Lithium
Supramolecular chemistry plays a pivotal role in enhancing the functionality of MOFs for gas adsorption and separation applications. By
Various catalytic groups have expanded the application scope of macrocycles in both enzyme catalysis and organocatalysis. Also, the
Many breakthrough developments in the past few decades have been achieved through multidisciplinary research. Supramolecular chemistry has played an extensive role in
高达9%返现· The primary technical challenge lies in designing adsorbent materials that effectively balance both volumetric and
Supramolecular materials have the merits of diverse functional groups, flexible structure, and unique self-healing properties, which make them
Various catalytic groups have expanded the application scope of macrocycles in both enzyme catalysis and organocatalysis. Also, the supramolecular
The preparation of high performance supramolecular polymer electrolytes and their application in flexible wearable devices and high energy
Download Citation | On Mar 1, 2024, Feixiang Zhou and others published Sulfur Electrode Tolerance and Polysulfide Conversion Promoted by the Supramolecular Binder with Rare
Our analysis elucidates the role of supramolecular chemistry in advancing materials science and nanotechnology, with implications for energy storage, catalysis, sensing, and optoelectronics.
Photosynthetic organisms harness solar radiation to produce energy-rich compounds from water and atmospheric CO<sub>2</sub> via exquisite supramolecular
The various routes available for the synthesis of supramolecular gels and their potential applications as electrodes, electrolytes, and binders in energy storage devices are compiled in this review. The futuristic scope of supramolecular gels in the field of energy storage is also highlighted. 1. Introduction
Supramolecular hydrogels are a class of soft materials with unique properties, such as self-healing, self-assembly, stimuli responsiveness, and biocompatibility, making them an attractive platform for various energy applications. The article discusses the definition, properties, and advantages of supramolecular hydrogels in energy materials.
The present review deals with a wide range of such supramolecular gels as materials for the fabrication of electrodes, electrolytes, binders, and collector materials for batteries and supercapacitors. However, the review is focused only on the applications of supramolecular gels to batteries and supercapacitors.
Supramolecular gel materials have been synthesized and their properties have been explored. The hierarchical pores, high surface area with tailorable strength, and the possibility of hybrid gels make them more suitable for various energy storage devices as electrolytes, electrode materials, and binding materials.
This review article highlights the potential of supramolecular hydrogels as emerging energy materials. Supramolecular hydrogels are a class of soft materials with unique properties, such as self-healing, self-assembly, stimuli responsiveness, and biocompatibility, making them an attractive platform for various energy applications.
Sustainability is a very beneficial aspect of supramolecular hydrogels and leads to various advantages, and it is feasible to develop energy materials that will be efficient and environmentally friendly by utilizing sustainable materials and functionalizing them to upgrade their performance.
