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An Overview of TIG Welding of Ti6Al4V : Recent Developments

Atomic Layer Deposition (ALD) assisting the visibility of Metal-Organic Frameworks (MOFs) technologies

  • Authors: Ren, Jianwei , Jen, Tien-Chien
  • Date: 2021
  • Subjects: Atomic layer deposition , Metal-organic frameworks , Technology readiness levels
  • Language: English
  • Type: Article
  • Identifier: http://hdl.handle.net/10210/481744 , uj:43661 , Citation: Ren, J & Jen, T.C. 2021. Atomic Layer Deposition (ALD) assisting the visibility of Metal-Organic Frameworks (MOFs) technologies.
  • Description: Abstract: Metal-organic frameworks (MOFs) materials have been thought to be magic powers with unlimited applications. However, their powdered condition presents difficulty in utilizing them widely in practices. Depending on the envisioned applications, MOFs will be desired to integrate as an application-oriented forms for example thin films into a microelectronic device to achieve the desired performance. In the last decades, atomic layer deposition (ALD) as a truly enabling technology has become the method of choice for films deposition with good quality-control. In this regard, ALD promises to deposit MOFs films onto the target substrates and assist the visibility of MOFs technologies by facilitating MOFs devices integration. This review will collect together the published work that addresses the past ALD research efforts towards MOFs devices integration. Meanwhile, some beneficial concepts from other technological matrix are also pulled in to sparkle the thinking. We aim to provide an understanding on how the ALD technique is currently assisting the visibility of MOFs technologies.
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Enhanced removal efficiency of heavy metal ions from wastewater through functionalized silicon carbide membrane : A theoretical study

Facile extraction and characterization of silica nanoparticles from corn stalk by sol-gel hydrothermal methods

Hydrogen evolution reaction in an alkaline environment through nanoscale Ni, Pt, NiO, Fe/Ni and Pt/Ni surfaces: Reactive molecular dynamics simulation

Impact on structural and optical properties of CZTS thin films with solvents and Ge Incorporation

  • Authors: Singh, Abhay Kumar , Rana, Tanka R. , Kim, JunHo , Shkir, M. , Jen, Tien-Chien
  • Date: 2021
  • Language: English
  • Type: Article
  • Identifier: http://hdl.handle.net/10210/482663 , uj:43776 , Citation: Singh, A.K. et al. 2021. Impact on structural and optical properties of CZTS thin films with solvents and Ge Incorporation.
  • Description: Abstract: This report demonstrates nontoxic colloidal nitrate route CZTS (Cu2ZnSnS4) synthesis at room temperature, along with their band grading due to incorporation of Ge as cost of Sn (3%). The parent CZTS, CZGTS (Cu2ZnGeSnS4), and their polyvinyl alcohol (PVA), dimethyl sulfoxide (DMSO) solvent containing solutions doctor blade-coated thin film structural and optical properties are discussed. Their sulfurized thin films thickness have been achieved ±2 μ. It has noticed that addition of Ge in CZTS alloy affects the grain sizes, crystallographic structure, Raman spectral peak shift toward the higher wave number side. The addition of PVA and DMSO is also substantially contributed in their physical property modification by demonstrating the gradual improvement in grain sizes and compactness. Moreover, the gradual changes have also appeared in their X-ray diffractometer (XRD) and Raman spectroscopic results. The optical energy band gaps of the CZTS, CZGTS, and their PVA, DMSO mixed alloyed thin films are obtained in between 1.27 eV to 1.57 eV and 1.58 eV to 1.83 eV.
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Improving the combustion properties of corncob biomass via torrefaction for solid fuel applications

Laser butt welding of thin Ti6Al4V sheets: Effects of welding parameters

Microwave-assisted sol–gel synthesis of TiO2-mixed metal oxide nanocatalyst for degradation of organic pollutant

