In the preliminary study included in Advances in Materials Science Research. Volume 36, a novel fiberglass catalyst with highly dispersed 1-2 nm Pd clusters confined in the bulk of fiberglass at a depth of 10 nm was proposed. In spite of extremely low palladium content, this catalyst showed high performance in the selective hydrogenation of acetylene. Basic research of physicochemical properties of the silicate glass as well as the Pd/FG catalyst revealed that mass transfer of reagents in the bulk of glass does not limit the reaction rate, and the glass has a capability to absorb a large...
In the preliminary study included in Advances in Materials Science Research. Volume 36, a novel fiberglass catalyst with highly dispersed 1-2 nm Pd cl...
In Advances in Materials Science Research. Volume 39, the origin and fundamentals of the electrodeposition technique are introduced, and the characteristics of the nucleation process are described. Additionally, a procedure to analyze the nucleation process in electrodeposition is explained. The authors go on to address the role electropolymerization plays in electrochemical systems in the context of interplay between kinetics and energetics. Next, spherulitic textures of poly[tetrafluoroethylene-co-(perfluoroalkyl vinyl ether)] (PFA) are examined in detail using polarized optical microscopy....
In Advances in Materials Science Research. Volume 39, the origin and fundamentals of the electrodeposition technique are introduced, and the character...
Advances in Materials Science Research. Volume 40 first summarizes the recently published literature regarding modern applications of lignocellulosic materials. Lignocellulosic materials were conventionally treated as wastes for disposal, but are gaining recognition for their role in the supply of renewable resources. The authors discuss in detail the material attributes of pullulan and their correlation with the quality attributes of finished formulation, including: assay, dissolution, related substances and content uniformity. Additionally, this compilation presents the development of a...
Advances in Materials Science Research. Volume 40 first summarizes the recently published literature regarding modern applications of lignocellulosic ...
This compilation reports on the use of chemical modification as a complementary methodology in the study of various organic compounds by matrix-activated laser desorption/ionization mass spectrometry, particularly focusing on results obtained since the last decade of the 20th century. The influence of a three-phase contact line on extrinsic-substrate-induced nucleation is discussed in detail, and various geometric configurations corresponding to certain scenarios are also identified. The authors explore the synthesis and phase transitions in hexaferrites of Y-type, and emphasis is placed on...
This compilation reports on the use of chemical modification as a complementary methodology in the study of various organic compounds by matrix-activa...
Advances in Materials Science Research. Volume 43 begins with a review of the mechanical and durability properties and microstructural characteristics of concrete made with partial incorporation of coal bottom ash. Following this, the chemical aspects of interactions of aluminum-containing accelerators in Portland cement-based materials are described, explaining their effect on the kinetics of Portland cement hydration and the stability of Portland cement materials when exposed to various corrosive factors. A review of Indiaas cement industry is provided, particularly focusing on water...
Advances in Materials Science Research. Volume 43 begins with a review of the mechanical and durability properties and microstructural characteristics...
Advances in Materials Science Research. Volume 44 provides an overview of the emerging field of phosphorescent nanomaterials, including synthesis protocols and characterization issues. The authors discuss the synthesis methods and characterization of synthesized compounds by X-ray powder diffraction analysis, Fourier-transform infrared spectroscopy and scanning electron microscopy. The carefully designed techniques for engineering process-induced strain to enhance carrier mobility or transform the band-gap from indirect to direct nano-devices are described. A compilation of investigations...
Advances in Materials Science Research. Volume 44 provides an overview of the emerging field of phosphorescent nanomaterials, including synthesis prot...
This edited monograph presents five chapters, each detailing a recent advancement in materials science research. Chapter One focuses on several topics in the field of spintronics, including giant magnetoresistance observed in spin valves using various iron oxides and their interesting magnetization reversals by interlayer exchange coupling and spin-polarized tunneling in magnetic tunnel junctions using electrodes of half-metallic magnetite. Chapter Two describes the synthesis of eight coordination polymers by vial reaction method. Chapter Three introduces physical, thermal and electrochemical...
This edited monograph presents five chapters, each detailing a recent advancement in materials science research. Chapter One focuses on several topics...
This edited monograph includes five chapters, each detailing recent advancements in materials science research. Chapter One discusses various processes to manufacture lithium alloys and salts as well as fabricated pebbles of lithium-based ceramics with desired properties for their use as tritium breeder materials. Chapter Two examines how the mechanical performance of glass fiber reinforced hybrid composites changes according to glass fiber type, glass fiber end form, other reinforcing non-fibrous or fiber-based materials and composite manufacturing method. Chapter Three describes studies...
This edited monograph includes five chapters, each detailing recent advancements in materials science research. Chapter One discusses various processe...
This volume includes six chapters and presents some of the latest advancements in materials science research. Chapter One describes the structural characterization, the polyelectrolyte properties and the proton dynamics of imidazole-based materials, with special emphasis on the application for proton conductors, gene delivery systems, pollutant adsorbents, fluorescent sensors and OLED technologies. Chapter Two details various characteristics of polyethylene terephthalate fiber. Chapter Three explains the foundation of photonic crystals from one-dimension to higher-order and introduces...
This volume includes six chapters and presents some of the latest advancements in materials science research. Chapter One describes the structural cha...