On the priority of Saint-Petersburg mining university in the field of nanotechnology science and nanomaterials

A. G. Syrkov

doi:10.18454/pmi.2016.5.730

Vol 221

Pages:

730-736

Download volume:

RUS ENG

Article

On the priority of Saint-Petersburg mining university in the field of nanotechnology science and nanomaterials

Authors:

A. G. Syrkov

About authors

Ph.D., Dr.Sci. professor Saint-Petersburg Mining University

Date submitted:

2015-11-21

Date accepted:

2016-01-12

Date published:

2016-10-24

Abstract

Data are analyzed from dozens of scientific studies by professor P.P.Weimarn in 1910-1915 and reasoning by a whole number of well-known Russian experts which testify that the principal stipulations of the nanotechnological approach were conceptually formulated more than a hundred years back by the said Professor of the Mining Institute in Saint-Petersburg. It is for the first time that the interrelation is reviewed of the studies by P.P.Weimarn who stood at the cradle of nanotechnology with contemporary studies at the Saint-Petersburg Mining University. An upgraded temporal sequence is proposed (1910-2010) of forming nanotechnological knowledge that is associated with the names of scientists who made the most significant input into the process. Reasons are discussed for the long years of oblivion suffered by the first publications on “dispersoidology”, composed in Russia at the Mining Institute, which are pioneering in nanotechnology and nanomaterials science. Information is provided on the priority designs of the last few years on synthesizing surface nanostructured dispersed metals performed at the Mining University.

Область исследования:

(Archived) Geo-nanomaterials

Keywords:

scientific priority nanotechnology nanomaterials P.P.Weimarn dispersoidology matter surface and dispersion ultradispersed state

10.18454/pmi.2016.5.730

References

Aleskovskii V.B. Chemistry of permolecular compounds. St. Petersburg: Izd-vo SPbGU, 1996, p.256 [in Russian].
Margolin V.I., Zhabrev V.A., Luk'yanov G.N., Tupik V.A. Introduction to nanotechnology. St. Petersburg: Lan', 2012, p.464 [in Russian].
Veimarn P.P. Value of colloid chemistry for various branches of natural science: introductory lecture on colloid chemistry, presented on October 12, 1910 at the Imperial Saint-Petersburg University. Zapiski Gornogo instituta. 1911. Vol.3, p.127-131 [in Russian].
Veimarn P.P. Contractive and vectorial energy of volume and surface and thermal state of substances. Zapiski Gornogo instituta. 1913. Vol.4, p.239-240 [in Russian].
Veimarn P.P. Contractive and expansive energy of volume and surface, physico-chemical properties and thermal state of substances. St. Petersburg: Tipografiya M.P.Frolovoi, 1915, p.60 [in Russian].
Veimarn P.P. Crystal state – the only internal state of matter. Zapiski Gornogo instituta. 1909. Vol.1, p.94-101 [in Russian].
Veimarn P.P. On electric conductivity of metals and their alloys from the position of dispersoid chemistry. St. Petersburg: Ekon. Tipo-Litogr., 1912, p.15 [in Russian].
Veimarn P.P. New systematics of aggregate states of matter and the principal law of dispersoidology. Zapiski Gornogo instituta. 1912. Vol.4, p.128-143 [in Russian].
Veimarn P.P. To dispersoid chemistry of copper chlorate in benzene. Zapiski Gornogo instituta. 1912. Vol.4, p.75-95 [in Russian].
Veimarn P.P, Kagan I.B. Simple general technique of bringing arbitrary body into the state of solid colloid solutions of any level of dispersion, starting from molecular one. Zapiski Gornogo instituta. 1910. Vol.2, p.398-399 [in Russian].
Kireev V. Nanotechnology: the history of origin and development. Nanoindustriya. 2008. N 2, p.2-10 [in Russian].
Margolin V.I., Shishov S.E. Prospects and issues of nanotechnologies. O natsional'noi doktrine razvitiya v Rossiiskoi Federatsii nanotekhnologii: Analiticheskii sbornik. Sovet Federatsii Federal'nogo Sobraniya RF. Мoscow, 2006. С.54-63 [in Russian].
Kuznetsov N.T., Novotortsev V.M., Zhabrev V.A., Margolin V.I. Foundations of nanotechnology. Мoscow: Izd-vo «BINOM. Laboratoriya znanii», 2014, p.397 [in Russian].
Grachev V.I., Zhabrev V.A., Margolin V.I., Tupik V.A. Foundations of synthesizing nano-dimensional particles and films. Izhevsk: Udmurtiya, 2014, p.480 [in Russian].
Ostval'd V. The most important properties of colloid state of matter. Avtoriz. perevod s nemetskogo pod red. P.P.Veimarna. St. Petersburg: Estestvoispytatel', 1910, p.44 [in Russian].
Pleskunov I.V., Syrkov A.G., Vinogradova A.A. Applicaion of achievements in nanotribology and nanostructural surface passivation to control the properties of lubricants and protect metal equipment of a chemical mining enterprise. Gornyi informatsionno-analiticheskii byulleten'. 2016. N 2, p.86-98 [in Russian].
Syrkov A.G. All-Russian Workshop with foreign attendance “Nanophysics and nanomaterials”. Kondensirovannye sredy i mezhfaznye granitsy. 2014. Vol.16. N 1, p.103-110 [in Russian].
Syrkov A.G., Beloglazov I.N. Studies in nanostructures and nanomaterials at the SPGGI (ТU). Tsvetnye metally. 2007. N 10, p.91-94 [in Russian].
Syrkov A.G. International Workshop-Symposium “Nanophysics and nanomaterials”. Kondensirovannye sredy i mezhfaznye granitsy. 2016. Vol.18. N 1, p.161-167 [in Russian].
Syrkov A.G. Nanotechnology and nanomaterials. The role of non-equilibrium processes. St. Petersburg: Izd-vo Politekhn. un-ta, 2016, p.194 [in Russian].
Syrkov A.G. Synergetic strengthening of reactive capacity of aluminium in the presence of quadratic ammonia compounds on its surface. Zhurnal obshchei khimii. 2013. Vol.83. N 8, p.1392-1393 [in Russian].
Feinman R.F. There is plenty of space down under: an invitation to the new world of physics. Rossiiskii khimicheskii zhurnal. 2002. Vol.46. N 5, p.4-6 [in Russian].
Zhabrev V.A., Kalinnikov V.T., Margolin V.I., Nikolaev A.I., Tupik V.A. Physico-chemical processes of synthesizing nanodimensional objects. St. Petersburg: Elmor, 2012, p.328 [in Russian].
Pshchelko N.S., Syrkov A.G., Vakhreneva T.G., Pantyushin I.V., Syrkov D.A. Electrophysical and chemico-physical micro- and nanotechnology and strengthening of components adhesion in the system of metal-dielectric. Rossiiskie nanotekhnologii. 2009. Vol.4. N 11-12, p.42-47 [in Russian].
Application of electrochemical impedance spectroscopy for characterization of nanoporous films (Book Chapter) Nanоscale-arranged systems for nanotechnology / A.V.Bezmaternykh, A.G.Syrkov, K.L.Levine, et. al. / Ed. by K.Levine. New York: Nova Science Publishers, Inc., 2015. 191 p.
Nazarova E.A. Nonlinearity of Dependence of Integral Friction Index of Tribosystem from Hydrophilic Properties of Surface-Modified Metal Fillers / E.A.Nazarova, A.G.Syrkov, V.N.Brichkin // Advanced Materials Research. 2014. Vol.1040. P.103-106.
Rikka L. Puurunen. Surface chemistry of atomic layer deposition: A case study for the trimethylaluminum/water process // Journal of Applied Physics. 2005. Vol.97. N 12. P.121301-121352.
Syrkov A.G. Synergetic change of tribochemical properties of copper in the presence of quaternary ammonium compounds in the surface // Russ. J. Gen. Chem. 2015. Vol. 85. N 6. P.1538-1539.
Syrkov A.G. Tribochemical peculiarities of lubricant composition with surface-modified metal powder / A.G.Syrkov, M.O.Silivanov, A.N.Kushchenko // J. Phys. Conf. Ser. 2016. Vol.729. N 1. P.012026-012031.
Weimarn P.P. Kristallinische feste Losungen ais disperse Systeme verschieden Dispersitats grades // Kolloid-Zeitschrift. 1910. Vol.7. P.35-38.
Weimarn P.P. Zur Dispersoidchemie der Zellulose // Kolloid-Zeitschchrift. 1912. Vol.9. P.41-43.
Weimarn P.P. Ueber der Darstellung sogenannter kolloid-amorpher Bildungen gutkristallisierbarer und gut wasser losliher Salze der alkalischen und erdalkalischen Metalle // Kolloid-Zeitschrift. 1908. Vol.3. P.89-91.

On the priority of Saint-Petersburg mining university in the field of nanotechnology science and nanomaterials

Abstract

References

Similar articles