ВНЕДРЕНИЕ СЕРЕБРА В МАТРИЦУ ПОРИСТОГО КРЕМНИЯ МЕТОДОМ ЭЛЕКТРО-ТЕРМОДИФФУЗИИ

V. L. Koshevoi, A. O. Belorus, Matyushkin В. Matyushkin, Ilya M. Pleshanov, P. Seredin, Sergey A. Ivkov, A. S. Lenshin
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Композиты пористого кремния с внедренными частицами металла относятся к многофункциональным материалам и перспективны для применения в современной оптоэлектронике, сенсорике и персонализированной медицине. \n  \nИСТОЧНИК ФИНАНСИРОВАНИЯИсследование выполнено при поддержке РФФИ в рамках научного проекта 19-32-50038мол_нр «Исследование морфологических, физико-химических и оптических свойств матриц наоснове por-Si в зависимости от методов их формирования и функционализации». \n  \n   \nREFERENCES \n \nRaúl J. Martín-palma, Patrick D. McAtee, Rehab Ramadan, Akhlesh Lakhtakia. Hybrid nanostructured porous silicon-silver layers for wideband optical absorption. Scientifi c Reports, 2019, v. 9(1), p. 7291. https://doi.org/10.1038/s41598-019-43712-7 \nKleps I., Miu M., Danila M., Simion M., Ignat T., Bragaru A., Dumitru L., Teodosiu G. Silver/porous silicon (PS) nanocomposite layers for biomedical applications. Proc. of “2006 International Semiconductor Conference”, 27-29 Sep., 2006, no. 9211112. https://doi.org/10.1109/SMICND.2006.283935 \nEnsafi A. A., Rezaloo F., Rezaei B. Electrochemical sensor based on porous silicon/silver nanocomposite for the determination of hydrogen peroxide. Sensors and Actuators B, 2016, v. 231, pp. 239–244. https://doi.org/10.1016/j.snb.2016.03.018 \nJinjie Yin, Xiang Qi, Liwen Yang, Guolin Hao, Jun Li, Jianxin Zhong A hydrogen peroxide electrochemical sensor based on silver nanoparticles decorated silicon nanowire arrays. Electrochimica Acta, 2011, v. 56(11), pp. 3884–3889. https://doi.org/10.1016/j.electacta. 2011.02.033 \nSpivak Yu. M., Bespalova K. A., Belorus A. O., Panevin A. A., Somov P. A., Grigor’eva N. Yu., Chistyakova L. V., Zhuravskiy S. G., Moshnikov V. A. Sposob polucheniya i primer lekarstvennoy funktsionalizatsii poverkhnosti nanochastits poristogo kremniya [A method of obtaining and an example of drug functionalization of the surface of porous silicon nanoparticles]. Biotekhnosfera [Biotechnosphere], 2017 (3), pp. 69–75. (in Russ.) \nPastukhov A. I., Belorus A. O., Bukina Ya. V., Spivak Yu. M., Moshnikov V. A. Infl uence of technology conditions on the surface energy of porous silicon using the method of contact angle. Proc. of “2017 IEEE Conference of Russian Young Researchers in Electrical and Electronic Engineering (EIConRus)”, 1–3 Feb., 2017, pp. 1183-1185. https://doi.org/10.1109/eiconrus.2017.7910770 \nMatyushkin L. B. Tekhnologiya i oborudovanie dlya polucheniya kolloidnykh kvantovykh tochek CsPbX3 (X = Cl, Br, I), CdSe/ZnS, plazmonnykh nanochastits Ag/SiO2 i gibridnykh struktur na ikh osnove [Technology and equipment for obtaining CsPbX3 colloidal quantum dots (X = Cl, Br, I), CdSe/ZnS, Ag/SiO2 plasmonic nanoparticles and hybrid structures based on them. Cand. Sci. (Eng.) diss. St. Petersburg, 2018, 138 p. URL: https://elibrary.ru/item.asp?id=35115356 (in Russ.) \nPermiakov N. V., Matyushkin L. B., Belorus A. O., Koshevoi V. L. Investigation of a program-controlled process of impregnation of porous semiconductors with silver nanoparticles to create an electrical contact. Proc. of “IEEE Conference of Russian Young Researchers in Electrical and Electronic Engineering (EIConRus)”, 2018, pp. 539–543. https://doi.org/10.1109/EICon- Rus.2018.8317154 \nTravkin P. G., Vorontsova N. V., Vysotsky S. A., Lenshin A. S., Spivak Yu. M., Moshnikov V. A. Issledovanie zakonomernostey formirovaniya struktury poristogo kremniya pri mnogostadiynykh rezhimakh elektrokhimicheskogo travleniya [Study of regularities of porous silicon structure formation with multistage modes of electrochemical etching]. Izvestiya SPBGETU LETI, 2011(4). pp. 3–9. (in Russ.) \nBelorus A. O., Komlev A. A. Certifi cate of state registration of computer programs No. 2014613394. Measurement of contact angle (MofCA) 26 March 2014. (in Russ.) \nVan Hoonacker A., Englebienne P. Revisiting silver nanoparticle chemical synthesis and stability by optical spectroscopy. Current Nanoscience, 2006, v. 2(4), pp. 359–371. https://doi.org/10.2174/157341306778699310 \nGirel K. V., Bondarenko A. V. Formirovanie nanostruktur serebra metodom immersionnogo osazhdeniya [Formation of silver nanostructures by immersion deposition method onto porous silicon and study of their optical properties]. Doklady BGUIR, 2014, v. 86(8), pp. 5–10. 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引用次数: 0

