“Ion Implantation ” Science-Research, December 2021, Week 2 — summary from Astrophysics Data System, Springer Nature, DOAJ and NASA Technology Transfer Program

Astrophysics Data System — summary generated by Brevi Assistant

Upright GaN power gadgets have arised to end up being encouraging candidates for next-generation high power applications as a result of superior material properties such as high failure voltage, low on-resistance, and high wheelchair compared to devices based upon Si and SiC. GaN-based p-n junction changing tools enable greater voltage power with substantially greater performances with added advantages of minimized size and weight systems. III-nitrides vast bandgap semiconductors presently use a future alternative to meet the expanding demand for high power electronic tools. There are no demonstrations of III-nitride SJs in the literary works based on one major limitation, the problem of obtaining selective area doping. Silicon Carbide is an encouraging large bandgap semiconductor for future power tools since SiC has vast bandgap, high break down voltage and good thermal security. Higher energy used for implantation can possibly introduce higher damage than conventional reduced energy implantation procedures. The results of experiments on low-energy implantation of AISI 321 stainless-steel by nitrogen ions are provided. The impact of subsequent adjustment of the ion-doped layer by the activity on the surface of the pulsed high-current electron beam of light of microsecond period is researched. Introducing issues and heteroatoms is a considerable approach to enhance oxygen development reaction performance of electrocatalysts. X-ray photoelectron ranges and thickness useful theory calculations reveal that the charge density of Co is atom boosted, and the response barrier of response path from O * to HOO * reduced. In this work, a logical model for the time-resolved characteristics of the collisional transient sheath in the plasma source ion implantation procedure is developed. The final worth of the ion rate in the broadened sheath often tends to the ion Bohm velocity.

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Springer Nature — summary generated by Brevi Assistant

Solitary crystals of semi-organic potassium hydrogen phthalate crystals and l -proline amino acid -doped potassium hydrogen phthalate crystals were dental implanted with 10 keV Ar ^+ ions at different fluencies of 1 × 10 ^ 15, 5 × 10 ^ 15, 1 × 10 ^ 16, and 5 × 10 ^ 16 ions/cm ^ 2 to improve their nonlinear optical property. The energy deposition by the ion beam in the example was studied by simulations utilizing SRIM-2013 program. Theoretical values of SHG determined making use of the Python computational plan show that more increase in Ar ^+ ion fluence will increase the SHG in l -proline -drugged KHP crystal. In this research study, surface adjustment of monocrystalline silicon with 2 doses of hydrogen ion implantation and the dive reducing procedure were performed to discover the impact of hydrogen ions on the reducing habits of silicon. Extra bosoms and a decrease in crucial deepness of cut were observed for the silicon with a low implantation dose in the cutting direction of in comparison to bare silicon, while no cleavage and an increase of CDoC were accomplished after implantation with a high dosage in the same reducing direction. The pliable cutting and drive forces of the silicon with the reduced dose are bigger than the bare silicon, yet the forces are significantly lowered for the silicon after the high dose of implantation. The impact of magnetic dopants on the transport properties of topological insulators is of fantastic rate of interest. The Hall dimensions revealed that the service provider’s concentration was initially raised with the fluence of approximately 1 × 10 ^ 14 ions/cm ^ 2, but an additional boost in the fluence resulted in a decrease in the provider’s focus. The P-type nature of the leading cost providers was observed for all the fluences other than the highest dose where an adjustment in the type of providers from p-type to n-type was observed.

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DOAJ — summary generated by Brevi Assistant

