New issue of the Russian Nanotechnologies. Do Russian nanotechnologies exist? Journal Impact Factor Russian Nanotechnologies

Scientometric indicators

Usage

• 7666 Full Text Downloads 2018

  Springer measures the number of downloads of full texts from the SpringerLink platform in accordance with COUNTER (Counting Online Usage of NeTworked Electronic Resources) standards.

• 17.5 Usage factor 2017/2018

  The usage factor is a value calculated according to the rules recommended by COUNTER. This is the average (median) number of downloads in 2017/18. for all articles published online in the same journal during the same period. The usage factor calculation is based on data that complies with the COUNTER standards on the SpringerLink platform.

Influence

• 0.68 Source Normalized Impact per Paper (SNIP) 2018

  Source Normalized Impact per Paper (SNIP) measures a journal's contextual citation impact by weighting the citations in each subject group. The contribution of each individual citation is the higher in each specific subject category, the less likely (for reasons of subject content) that such a citation will occur.

• Q2 Quartile: Engineering (miscellaneous) 2018

  A set of journals from the same subject category are ranked according to their SJR and divided into 4 groups called quartiles. Q1 (green) combines the journals with the highest scores, Q2 (yellow) - following them, Q3 (orange orange) - the third group in terms of SJR, Q4 (red) - journals with the lowest scores.

• 0.28 SCImago Journal Rank (SJR) 2018

  SCImago Journal Rank (SJR) is a measure of a journal's scientific impact that takes into account the number of citations a journal receives and the rating of citing journals.

• 16 h-index 2018

SCOPE

Nanotechnologies in Russia focuses on publication of the interdisciplinary articles devoted to basic issues of the structure and properties of nanoscale objects and nanomaterials, technologies of their production and processing as well as practical implementation of the devices and facilities on their basis. The journal publishes original articles meeting the highest scientific criteria that cover research in the following areas of science and technology: self-organizing structures and nanoassemblages, nanostructures including nanotubes, functional nanomaterials, structural nanomaterials, devices and facilities on the basis of nanomaterials and nanotechnologies, metrology, standardization, and testing in nanotechnologies, nanophotonics, nanobiology. The journal welcomes manuscripts from all countries in the English or Russian language.

The audience

Scientists of the Russian and international community working in the field of nanotechnology and synthesis of nanomaterials.

Indexing and referencing

SCOPUS, Chemical Abstracts Service (CAS), Google Scholar, CNKI, EBSCO Discovery Service, EI Compendex, Emerging Sources Citation Index, Expanded Academic, Gale, Gale Academic OneFile, INIS Atomindex, OCLC WorldCat Discovery Service, ProQuest Materials Science & Engineering Database, ProQuest SciTech Premium Collection, ProQuest Technology Collection, ProQuest-ExLibris Primo, ProQuest-ExLibris Summon.

Fullerenes are included in a wide class of carbon nanostructures and their derivatives: fullerenes themselves, nanotubes, hyperfullerenes (fullerene-in-fullerene), multilayer structures, endo- and exofullerenes, fullerides, etc. All of them have a common property - a non-planar, up to a closed, surface, composed of five- and six-membered carbon rings. This allows us to consider fullerenes as polyhedra having only five- and hexagonal faces (pentagons and hexagons), converging three at each vertex (atom), although some researchers allow four- and seven-membered rings. In work D.G. Stepenschikova Giant fullerenes are considered - single-layer molecules with a closed surface, composed of a large number of hundreds and thousands of carbon atoms. Their peculiarity lies in the flattening of the hexagonal sections of the carbon network to a graphene-like state with the formation of polyhedra (2-...12-vertices). This article considers the dependence of the shape and symmetry of giant fullerenes on the grouping of pentagonal carbon rings on their surface.

In the article D.S. Ionova and other method inkjet printing samples of sensor layers containing a mixture of spherical silica gel microparticles and spherical macromolecular silica azole nanoparticles were obtained. The average diameter of microparticles was 5 microns, nanoparticles with a diameter of about 100 nm contained a covalently grafted fluorophore, dibenzoylmethane boron difluoride, DBMBF 2, on the surface. It is shown that the microstructure of the layers significantly affects the availability of the fluorophore indicator for gas-phase analyte molecules from the class of methylbenzenes. It has been demonstrated that the sensitivity of the sensor layers reaches 500 ppb with a response time of about 100 s.