Abstract

В работе были проведены исследования возможности внедрения серебра в пористый кремний методом электро-термодиффузии и установлено влияние процедуры осаждения на адсорбционные свойства поверхности пористой матрицы. Композиты пористого кремния с внедренными частицами металла относятся к многофункциональным материалам и перспективны для применения в современной оптоэлектронике, сенсорике и персонализированной медицине.   ИСТОЧНИК ФИНАНСИРОВАНИЯИсследование выполнено при поддержке РФФИ в рамках научного проекта 19-32-50038мол_нр «Исследование морфологических, физико-химических и оптических свойств матриц наоснове por-Si в зависимости от методов их формирования и функционализации».      REFERENCES Raúl J. Martín-palma, Patrick D. McAtee, Rehab Ramadan, Akhlesh Lakhtakia. Hybrid nanostructured porous silicon-silver layers for wideband optical absorption. Scientifi c Reports, 2019, v. 9(1), p. 7291. https://doi.org/10.1038/s41598-019-43712-7 Kleps I., Miu M., Danila M., Simion M., Ignat T., Bragaru A., Dumitru L., Teodosiu G. Silver/porous silicon (PS) nanocomposite layers for biomedical applications. Proc. of “2006 International Semiconductor Conference”, 27-29 Sep., 2006, no. 9211112. https://doi.org/10.1109/SMICND.2006.283935 Ensafi A. A., Rezaloo F., Rezaei B. Electrochemical sensor based on porous silicon/silver nanocomposite for the determination of hydrogen peroxide. Sensors and Actuators B, 2016, v. 231, pp. 239–244. https://doi.org/10.1016/j.snb.2016.03.018 Jinjie Yin, Xiang Qi, Liwen Yang, Guolin Hao, Jun Li, Jianxin Zhong A hydrogen peroxide electrochemical sensor based on silver nanoparticles decorated silicon nanowire arrays. Electrochimica Acta, 2011, v. 56(11), pp. 3884–3889. https://doi.org/10.1016/j.electacta. 2011.02.033 Spivak Yu. M., Bespalova K. A., Belorus A. O., Panevin A. A., Somov P. A., Grigor’eva N. Yu., Chistyakova L. V., Zhuravskiy S. G., Moshnikov V. A. Sposob polucheniya i primer lekarstvennoy funktsionalizatsii poverkhnosti nanochastits poristogo kremniya [A method of obtaining and an example of drug functionalization of the surface of porous silicon nanoparticles]. Biotekhnosfera [Biotechnosphere], 2017 (3), pp. 69–75. (in Russ.) Pastukhov A. I., Belorus A. O., Bukina Ya. V., Spivak Yu. M., Moshnikov V. A. Infl uence of technology conditions on the surface energy of porous silicon using the method of contact angle. Proc. of “2017 IEEE Conference of Russian Young Researchers in Electrical and Electronic Engineering (EIConRus)”, 1–3 Feb., 2017, pp. 1183-1185. https://doi.org/10.1109/eiconrus.2017.7910770 Matyushkin L. B. Tekhnologiya i oborudovanie dlya polucheniya kolloidnykh kvantovykh tochek CsPbX3 (X = Cl, Br, I), CdSe/ZnS, plazmonnykh nanochastits Ag/SiO2 i gibridnykh struktur na ikh osnove [Technology and equipment for obtaining CsPbX3 colloidal quantum dots (X = Cl, Br, I), CdSe/ZnS, Ag/SiO2 plasmonic nanoparticles and hybrid structures based on them. Cand. Sci. (Eng.) diss. St. Petersburg, 2018, 138 p. URL: https://elibrary.ru/item.asp?id=35115356 (in Russ.) Permiakov N. V., Matyushkin L. B., Belorus A. O., Koshevoi V. L. Investigation of a program-controlled process of impregnation of porous semiconductors with silver nanoparticles to create an electrical contact. Proc. of “IEEE Conference of Russian Young Researchers in Electrical and Electronic Engineering (EIConRus)”, 2018, pp. 539–543. https://doi.org/10.1109/EICon- Rus.2018.8317154 Travkin P. G., Vorontsova N. V., Vysotsky S. A., Lenshin A. S., Spivak Yu. M., Moshnikov V. A. Issledovanie zakonomernostey formirovaniya struktury poristogo kremniya pri mnogostadiynykh rezhimakh elektrokhimicheskogo travleniya [Study of regularities of porous silicon structure formation with multistage modes of electrochemical etching]. Izvestiya SPBGETU LETI, 2011(4). pp. 3–9. (in Russ.) Belorus A. O., Komlev A. A. Certifi cate of state registration of computer programs No. 2014613394. Measurement of contact angle (MofCA) 26 March 2014. (in Russ.) Van Hoonacker A., Englebienne P. Revisiting silver nanoparticle chemical synthesis and stability by optical spectroscopy. Current Nanoscience, 2006, v. 2(4), pp. 359–371. https://doi.org/10.2174/157341306778699310 Girel K. V., Bondarenko A. V. Formirovanie nanostruktur serebra metodom immersionnogo osazhdeniya [Formation of silver nanostructures by immersion deposition method onto porous silicon and study of their optical properties]. Doklady BGUIR, 2014, v. 86(8), pp. 5–10. (in Russ.)  
