![]() The encapsulation of the anti-cancer docetaxel drug (DTX) into BNNTs was studied by molecular dynamics simulations in aqueous solution and EtOH co-solvent. ![]() Previous studies provided useful guidance for the gas sensing applications of pristine and amine-functionalized BNNTs to detect toxic gases at room temperature. Boron–carbon–nitride may act as a candidate for sensing applications with a superior binding strength to graphene and boron nitride-based materials. On the other hand, it also motivates us to meet actual requirements and should focus on how to obtain the development to be widespread in the coming years.īoth N-doped graphene and B-doped graphene has been used as chemical sensors for biomolecules due to the increase in the electronic density of states near the Fermi level. It is clear that adsorbents functionalized with cyclodextrins are a broad research field. Accordingly, the achievements for applicability and diversity are limitless. ![]() β-cyclodextrin/graphene oxide gaining higher status results from the structure with a large porosity ratio to provide an exceptional adsorption capability, with more hydroxyl and carboxyl groups on the surface to improve its hydrophilicity. The β-CD/MWCNT-modified glassy carbon electrode showed a great response to the MCPA detection system, with a high sensitivity, stability, and lifetime. Carbon nanotubes (CNTs)/β-cyclodextrin (β-CD) nanocomposite reinforcing hollow fiber (HF) was developed and exhibited an outstanding adsorption capacity, molecular recognition, sample clean-up effect, and pesticide residue analysis. In the field of persistent toxic substances (PTS), polychlorinated biphenyl (PCB) was determined by β-CD/CNTs/GCE. Cyclodextrins with functionalized carbon nanotubes is possible for efficiently adsorbing p-nitrophenol compared to activated carbon. Non-covalent and covalent functionalization can promote physicochemical properties for different targets. The preparation of nanomaterials is not necessarily applicable to all conditions. The corrosion protection performance and reduction in the electrolyte/ion diffusion was improved, assigning to β-CD-ZnA-MGO nano-filler in the epoxy resin matrix. The observations of cerium acetylacetonate-loaded beta-cyclodextrin/graphene oxide (β-CD-CeA-MGO) derived from FE-SEM, EDS, and mapping investigations confirmed the formation of anti-corrosive film. Apart from that, it was found that anti-corrosion and inert performance are two of the most important roles for avoiding materials being destroyed by exterior factors. These principles are mainly benefiting from the surface properties of graphene oxide, the hydrophobicity of β-cyclodextrin, and magnetic functionalization. Acid fuchsin and Rhodamine 6G could be effectively removed from their solutions by the magnetic GO-β-CD hybrid. Recently, researches have pointed out that magnetic β-cyclodextrin–chitosan/graphene oxide materials (MCCG) were fabricated as excellent adsorbents for bisphenol A (BPA) elimination through a facile chemical route. Consequently, much attention should be paid before discharge that several conventional technologies have been proposed for the treatment of dyes from wastewater such as liquid extraction, membrane filtration, and adsorption. In particular, the high adsorption capacity and electron transfer capacity of decachlorobiphenyl laid the foundation for the development of new sensors.Ĭhemical dyes with lots of benzene ring structures are colorful, but there are fatal risks. Hydrogen bonding between β-cyclodextrin and chlorine-substituted compounds can enhance non-covalent interactions. C doping helps to significantly improve the conductivity of h-BN, and β-cyclodextrin enhances the binding stability of aromatic organic pollutants. The results of hard–soft acid-base reactivity descriptors show that the electronic structures of BN-doped graphene and C-doped hexagonal boron nitride depend on the degree of doping and the modification of β-cyclodextrin. Fukui’s FMO electrophile sensitivity is used to predict the most reactive positions on the chemical species for both nucleophilic and electrophilic roles. The calculation results include reaction enthalpies, non-covalent intermolecular and intramolecular interactions, optimized structures, hydrogen bonds, and molecular electrostatic potentials. In this study, the adsorption of aromatic organic pollutants such as hexachlorobenzene, decachlorobiphenyl, benzene, and biphenyl by 2D nanomaterials was investigated using quantum chemical methods.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |