2

nd

European Congress on Advanced Chemistry

May 09-10, 2019 | Stockholm, Sweden

Page 20

Journal of Organic & Inorganic Chemistry

ISSN: 2472-1123

Advanced Chemistry 2019

I

n the 20

th

century, hopes began to be placed on Nanotechnology. At the heart of

hope lay a seeming opportunity to solve problems with the production of new

materials, using controlled construction of the microstructure and forecasting

the course of technological processes. The scientific community has become

convinced that “nanotechnologies”, as they were advertised, cannot ensure

the mass production of the necessary products and materials, and the basis

of obtaining innovative materials are the usual physicochemical or chemical

processes associated with phase transitions. In 2016, a law on chemistry was

lobbied in the US Congress (Chemical and Engineering News, 2016, American

Chemical Society) and a group was created whose task is to explain to senators

the importance of chemistry for industrial production and the economy as a

whole. Great efforts are being made to solve pressing problems in current areas

of chemical technology. The increase in the number of experimental data, which

are considered anomalous, causes an increasing attention to the experimental

solutionofactualproblems.Thisleadstoanunjustifiedincreaseinlaborcosts.This

circumstance should dictate the need for the development of deep fundamental

research in all aspects of natural science. The reason for the lack of effort in

basic research lies in the presence of a crisis in the natural sciences. The Kazakh-

British Technical University conducted research in a fundamental direction, which

was designated by M Faraday. It is shown that the microstructure of inorganic

aqueous solutions and oxide melts has a molecular structure, and these fluids

have electronic conductivity type. The phenomenon of coacervation of oxide

melts under the influence of alternating electromagnetic fields and mechanical

vibrations; anisotropy of the conductivity of melts, etc., revealed an anomalously

high electrophoretic mobility of solid particles in melts, etc. The possibility of

using the discrete nature of the flow of elementary particles - electrons for the

organization of unusual chemical reactions is shown. A hypothesis about heat

transfer between material objects with the help of elementary particles - “heating

rods” was put forward and substantiated. The calculated mass of the "heat" -

5.15-10-36 kg. The calculated speed of the “heat source” in vacuum is close to

the speed of light and, depending on the temperature, is 3.0. 107 - 3.0. 108 m /s.

Innovations in natural sciences - the

factor of developing science

Suleimenov E N

Kazakh British Technical University

Biography

Suleimenov E N Graduated from the Kazakh Mining

and Metallurgy Institute, Metallurgy Faculty in 1960

with a Specialty of Metallurgical Engineer in the area

of non-ferrous, rare and precious metals. He was

a Candidate of Technical Sciences (1970), Senior

Research Associate (1981), Doctor of Technical

Sciences (2005), Fellow of the International Infor-

matization Academy (November, 2004) and a Mem-

ber of the European Academy of Natural Sciences

(January, 2007). After Graduation, he was assigned

to work in the Institute of Metallurgy and Ore Benefi-

cation of the Academy of Sciences of Kazakh SSR.

During the work in IMOB performed job duties of a

Senior Laboratory Technician (1960-1961), Engineer

(1961-1963), Junior (1963-1971) and Senior (1972-

1986, 1995-2000) Research Associates, Research

Team (multidisciplinary) Leader (1985-1995), Head

of laboratory (2004-2005), head of department

(2005-2006), Deputy Director for science (2000-

2004), Acting Director of the Institute of Metallurgy

and Ore Benefication (2004). He also has teaching

experience. In 1969-1971, he worked as a Senior

Teacher at the department of metallurgical process-

es and furnaces theory of the Kazakh Polytechnical

Institute named after V.I. Lenin. In 1995-1996, (com-

bined duties) he worked as an Assistant Professor

at the Department of non-organic substances tech-

nology of the Kazakh National Technical University

named after K I Satpaev. During the teaching activity

he held courses in general metallurgy for metallurgy

students, non-ferrous metallurgy plants mechanical

equipment students, chemical and environmental

engineers. He has developed and held courses in

energy technology processes, plasma chemistry

etc. He held a practical course in the metallurgical

processes theory. Held short courses of lectures on

melted slags theory and new processes in heavy

non-ferrous metals metallurgy. He is serving as the

Deputy Head of the Advanced Materials and Tech-

nologies Laboratory of the Kazakh-British Technical

University since 2009.

metallaim@mail.ru

Suleimenov E N, J Org Inorg Chem 2019, Volume:5

DOI: 10.21767/ -C2-022