电热扩散法引入多孔硅基质
研究了银在多孔硅中引入电热扩散的可能性,并确定了沉积过程对多孔基质表面吸附性的影响。嵌入金属颗粒的多孔硅复合材料是多功能材料,很有可能在现代光电、传感器和个性化医学中使用。该研究的资金来源是rfi在19-32- 50038mol_nr科学项目的支持下进行的。瑞芬克斯·j·马丁-帕尔玛,帕特里克·d·麦克塔尼,瑞哈布·拉马丹,Akhlesh Lakhtakia。nanostructured保时捷silicon是一款用于宽带optiction的银器。科学报告,2019,v9, p, 7291。https://doi.org/10.1038/s41598-019-43712-7 Kleps I、Miu M。Danila M、Simion M。Ignat T。Bragaru A Dumitru L。Teodosiu g . Silver / porous silicon (PS) nanocomposite layers for biomedical应用。2006年国际半导体大会27-29会议,2006年,no。9211112. A https://doi.org/10.1109/SMICND.2006.283935 Ensafi。b, F Rezaloo。Rezaei Electrochemical sensor基于on porous silicon / silver nanocomposite for the determination of hydrogen peroxide。感官和Actuators B, 2016年,v231, pp, 239 - 244。https://doi.org/10.1016/j.snb.2016.03.018 Jinjie Yin, Xiang ql, Liwen洋Guolin你好,Jun Li Jianxin Zhong A hydrogen peroxide electrochemical sensor基于on silver nanoparticles decorated silicon nanowire arrays。2011年,Electrochimica Acta, v56 (11), pp, 3884 - 3889。https://doi.org/10.1016/j.electacta。2011. 02,033 Spivak YuM.,贝奥卢斯·A. O., Panevin A. A., Somov P. A。Chistyakova lv, Zhuravskiy S. G, Moshnikov V. A。biotekhnosphere, 2017 (3), pp, 69 - 75。(in Russ。)帕stukhov A. I, Belorus A. O, Bukina Ya。V, Spivak Yu。Moshnikov V. A. Infl在porous silicon使用连接天使的方法上的技术协同。“2017年俄罗斯电子和电子工程师大会”,1 - 3 Feb, 2017, 1183-1185。https://doi.org/10.1109/eiconrus.2017.7910770 Matyushkin l . b . Tekhnologiya i oborudovanie dlya polucheniya kolloidnykh kvantovykh tochek CsPbX3 (X = Cl、Br、i), CdSe / ZnS plazmonnykh nanochastits Ag / SiO2 i gibridnykh struktur na ikh osnove [Technology and equipment for obtaining CsPbX3 colloidal quantum照排机(X = Cl、Br、i) CdSe / ZnS、Ag / SiO2 plasmonic hybrid structures基于nanoparticles and on them。Cand。Sci。(Eng) diss。2018年圣彼得堡,138,p . URL: https://elibrary.ru/item.asp?id=35115356 (in Russ。)Permiakov n . V, Matyushkin l . B。,Koshevoi Belorus a . O。V . l . Investigation of a program - controlled process of impregnation of porous半导体with silver nanoparticles to an electric创造的主题。俄罗斯电子和电子研究所(EIConRus)的IEEE年轻研究人员(IEEE)计划,2018年,539 - 543。https://doi.org/10.1109/EICon- Rus.2018.8317154 Travkin p G、Vorontsova n . V。,Lenshin Vysotsky S . A . A . S, Spivak Yu。Moshnikov是Moshnikov, Moshnikov是moshniv。zvestiya SPBGETU LETI, 2011年(4)pp 3 - 9。(in Russ。)Belorus A. O, Komlev A. A. Certifi州计算机计划第2014613394。2014年3月26日,《接触天使》上映。(in Russ。)Van Hoonacker A.,银nanoptiicle化学合成和光谱学状态。常任Nanoscience, 2006年,v2 (4), pp, 359 - 371。https://doi.org/10.2174/157341306778699310 Girel k V, Bondarenko a . V . Formirovanie nanostruktur serebra metodom immersionnogo osazhdeniya[组of silver nanostructures by immersion deposition method onto porous silicon and研究of their (optical]。Doklady BGUIR, 2014年,v86 (8), pp, 5 - 10。(in Russ。)
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