Учебное пособие 800637
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Ni- |
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К |
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ация Ni, а .% |
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Ni-AlZrO |
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700 ( ) – |
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700 ° |
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53.092 |
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Cd3As2+44.7 |
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1, |
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2, . . |
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2 - |
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.- . |
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Cd3As2+MnAs (MnAs – 44.7%). |
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30-33 |
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MnAs, |
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Cd3As2 + MnAs (52.7 |
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Cd3As2, |
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Cd3As2 |
50 GPa [1]. |
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30-33 |
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R(t)=A1e-t/t1+A2e-t/t2. |
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Cd3As2+MnAs (MnAs–44.7%). |
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. 1.
161
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1- |
(Cd3As2)0.653(MnAs)0.44: |
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tmin=min{t1,t2}, |
R(t)=A1e- |
t/t1+A2e-t/t2 (1), |
t0, |
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S(t)=Ae-t/t0(2) |
1. Lanpo He. Pressureinduced superconductivity in the three-dimensional topological Dirac semimetal Cd3As2/ YatingJia, Sijia Zhang, Xiaochen Hong, ChangqingJin and Shiyan Li// npj Quantum Materials.-2016.- 1.- p. 16014.
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VI. |
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537.9 |
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CuO, |
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1, . . |
2, . . |
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2 - |
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, menshikova.vrn@mail.ru |
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500˚ . |
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CuO, |
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CuO – |
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1,4-2,9 |
[1]. |
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[3]. |
CuO |
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[5] |
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[1] |
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CuO |
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CuO |
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CuO. |
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CuO (1,1,0) 31,7˚. |
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(1,1,0) 31,7˚, (-1,1,1) |
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CuO. |
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2,65 . |
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CuO. |
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CuO |
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1. Y. Yang, D. Xu, Cu2O/CuO Bilayered Composite as a High-Efficiency Photocathode for Photoelectrochemical Hydrogen Evolution ReactionS-cientific Reports, Oct 17 [Online] Available:
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5066255/#b62
2. F. Z. CHAFIand B. Fares, “2015 3rd International Renewable and Sus-tainable Energy
Conference (IRSEC)” Fe-doped CuO deposited by spray pyrolysis technique, DOI
10.1109/IRSEC.2015.7455109, pp. 1–5, Dec. 2015.
3. Ş. Baturay, “n-Type conductivity of CuO thin films by metal doping”, Applied Surface
Science, DOI 10.1016/j.apsusc.2017.12.004, V 477, pp. 91-95, May. 2019.
4. L. JianBo, “Single phase CuO thin films prepared by thermal oxidation in air with water vapor” Advanced Materials Research, DOI: 10.4028/www.scientific.net/AMR.1109.544 V 1109 pp.
544-548 Jun. 2015
5. V. Ramya; “CuO Thin Film Prepared by Chemical Bath Deposition Technique: A Review”
International Journal of NanoScience and Nano-technology V 8, n 1, pp. 11-15 Jun 2017
538.975
ZnO
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ZnO [1]. ZnO |
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1.Lee J. -H. Electrical and op-tical properties of ZnO transparent conducting films by the solgel method./ J. –H. Lee, K. –H. Ko, and B.-O. Park // Journal of Crystal Growth. – 2003. – V. 247. –
№1 – 2. – P.119 – 125.
2.Serier H. Al-doped ZnO powdered materials: Al solubility limit and IR absorption properties / H. Serier, M. Gaudon, and M. Mntrier // Solid State Sciences. – 2009. – V. 11. -№ 7. – P. 1192 – 1197, 2009.
538.975 |
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Cu O; 1 10 |
CuCuO;O;10- |
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Cu O; -1 1 2 Cu O; -202 Cu O; 1 1 2 Cu O; 0 2 0 |
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166
.3
1.Yang Y. Cu2O/CuO Bilayered Composite as a High-Efficiency Photocathode for Photoelectrochemical Hydrogen Evolution Reaction / Y. Yang, D. Xu // S-cientific Reports. – 2016. - V. 6: 35158.
2.Chafi F. Z. Characterization techniques of Fe-doped CuO thin films deposited by the Spray
Pyrolysis method/ F. Z. Chafi , L. Bahmad , N. Hassanain , B. Fares , L. Laanab, A. Mzerd //Faculty of ScienceBP. 1014Av. Ibn Batouta Rabat, Morocco – Jul 2018.
537.9
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PbTe |
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1 |
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2 |
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.- . |
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PbTe, |
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3.A Set of High Accuracy Low Cost Metallic Resonator CVG / V. V. Chikovani, I. M. Okon, A. S. Barabashov, P. Tewksbury // Proceedings of IEEE/ION PLANS 2008, Monterey, CA, May
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2018. . 162-166. |
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XIX |
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169