The Russian Federation is rich in various natural mineral resources. One of the unique non-metallic minerals is sapropel - an organo-mineral complex obtained from centuries-old bottom sediments of freshwater reservoirs. The mineral contains a large number of low molecular weight organic compounds, vitamins, carotenoids, enzymes and a wide range of macro- and microelements. In work IN. Yezhkov et al., a nanostructured sapropel with a particle size of 45.0-180.0 nm was produced by ultrasonic treatment of sapropel. The aim of the work was to study the state of the organs of the gastrointestinal tract of animals in direct contact with different doses of nanostructured sapropel - from a predicted toxic dose to a dose that does not cause the manifestation of clinical symptoms of intoxication.

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The archive for 2006-2010 is now in the public domain.

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Name: Magazine - Russian nanotechnologies - 2007 - № 3-4.

Against the backdrop of the numerous problems of Russian science, the tendency to concentrate the topics of many studies of Russian scientists on the field of nanotechnology in the broadest sense of the meaning of this word is becoming increasingly clear. Already today, the topics of most scientific and technical symposiums and conferences are fully or partially related to nanotechnologies. However, a more detailed acquaintance with these studies shows. that often ongoing studies simply change the name, while maintaining the same content. It seems that in the near future all or most publications in the field of physics, chemistry, biology, materials science, device development will have "nano" in the title of the article. The reasons for otherwise are understandable and are related to the attention shown by the state and society to this problem, and, accordingly, with the concentration of significant resources in this field today by the state. community and state and, accordingly, funding requires a detailed analysis, and should not simply be limited to the belonging of research and development to the field of nanotechnology. Such a choice can only be made after a broad discussion of the studies. In this regard, the Editorial Board decided to start on the pages of the journal and the journal's website a discussion of the topics of research conducted in Russia on nanotechnology in order to determine those segments in which Russian studies and developments can be competitive in the world market. As part of this discussion, we intend to publish thematic reviews of the achievements of Russian scientists in various sectors of nanotechnology.

After the publication of such a review, it is planned to conduct a discussion in subsequent issues around the position and conclusions made by the authors, publishing various expert opinions in the journal and on the website, developing a more complete picture of the issues raised and forming priority areas for research and development in this segment.
The current issue of the journal publishes a review by A.V. Vulya and V.I. Sokolov "Studies of nanocarbon in Russia from fullerenes to nanotubes and nanodiamonds". The same section publishes the opinion of a number of experts on the prospects of this area.
The issue of the journal also publishes the forecast of the American corporation RAND on the development of the entire field of nanotechnologies by 2020, believing that the opinion of foreign experts will be useful when discussing future directions for the development of nanotechnologies in Russia.

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Like many of my fellow citizens, the first association that arises with the phrase "Russian nanotechnologies" was the word "cut". Unfortunately, due to the "efforts" of some Russian officials, this stamp has firmly settled in the minds, and in order to weather it, you need to make a lot of efforts, proving the opposite in practice. A couple of days ago, along with other leaders from the IT world, I was invited to look at the Ulyanovsk Nanocenter. To be honest, I didn't even know it existed. No, well, I heard something out of the corner of my ear and considered it an ordinary props for distinguished guests of the city. How wrong I was...

Nanocenter

The Ulyanovsk Nanocenter is located in the "deep" industrial zone of the city, in an open field, next to new giants like "Efes", "Bridgestone" and "DMG MORI", which have built their ultra-modern production facilities there. Who would have thought what cool things the young guys are doing behind the walls of this two-story building, which was built in a fairly short time a couple of years ago.

The CEO of the Nanocenter is Andrey Redkin, my old friend from the time of the Ulyanovsk IT directors club, an IT specialist to the tip of his hair and a very progressive, energetic person.

The Ulyanovsk nanocenter was created under the RUSNANO program. It is part of a network of 12 nanotechnology centers that covers 8 regions of Russia; more than 350 startups are being implemented within their walls. In total, it is planned to invest a little more than 2 billion rubles of private and state investments in our nanocenter.

In fact, the nanocenter is something between a venture fund and a business incubator. Its main task is to support technological entrepreneurship in the early stages: the search for breakthrough technologies, the creation of start-ups that will introduce a new product to the market, expertise and consulting, and the provision of specialized technological and analytical equipment for rent. Already, 12 companies are successfully developing within its walls, some have already passed the initial stage of a startup and have begun to make a profit. 150 people are working on 90 projects in the nanocenter.

