N so as to make the co-formed oxides, followed by their hydrogen reduction at 300, 600 and 900 C. The supplies made in every step were characterized by DRX, SEM, TEM-EDS elementary mapping procedures. From the XRD Rietveld calculations, it was feasible to recognize some of the content material phases in the co-formed oxides samples for example NiO, CO3 O4 , Co(NiCo)O4 Ni8 Cu2 O, and NiCo2 O4 . The SEM evaluation indicated that, generally, the precursors (co-formed oxides) showed a homogeneous distribution on the elements and also a porous structure, that are recommended for the following hydrogen reduction. These crystallite sizes, also determined by Rietveld calculations, are comparable with the ones D-Fructose-6-phosphate disodium salt site obtained from individual particles by TEM. It is therefore attainable to assume that these individual particles are composed of one or two crystal domains. The ternary alloys were obtained with compositions incredibly close to what was theoretically expected: 10Cu0Ni0Co, 12Cu4Ni4Co and 24Cu4Ni2Co. The typical crystallite sizes, calculated by the Rietveld technique, from all 3 samples was under 50 nm. An excellent homogeneous distribution on the elements was accomplished and self-sinterization was noticed in samples from reduction carried out in the highest temperature. This impact was a lot more pronounced in metallic nanoparticles having a greater copper content material. A prominent FCC phase was identified as the key metallic powder constituent and nanoparticles with apparent spheroidal morphology as well as a homogeneous distribution have been also located by TEM evaluation.Author Contributions: Conceptualization, E.P.M.C. and E.d.A.B.; methodology, E.P.M.C. and E.d.A.B.; validation, E.P.M.C. and J.B.d.C.; formal evaluation, E.P.M.C. and J.B.d.C.; investigation, E.P.M.C., I.G.S.N. and E.d.A.B.; resources, E.d.A.B.; writing–original draft preparation, E.P.M.C.; writing–review and editing, E.P.M.C., J.B.d.C., I.G.S.-N. and E.d.A.B.; visualization, E.P.M.C.; supervision, J.B.d.C., I.G.S.-N. and E.d.A.B.; project administration, E.d.A.B.; funding acquisition, E.d.A.B. All authors have study and agreed towards the published version of the manuscript.Components 2021, 14,12 ofFunding: The authors are particularly grateful to the Brazilian funding agencies CNPq and CAPES for their economic help and also to the LabNano/CBPF for enabling access for the analytical TEM/STEM instruments. Institutional Overview Board Statement: Not applicable. Informed Consent Statement: Not applicable. Data Availability Statement: The information presented in this study are offered on request in the corresponding author. Acknowledgments: The authors are incredibly grateful for the Brazilian funding agencies CNPq and CAPES too to FAPERJ for their monetary support. Gratitude can also be as a consequence of CBPF/Lab Nano for enabling access to the analytical TEM/STEM instruments. Conflicts of Interest: The authors declare no conflict of Namodenoson Technical Information Interest.materialsArticleResearch of a Novel Ag Temperature Sensor Based on Fabric Substrate Fabricated by Magnetron SputteringZong-Yao Yan 1,2 , Jian-Yong Liu 1,two, and Jia-Rong Niu 1,2, School of Textile Science and Engineering, Tiangong University, Tianjin 300387, China; yanzongyao96@163 Important Laboratory of Sophisticated Textile Composites Ministry of Education, Tiangong University, Tianjin 300387, China Correspondence: jianyong1964@126 (J.-Y.L.); [email protected] (J.-R.N.); Tel.: 86-133-0203-6171 (J.-Y.L.); 86-135-1224-5984 (J.-R.N.)Abstract: TPU-coated polyester fabric was applied because the substrate of a flexible temp.
