• SSZ-13 Zeolite

    SSZ-13 Zeolite
    Oct 9, 2018 | ACS MATERIAL LLC

    SSZ-13 molecular sieve is prepared by the hydrothermal method with silica sol, aluminium sulphate, sodium hydroxide and deionized water as raw materials, and N, N, N-trimethyl-l-adamant ammonium hydroxide as a template. Due to its specific surface area and distinctive eight-membered ring structure, SSZ-13 shows good applicability in separating N2 from CO2 in flue gas streams. Cation exchanged SSZ-13 can yield higher separation efficiency and it can also be used as a good catalyst in NH3 selective catalytic reduction (NH3-SCR), propylene production from ethylene, and methanol-to-olefins (MTO) reactions. Introduction The different types of molecular sieves are defined by the Internationa... Read More

  • TS-1 Molecular Sieve

    TS-1 Molecular Sieve
    Sep 18, 2018 | ACS MATERIAL LLC

    Medium-pore TS-1 is a highly versatile zeolite with MFI structure that has been applied as an efficient catalyst in diverse industrial applications. TS-1 demonstrates unique catalytic performance in oxidation reactions involving H2O2 as an oxidant. TS-1 catalyst is highly effective in the selective oxidation of various organic substrates with hydrogen peroxide, including hydroxylation of aromatics, epoxidation of alkenes, ammoximation of ketones, oxidation of alkanes and alcohols, etc. Introduction As an environmentally benign catalyst, the successful synthesis of titanium silicalite molecular sieve (TS-1) has been considered to be a milestone in zeolite catalysis as of the 1980sbecau... Read More

  • Hexagonal Boron Nitride

    Hexagonal Boron Nitride
    Sep 6, 2018 | ACS MATERIAL LLC

    Hexagonal Boron Nitride (h-BN) has recently gained strong interest as a strategic component in engineering Van der Waals heterostructures with two dimensional crystals such as graphene. h-BN film can be synthesized by chemical vapor deposition (CVD) on catalytic substrates and the atomic layers can be controlled by changing the precursors, growth time and cooling rates etc. The unique properties of h-BN film offer promising potential in physical, mechanical, optical, electronic and hybrid applications. Introduction Boron Nitride (BN) is a typical III-V group compound with a stoichiometry of boron to nitrogen of 1:1. BN can be isomorphic to carbon in any lattice structure from zero-dim... Read More

  • SBA-15 Mesoporous Molecular Sieve

    SBA-15 Mesoporous Molecular Sieve
    Aug 16, 2018 | ACS MATERIAL LLC

    SBA-15 molecular sieve is prepared by the hydrothermal method using triblock polymer pluronic P123 (EO20-PO70EO20), hydrochloric acid, tetraethyl orthosilicate (TEOS) and deionized water as raw materials. SBA-15 has an ordered structure that contains uni-dimensional mesopores of uniform size ranging from about 4 to 30 nm.1 Unique properties of SBA-15 include uniform and adjustable pore size, thick pore walls, superior hydrothermal/thermal and mechanical stability, high surface area, high pore volume and open pore structure. All of these properties render it highly valuable in a wide variety of applications. Introduction Since the first discovery in 1998, SBA-15 ordered hexagonal mesopo... Read More

  • Introduction to Zeolites

    Introduction to Zeolites
    Jul 15, 2018 | ACS MATERIAL LLC

    Zeolites, which are also called molecular sieves, are crystalline microporous materials formed primarily by SiO4 and AlO4 corner-sharing tetrahedral building units that form three-dimensional (3D) frameworks with well-defined channels and cavities of molecular dimensions. The void space within the crystal allows zeolites to discriminate molecules based on their size or geometric shape. With variable chemical compositions and unique pore topologies, zeolites have been utilized in a wide range of industrial applications such as adsorption/separation, ion-exchange processes and also as catalysts in the processes of oil refining and fine chemical synthesis. Introduction Zeolites, which are... Read More

  • GlowDots

    May 29, 2018 | ACS MATERIAL LLC

    Facile synthesis of multi-colored, protein-based, metal-free, stable, nontoxic and pH sensitive advanced functional nanoparticles (GlowDots) is now a reality. Controlled cross-linking of bovine serum albumin has resulted in the formation of spherical nanoparticles of 35 nm in diameter with a size distribution of ±10 nm. The nanoparticles are then conjugated with specific dyes to produce white-emitting particles with tunable excitation wavelengths. These nanoparticles are a chemical novelty because their particle size, size distribution, stability, surface chemistry and emission properties are under full chemical control and their size and absorption/emission properties can be independ... Read More

  • FluoDots

    May 22, 2018 | ACS MATERIAL LLC

    FluoDots are single protein nanoparticles labeled with particular fluorescent dyes for imaging and other applications. They are composed of a central protein core surrounded by a covalently attached lipid layer. FluoDots retain the structure and functions of the protein embedded in the core, however the particles have increased thermal stability and a longer shelf life. Numerous carboxylic groups present on the surface of FluoDots are available for further chemical modification of the particles. FluoDot size is tunable at 2.5 Å resolution and the color is tuned independently of the size, which is a major advantage over quantum dots. FluoDots are water-soluble, non-toxic, biocompatible... Read More

  • BioGraphene & Bio-MoS2 Suspensions in Water

    BioGraphene & Bio-MoS2 Suspensions in Water
    May 15, 2018 | ACS MATERIAL LLC

    Applications of graphene and its two-dimensional counterparts (MoS2, BN) in the biomedical and healthcare sectors require water dispersions and biocompatible derivatives.1,2 Although the successful exfoliation of these bulk materials using organic solvents,3,4 ionic liquids,5,6 or surfactants7 has been reported, the biocompatibility of the resulting product, quality, expense, and environmental impact still remain unaddressed. 8 Introduction In an effort to produce biocompatible graphene, proteins were recently used to yield aqueous graphene dispersions using two separate methods, shear and ultrasonication. Sonication gave low exfoliation efficiencies (1 mg mL−1 h−1), limited scala... Read More

  • BioGraphene Suspensions in Sera

    BioGraphene Suspensions in Sera
    May 8, 2018 | ACS MATERIAL LLC

    Synthesizing the graphene-bio interface has become an increasingly important step for biological applications. Touted as the material of the millennium, graphene has undergone rapid development focusing on optoelectronic applications for lightweight and ultrafast electronic devices. Properties such as high surface area, light weight, high mechanical strength and fluorescence also make graphene highly attractive for biological and health care applications. Colloidal stability and low toxicity are vital for the implementation of graphene materials for such applications like biosensors, drug delivery and bioelectronics, however, there have been challenges due to hydrophobicity, the presen... Read More

  • Industrial-Scale Graphene Nanoplatelets & Dispersions

    Industrial-Scale Graphene Nanoplatelets & Dispersions
    Jan 10, 2018 | ACS MATERIAL LLC

    Graphene is typically produced with either a top-down or bottom-up approach; however, manufacturing a vast amount of the material is beneficial in technical industries. Creating high-quality and high-yield graphene, such as graphene nanoplatelets and dispersions, can push forward its use in a variety of industrial applications such as electronics, touchscreens and light-emitting diodes. This report will explain the different methods used to synthesize a large amount of these graphene materials and its benefits in industrial applications. Introduction Graphene is a one-atom-thick, honeycomb lattice structure that was extracted from graphite as shown in Figure 1, below. Apart from graph... Read More

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