International Journal of Nanoparticles and Nanotechnology

Journal Information
EISSN : 2631-5084
Published by: VIBGYOR ePress (10.35840)
Total articles ≅ 38
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Latest articles in this journal

Yang Shuangping, Sun Haixing, Zhang Tiantian, Liu Shouman
International Journal of Nanoparticles and Nanotechnology, Volume 7; https://doi.org/10.35840/2631-5084/5538

Wu Qiuping, Su Kunquan, Tao Jin, Tan Zeng, Wu Chenyan, Yin Lingzhi, Hu Ying
International Journal of Nanoparticles and Nanotechnology, Volume 6; https://doi.org/10.35840/2631-5084/5534

Guenifi N, Rahi Sb, Larbi M
International Journal of Nanoparticles and Nanotechnology, Volume 6; https://doi.org/10.35840/2631-5084/5533

Abstract:
The present research letter is dedicated to a detailed analysis of a double-gate tunnel field-effect transistor (DG-TFET). The DG-TFET provides improved on-current (ION) than a conventional TFET via band-to-band (B2B) tunneling. However, DG-TFET is disadvantageous for low-power applications because of increased off-current (IOFF) due to the large ambipolar current (Iamb). In this research work, a Si/GaAs/GaAs heterostructure DG-TFET is considered as research base for investigation of device performance.
Bouazizi Nabil, Abed Ahmed, Giraud Stéphane, Achari Ahmida El, Campagne Christine, Vieillerd Julien, Derf Franck Le
International Journal of Nanoparticles and Nanotechnology, Volume 6; https://doi.org/10.35840/2631-5084/5537

Hussein Sarah, Falou Abdul Rahman El, Sahyoun Walaa, Ziade Youmni, Shubair Raed M.
International Journal of Nanoparticles and Nanotechnology, Volume 5; https://doi.org/10.35840/2631-5084/5532

Abstract:
In-vivo sensing, diagnosis and treatment of diseases is having a great attention lately. With advanced computational systems, the processing of the biological data as well as the prediction of diagnosis is becoming more promising. However, the implementation of these systems inside the human body has a major challenge: Modeling the communication channel. To overcome this problem, researchers are investigating the main factors that define the characteristics of the communication channel between nano-devices. In this work, a study of the impact of nano-antenna directivity on the electromagnetic propagating wave in the communication channel inside the human body is conducted. Then, these results are compared to the other contributors in the path loss In-vivo that are discussed earlier in literature: Frequency and propagation distance.
Subekti Niken, Mar'Ah Ro'Iyyatul, Aisyah Afrin Nur, Nada Dina Fika, Rahmawati Meidina
International Journal of Nanoparticles and Nanotechnology, Volume 5; https://doi.org/10.35840/2631-5084/5531

Abstract:
Cryptotermes cynocephalus is one of the Kalotermitidae species. In Indonesia, this species is known as wood-destroying pest. Damages incurred economic losses up to billions of rupiah per year. One of the technologies that can be used for controlling is nanotechnology of dodecenol pheromones. This study aims to analyze the effectiveness of nanoparticle pheromone dodecenol from Body Extract (BE) and Sternal Gland Extract (SGE) for controlling Cryptotermes cynocephalus through termite feeding preference and analysis of chemical components of both. Both extracts were analyzed using GC-MS then tested bios assay Y to compare its effect on feeding behavior of termites. BE was then used as a main material to produce nanoparticle gel. The food-preference test was conducted using Petri dish assay and endurance test based on Indonesian National Standard 2006. Petridis assay and endurance test in this research used 6 treatment of dodecenol nanoparticle concentration (0%, 5%, 10%, 15%, 20%, and 25%) and 3 repetitions. The GC-MS chromatogram results show that in the termite extract there are dodecenol compounds. Bioassay Y test showed that there was a difference between BE and SGE effect on termite adaptation and termite (P < 0.05). The bioassay choice test of Y shows that there is a difference in the effect of BE with SGE on the behavior of termites. BE is more influential than SGE with a significance level of 5%. Petridis assay shows that nanoparticle 10% maximally increases termite preference to pine wood sample indicated by mass loss 13.856%.
Pathak Pratibha Kb, Nandi Tandra, Srivastava Jyoti, Ghosh Subrata Kumar, Prasad Ne
International Journal of Nanoparticles and Nanotechnology, Volume 5; https://doi.org/10.35840/2631-5084/5530

Abstract:
Nano MoS2 (5-10) nm have been successfully synthesized using wet chemical synthesis in an aqueous solution employing ammonium molybdate, citric acid, and ammonium sulfide as the reactants. The high-speed homogenizer played a vital role to control size in the narrow range of (5-10) nm. XRD pattern reveals the broadening in peak intensity with the enhanced crystallinity of (002) peak at 10.4°, having a crystallite size 2 nm. TEM and EDX studies elucidate the presence of average particle size in the range of (5-10) nm with elemental molybdenum and sulfide ion. Our work has provided easy and convenient technique to synthesize nano MoS2 for development of nano lubricant with reduced wear and coefficient of friction.
Koumoulos Ep, Charitidis Ca
International Journal of Nanoparticles and Nanotechnology, Volume 5; https://doi.org/10.35840/2631-5084/5527

Abstract:
3D printing is identified to cost-effectively lower manufacturing inputs and outputs in markets with low volume, customized and high-value production chains, such as aerospace and medical component manufacturing. 3D printing has the potential to significantly lower life cycle energy demands of goods and their CO2 emissions. Moreover, Additive manufacturing will overturn many of the economics of production as it pays no heed to unit labour costs or traditional economies of scale. Advances in technology are yielding faster print times and enabling objects to be printed in greater combinations of materials, colors and finishes. Industries are nowadays at the inflection point for 3D printing. It has now moved from a new and much-hyped, but largely unproven, manufacturing process to a technology with the ability to produce real, innovative, complex and robust products.
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