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Topic Review
Applications of Carbon Dots
Although there is significant progress in the research of carbon dots (CDs), some challenges such as difficulty in large-scale synthesis, complicated purification, low quantum yield, ambiguity in structure-property correlation, electronic structures, and photophysics are still major obstacles that hinder the commercial use of CDs. The unique properties of CDs, such as good biocompatibility, high photostability, excellent light-harvesting, up-conversion, effective electron transfer, and bandgap narrowing, make the CDs promising nanomaterials for applications in many fields. 
  • 1.6K
  • 25 Aug 2022
Topic Review
Applications of Carbon Fiber-Reinforced Polymer Composites
Carbon fiber-reinforced polymer (CFRP) composites are used in a variety of applications such as aircraft, automobiles, body armors, and the sports sector owing to their ultra-strong and lightweight characteristics.
  • 7.7K
  • 10 Jun 2022
Topic Review
Applications of Carbon Nanodots
Carbon dots have drawn immense attention and prompted intense investigation. The latest form of nanocarbon, the carbon nanodot, is attracting intensive research efforts, similar to its earlier analogues, namely, fullerene, carbon nanotube, and graphene. One outstanding feature that distinguishes carbon nanodots from other known forms of carbon materials is its water solubility owing to extensive surface functionalization (the presence of polar surface functional groups). These carbonaceous quantum dots, or carbon nanodots, have several advantages over traditional semiconductor-based quantum dots. They possess outstanding photoluminescence, fluorescence, biocompatibility, biosensing and bioimaging, photostability, feedstock sustainability, extensive surface functionalization and bio-conjugation, excellent colloidal stability, eco-friendly synthesis (from organic matter such as glucose, coffee, tea, and grass to biomass waste-derived sources), low toxicity, and cost-effectiveness.
  • 388
  • 30 May 2023
Topic Review
Applications of Carbonaceous Materials
Sustainable biomass production has a significant potential for mitigating greenhouse gas emissions, providing an alternative to produce eco-friendly biofuels, biochemicals, and carbonaceous materials for biological, energetic, and environmental applications. 
  • 269
  • 10 Oct 2023
Topic Review
Applications of Chitosan
Public health, production and preservation of food, development of environmentally friendly (cosmeto-)textiles and plastics, synthesis processes using green technology, and improvement of water quality, among other domains, can be controlled with the help of chitosan. This aminopolysaccharide is recognized as safe and produced from an abundant and renewable source (chitin). Chitosan exhibits advantageous properties, such as biocompatibility, biodegradability, antimicrobial effect, mucoadhesive properties, film-forming capacity, elicitor of plant defenses, coagulant-flocculant ability, synergistic effect and adjuvant along with other substances and materials. In part, its versatility is attributed to the presence of ionizable and reactive primary amino groups that provide strong chemical interactions with small inorganic and organic substances, macromolecules, ions, and cell membranes/walls. Hence, chitosan has been used either to create new materials or to modify the properties of conventional materials applied on an industrial scale.
  • 904
  • 03 Feb 2023
Topic Review
Applications of Coacervates
Coacervates are one of the most intriguing systems in colloid chemistry. The term comes from the Latin words “co” (jointly) and “acerv” (a mound). Coacervation is a phenomenon in which a colloidal solution gets separated into colloid-rich and colloid-poor phases.
  • 2.4K
  • 15 Sep 2022
Topic Review
Applications of Conductive Electrospun Nanofiber Mats
Conductive nanofiber mats can be used in a broad variety of applications, such as electromagnetic shielding, sensors, multifunctional textile surfaces, organic photovoltaics, or biomedicine. While nanofibers or nanofiber from pure or blended polymers can in many cases unambiguously be prepared by electrospinning, creating conductive nanofibers is often more challenging. 
  • 512
  • 25 Apr 2022
Topic Review
Applications of Cu-Based Nanomaterials from Plant-Mediated Synthesis
Plants have been used for multiple purposes over thousands of years in various applications such as traditional Chinese medicine and Ayurveda. The special properties of phytochemicals within plant extracts have spurred researchers to pursue interdisciplinary studies uniting nanotechnology and biotechnology. Plant-mediated green synthesis of nanomaterials utilises the phytochemicals in plant extracts to produce nanomaterials. Principles of plant-mediated Cu-based nanomaterials in biomedical and environmental applications are discussed.
  • 413
  • 17 Oct 2022
Topic Review
Applications of Cyclodextrins
Due to their unique structural, physical and chemical properties, cyclodextrins and their derivatives have been of great interest to scientists and researchers in both academia and industry for over a century. Many of the industrial applications of cyclodextrins have arisen from their ability to encapsulate, either partially or fully, other molecules, especially organic compounds. Cyclodextrins are non-toxic oligopolymers of glucose that help to increase the solubility of organic compounds with poor aqueous solubility, can mask odors from foul-smelling compounds, and have been widely studied in the area of drug delivery. 
  • 6.0K
  • 29 Mar 2022
Topic Review
Applications of Dendritic Polymers in Dentistry
Dendritic polymers represent the well-established 4th class of polymers, next to their conventional linear, branched, and cross-linked counterparts. They are constructed by a central core that is the focal point of radial polymerization and may comprise the same monomeric units as the rest of the macromolecule or a completely different entity that endows the substance with exceptional properties. The main body, i.e., the branched interior, contains the monomers and their characteristic groups. These define the conformation of the cavities and their chemical environment. The periphery contains the end groups that may be decorated with functional groups to adapt to the desired role.
  • 120
  • 07 Sep 2023
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