Nanoporous MoS2 membrane for water desalination : a molecular dynamics study

  • Authors: Oviroh, Peter Ozaveshe , Jen, Tien-Chien , Ren, Jianwei , Mohlala, Lesego M. , Warmbier, Robert , Karimzadeh, Sina
  • Date: 2021
  • Language: English
  • Type: Article
  • Identifier: http://hdl.handle.net/10210/482036 , uj:43697 , Citation: Oviroh, P.O. et al. 2021. Nanoporous MoS2 membrane for water desalination : a molecular dynamics study.
  • Description: Abstract: Molybdenum disulfide (MoS2), a two-dimensional (2D) material, promises better desalination efficiency, benefiting from the small diffusion length. While the monolayer nanoporous MoS2 membrane has great potential in the reverse osmosis (RO) desalination membrane, multilayer MoS2 membranes are more feasible to synthesize and economical than the monolayer MoS2 membrane. Building on the monolayer MoS2 membrane knowledge, the effects of the multilayer MoS2 membrane in water desalination were explored, and the results showed that increasing the pore size from 3 to 6 Å resulted in higher permeability but with lower salt rejection. The salt rejection increases from 85% in a monolayer MoS2 membrane to about 98% in a trilayer MoS2 membrane. When averaged over all three types of membranes studied, the ions rejection follows the trend of trilayer > bilayer > monolayer. Besides, a narrow layer separation was found to play an important role in the successful rejection of salt ions in bilayer and trilayer membranes. This study aims to provide a collective understanding of this high permiselective MoS2 membrane’s realization for water desalination, and the findings showed that the water permeability of the MoS2 monolayer membrane was in the order of magnitude greater than that of the conventional RO membrane and the nanoporous MoS2 membrane can have an important place in the purification of water.
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Optimization of milling parameters of Unmodified Calotropis Procera Fiber-Reinforced PLA Composite (UCPFRPC)

Performance characteristics of unsaturated polyester reinforced with high frequency microwave treated natural fibre

Reactive molecular dynamics simulations of nickel-based heterometallic catalysts for hydrogen evolution in an alkaline KOH solution

Surface and corrosion properties of Type 430 ferritic stainless steel in parsley (Petroselinum Sativum) essential oil-containing sulphuric acid solution

TIG welding of Ti6Al4V alloy: Microstructure, fractography, tensile and microhardness data

Yield response from the catalytic conversion of Parsley seed oil into biodiesel using a Heterogeneous and Homogeneous catalyst

A comparative review on cold gas dynamic spraying processes and technologies

  • Authors: Oyinbo, Sunday Temitope , Jen, Tien-Chien
  • Date: 2020
  • Subjects: Cold gas dynamic spraying , Spraying parameters , Deformatiom mechanism
  • Language: English
  • Type: Article
  • Identifier: http://hdl.handle.net/10210/436831 , uj:37907 , Citation: Oyinbo, S.T. & Jen, T.C. 2020. A comparative review on cold gas dynamic spraying processes and technologies. , DOI: https://doi.org/10.1051/mfreview/2019023
  • Description: Abstract: Cold gas dynamic spraying (CGDS) is a relatively new technology of cold spraying techniques that uses converging-diverging (De Laval) nozzle at a supersonic velocity to accelerate different solid powders towards a substrate where it plastically deforms on the substrate. This deformation results in adhesion to the surface. Several materials with viable deposition capability have been processed through cold spraying, including metals, ceramics, composite materials, and polymers, thereby creating a wide range of opportunities towards harnessing various properties. CGDS is one of the innovative cold spraying processes with fast-growing scientific interests and industrial applications in the field of aerospace, automotive and biotechnology, over the past years. Cold gas spraying with a wide range of materials offers corrosion protection and results in increases in mechanical durability and wear resistance. It creates components with different thermal and electrical conductivities than that substrates would yield, or produces coatings on the substrate components as thermal insulators and high fatigue-strength coatings, and for clearance control, restoration and repairing, or prostheses with improved wear, and produces components with attractive appearances. This review extensively exploits the latest developments in the experimental analysis of CGDS processes. Cold gas dynamic spraying system, coating formation and deposit development, description of process parameter and principles, are summarized. Industrial applications and prospectives of CGDS in future research are also commented.
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A molecular dynamics investigation of the temperature effect on the mechanical properties of selected thin films for hydrogen separation

A simulation study of methane-hydrogen gas mixture permeation through nanoporous palladium membrane using molecular dynamics

Atomistic Simulations of Interfacial deformation and bonding mechanism of Pd-Cu Composite Metal Membrane using Cold Gas Dynamic Spray Process

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