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Topic Review
Modified Carbon Nanotubes for Oxygen Reduction Reaction
In order to develop highly efficient and stable catalysts for oxygen reduction reaction (ORR) that do not contain precious metals, it is necessary to modify carbon nanotubes (CNT) and define the effect of the modification on their activity in the ORR. 
  • 710
  • 23 Nov 2021
Topic Review
Modifications Approaches of Potato Constituents
There are various physical, chemical, and biochemical modifications approaches for potato constituents. Physical modifications to alter the physicochemical properties of powders including starches and proteins are e.g., hydrothermal treatment, irradiation, ultrasonication and high-pressure treatment. Starches and proteins, which have been modified via physical methods do not have to be claimed as “modified”. Physical modification is also viewed as cost-efficient and environmentally friendly, because no hazardous substances (chemicals) are used. Chemical modifications refer to the substitution, cross-linking or degradation of a polymer via chemical reaction. Starch contains a large number of hydroxyl groups, and proteins contain a variety of different functional groups (hydroxyl-, carboxyl-, amine groups, etc.). These functional groups can be used as reactive sides for chemical modification reactions such as acylation, esterification, etherification, cross-linking, grafting, acid hydrolysis and oxidation. Biochemical modifications of starches and proteins including enzymatic substitution, cross-linking or hydrolysis are usually regarded as a clean or green alternative to chemical modification. Throughout the different biochemical modification methods, substrate specific enzymes can be used such as in enzymatic de-/branching modification, where the branched structure of potato starch can be altered to effect starch crystallinity and thus its properties.
  • 823
  • 16 Dec 2022
Topic Review
Modifications and Variations in Schiff Base's Functional Groups
Toxic and heavy metals pose significant environmental and health risks, necessitating the development of reliable detection methods. Schiff bases as fluorescent chemosensors have attracted intense attention because of their excellent sensitivity and selectivity towards a range of cations.
  • 352
  • 11 Oct 2023
Topic Review
Modification Strategies of Pristine Graphitic Carbon Nitride
Graphitic carbon nitride (g-C3N4), as the significant metal-free semiconductor photocatalyst, holds great potential in the application of the photocatalytic nitrogen oxides (NOx) removal process due to its plentiful extraordinary advantages, such as visible light response properties, mild bandgap, low cost, facile preparation and high thermal stability. However, pristine g-C3N4 prepared using the traditional high-temperature solid reaction suffers from low specific surface areas and low crystallinity owing to kinetic hindrance, which results in small specific surface areas, few reactive sites, limited light-harvesting capacity, rapid recombination of photogenerated charge carriers and unsatisfactory photocatalytic NOx removal performance. In order to improve the photocatalytic performance of pristine g-C3N4, a variety of modification strategies have been developed including metal doping, non-metal doping, defect engineering, crystallinity optimization, morphology controlling and heterojunction construction.
  • 718
  • 06 Feb 2023
Topic Review
Modification of the Surface of Wood with Plasma
Wood modification is an excellent and increasingly used method to expand the application of woody materials. Traditional methods, such as chemical or thermal, have been developed for the targeted improvement of some selected properties, unfortunately typically at the expense of others. These methods generally alter the composition of wood, and thus its mechanical properties, and enhance dimensional stability, water resistance, or decrease its susceptibility to microorganisms. Although conventional methods achieve the desired properties, they require a lot of energy and chemicals, therefore research is increasingly moving towards more environmentally friendly processes. The advantage of modern methods is that in most cases, they only modify the surface and do not affect the structure and mechanical properties of the wood, while reducing the amount of chemicals used. Cold plasma surface treatment is one of the cheapest and easiest technologies with a limited burden on the environment
  • 1.1K
  • 27 May 2022
Topic Review
Modification of Hyaluronic Acid to Improve Functionality
Native hyaluronic acid (HA) has found a broad range of applications in areas such as ophthalmology and cosmetics due to its unique physicochemical characteristics. However, this endogenous polymer is readily degraded in the body by the enzyme, hyaluronidase. The rate of degradation of native HA stifles its applicability to bioengineering applications or those which require a longer residence time in the body. To enable expansion of the applications of this polysaccharide, it can be modified to allow for cross-linking and engineering, to tailor the degradation profile in vivo, improve cell attachment, and enable conjugation. The relatively simple structure of HA allows for ease of modification of its two main functional groups- the hydroxyl and the carboxyl groups. Additionally, further synthetic modifications may be performed following the deacetylation of the acetamide group, which can allow for the recovery of amino functionalities. Regardless of the functional group to be modified, there are two options for modification; crosslinking or conjugation.
  • 1.2K
  • 13 Sep 2022
Topic Review
Modification of Glucomannan as an Excipient
Glucomannan (GM) is a polysaccharide generally extracted from the tuber of Amorphophallus konjac. It consists of mannose and glucose residues linked by β-(1-4) and exhibits hydrocolloid characteristics which can be applied as thickening and gelling agents. However, it has poor water resistance and low mechanical strength when used as an excipient in solid form. Several physical and chemical modifications have been carried out to improve these drawbacks. Chemical modification involves the substitution of functional groups in GM’s structure including esterification and etherification. It causes a decrease in its high hydrophilic film behavior and produce water-resistant films. Physical modification involves mixing native GM with other excipients through processes involving milling, moisture, temperature, pressure, radiation, etc. It causes variations to particle size, shape, surface properties, porosity, density, and to functional properties such as swelling capacity and gelation ability
  • 769
  • 26 Jul 2022
Topic Review
Modification of Clay Minerals for Carbon Capture
Carbon capture is among the most sustainable strategies to limit carbon dioxide emissions, which account for a large share of human impact on climate change and ecosystem destruction. This growing threat calls for novel solutions to reduce emissions on an industrial level. Carbon capture by amorphous solids is among the most reasonable options as it requires less energy when compared to other techniques and has comparatively lower development and maintenance costs. In this respect, the method of carbon dioxide adsorption by solids can be used in the long-term and on an industrial scale. Furthermore, certain sorbents are reusable, which makes their use for carbon capture economically justified and acquisition of natural resources full and sustainable. Clay minerals, which are a universally available and versatile material, are amidst such sorbents. These materials are capable of interlayer and surface adsorption of carbon dioxide. In addition, their modification allows to improve carbon dioxide adsorption capabilities even more. 
  • 1.5K
  • 13 Apr 2022
Topic Review
Modification and Application of Bamboo-Based Materials
In light of continual societal advancement and escalating energy consumption, the pursuit of green, low-carbon, and environmentally friendly technologies has become pivotal. Bamboo, renowned for its diverse advantages encompassing swift growth, ecological compatibility, robust regenerative properties, commendable mechanical characteristics, heightened hardness, and abundant availability, has discovered applications across various domains, including furniture and construction. Nevertheless, natural bamboo materials are plagued by inherent limitations, prominently featuring suboptimal hydrophobicity and vulnerability to fracture, thereby constraining their broad-scale application. Thus, the paramount concern is to enhance the performance of bamboo materials through modification.
  • 644
  • 16 Nov 2023
Topic Review
Modes of Pulsed Laser Ablation in Liquid
Pulsed laser ablation in liquid (PLAL) is a physical and top-down approach used to fabricate nanoparticles (NPs). NPs have better physicochemical properties than their bulk counterparts. 
  • 1.7K
  • 14 Feb 2023
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