Silicone rubber implants have been extensively made use of to fix soft tissue flaws and defects. Histocompatibility experiments on pets revealed that both the antifibrosis and anti-inflammatory properties of PC-SR were a little far better than those of the other materials, and there was a lower capsular contracture rate and less collagen deposition around implants made from PC-SR. Hironobu Koseki,1 Masato Tomita,2 Akihiko Yonekura,2 Takashi Higuchi,1 Sinya Sunagawa,2 Koumei Baba,34 Makoto Osaki2 1Department of Locomotive Rehabilitation Science, Unit of Rehabilitation Sciences, 2Department of Orthopedic Surgery, Nagasaki University Graduate School of Biomedical Sciences, Sakamoto, Nagasaki, Japan; 3Industrial Technology Center of Nagasaki, Ikeda, Omura, Nagasaki, Japan; 4Affiliated Division, Nagasaki University School of Engineering, Bunkyo, Nagasaki, Japan Abstract: Metal-on-metal bearings have become popular because of a significant benefit over metal-on-polymer bearings for overall hip arthroplasty in that the bigger femoral The results of this research suggest that the CII surface maintains the wear status because of the low friction coefficient and reduced infiltration of companion materials, and these properties also prevent the attachment of wear particles and hinder extreme wear. Abstract We report in this paper a new MRI contrast agent based on magnetic nanodiamonds fabricated by Fe ion implantation. The fe atoms that are implanted into the nanodiamonds are not in straight call with the outdoors, allowing this new contrast agent to be devoid of cell toxicity. István Lampé,1 Dezső Beke,2 Sándor Biri,3 István Csarnovics,4 Attila Csik,3 Zsuzsanna Dombrádi,5 Péter Hajdu,3 Viktória Hegedűs,6 Richárd Rácz,3 István Varga,7 Csaba Hegedűs11Department of Biomaterials and Prosthetic Dentistry, Faculty of Dentistry, University of Debrecen, Hungary; 2Department of Solid State Physics, University of Debrecen, Hungary; 3Hungarian Academy of Sciences, Institute for Nuclear Research, Debrecen, Hungary; 4Department of Experimental Physics, Faculty of Science and Technology, University of Debrecen, Hungary; 5Department of Medical Microbiology, Faculty of Medicine, University of Debrecen, Conclusion: Creating a silver nanoparticle layer can be an alternative to include anti-bacterial functions to the dental implant surface area and to assist in the prevention of peri-implant inflammatory procedures. Guifang Wang,12 * Jinhua Li,3 * Wenjie Zhang,12 Lianyi Xu,12 Hongya Pan,2 Jin Wen,12 Qianju Wu,12 Wenjun She,1 Ting Jiao,1 Xuanyong Liu,3 Xinquan Jiang,121 Department of Prosthodontics, Ninth People’’ s Hospital, School of Medicine, Shanghai Jiao Tong University, 2Oral Bioengineering Laboratory, Ninth People’’ s Hospital Affiliated to Shanghai Jiao Tong University, School of Medicine, Shanghai Key Laboratory of Stomatology, 3State Key Laboratory of High Performance Ceramics and Superfine Microstructure, Shanghai Institute of Ceramics, Chinese Academy of Sciences, Shanghai, People’’ s Republic of China * these writers contributed just as Hierarchical hybrid micro/nanostructured titanium surface areas adhered to by magnesium ion implantation for 30 minutes and hierarchical hybrid micro/nanostructured titanium surface areas followed by magnesium ion implantation for 60 minutes were made use of as test groups.

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NASA Technology Transfer Program — summary generated by Brevi Assistant

NASA is seeking interested parties to accredit the Battery Management System developed by trendsetters at Johnson Space Center. Innovators at NASA’s Glenn Research Center have established new innovations that boost the operational life time of a Hall effect thruster, which is used primarily on Earth-orbiting satellites and can additionally be made use of for deep-space robot vehicles. Small satellites are satellites of reduced mass and dimension, usually under 500 kg. Previous attempts to utilize vacuum arc technology for spacecraft propulsion have had a number of concerns. When driven right into thermal runaway conditions, innovators at NASA Johnson Space Center have created an approach to gauge the overall and fractional heat response of large layout Li-ion cells. Trendsetters at NASA Johnson Space Center created a technique to check thermal administration systems of lithium-ion batteries called Small Format fractional Thermal Runaway Calorimetry making use of one-of-akind testing hardware. Unlike cylindrical cells, bag cells require consistent compression on either side of the cell and the capability for the cell to be wild along the seams to guarantee that the cell can air vent in any kind of instructions when a thermal runaway condition is caused. NASAs Marshall Research Center has created a system for generating iodine vapor from strong iodine, for use as a propellant in a Hall or ion thruster propulsion system. Xenon has generally been the favored propellant of selection for these spacecraft ion propulsion systems, yet more lately, iodine-based systems have obtained considerable focus because of equivalent efficiency to xenon, and the system-level advantages of low storage pressure and higher storage thickness with more propellant each volume.

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