In simple words: if you have an idea for a high-tech business, but do not have the funds to implement it, then you are welcome here - the nanocenter will act as your investor and provide a platform for development. The main requirement is nanotechnology and material based, that is, the nanocenter is not interested in purely IT technologies. The share of participation of the nanocenter in the business created jointly with the entrepreneur is 25-49%, i.е. control remains with the founder. The doors of the nanocenter are also open to scientists and inventors with scientific ideas, discoveries and innovations, where they will be helped to assess the commercial potential of the invention.

Company offices occupy both floors of the building. Rents, however, quite high - 830 r / sq.m. There is a cozy cafe, a patio with a lawn, a large parking lot.

By the way, the large conference hall of the Nanocenter can be used for IT-related events absolutely free of charge.

Bright rooms with windows to the floor.

Nanoconcrete and warm nanowallpaper

When decorating the interior, finishing nanomaterials were used, which are being developed by one of the residents of the Nanocenter - the company "Stroylab". Her water-dispersion All walls are covered with paint. Its peculiarity is a 40% reduced consumption (degree of covering power), high adhesion, durability and resistance to wet processing. The paint does not contain solvents and is free from bacteria and viruses due to ultrasonic treatment. It is already on sale and has been used to finish some new houses that the West company is building in Ulyanovsk.

The guys are also working on electrically conductive coatings, which are used to make warm walls and floors. By the way, this technology was originally developed by a Russian scientist, and then "left" to Korea, which became its main holder. Because of this, it is quite difficult for our guys to break through to Russian market.

These warm wallpapers run on 24 volts, unlike the common 220 volts. Consume 350 W of electricity per 1 sq. meters, which seems like a lot. But this is only for the initial heating, which occurs very quickly.

Even in Stroylab, they are developing super-strong concretes, elastic thermal plaster and other building nanomaterials.

Durable Composites

AT Artek composites make products from composite materials based on PCM (polymers) - pallets for the Federal Reserve, hockey sticks, road barriers, noise barriers, UAZ Patriot radiator grilles, folding bicycles. Such an airplane consists of several layers of special material. It bends but doesn't break.

Gadgets

About the guys from the company "RuGadget" I already wrote - they were the organizers of "Hardathon" -. "RuGadget" specializes in the development of microelectronic devices. The project team is young guys, graduates of Ulyanovsk universities.

They make cool things with a wide range of uses.

For example, they are designing such a smart solar-powered bench, sitting on which you can recharge your phone, use wi-fi.

From the already working prototypes, the guys showed an electronic anti-theft device for bicycles.

Using the accelerometer sensor, it informs the owner that they are trying to steal his bike, shows on the map where and at what speed he is moving.

They also plan to develop flexible thermometers without a power source, which are glued to the body and remotely transmit readings.

Bulletproof vests and foam metals

AT "Metal-composite" not allowed to photograph exhibition samples of products - customers are very serious. This company develops metal-matrix composites based on non-ferrous alloys. Among the company's developments are substrates for microwave and semiconductor technology, elements of containers for the transportation and storage of nuclear materials and waste, armor protection materials. The range of materials of the company - from simple non-ferrous alloys to filled with fibers and particles of Al2O3, B4C, SiC, complex alloys. The range of applications is very wide - auto parts, parts of helicopters and aircraft, rocket science, Construction Materials, nuclear industry, power electronics and engine building. One of the most interesting developments is a material whose thermal conductivity is several tens of times greater than copper and aluminum. It is based on thin films with graphene.

Glasses nnnnada?

In a technology company Comberry" engaged in multifunctional oncological coatings. For example, they make such anti-fog glasses with heated glass - the dream of all bespectacled people.

A thin conductive film is sprayed onto the glass, which heats the glass to a predetermined temperature. The application of this is quite wide - not only in glasses.

Comberry has its own thin-film coating research platform for various materials, which has no analogues either in Russia or in Europe.

"Comberry" is one of the most complex projects in the network of nanocenters, founded by the nanocenters of Ulyanovsk, Dubna and Saransk. Only the manufacturer (USA) and the Ulyanovsk Nanocenter have such equipment. Based on it, "Comberry" has created a platform that will allow hundreds of experiments to be carried out simultaneously.

One of the priorities of "Comberry" is the creation of electrochemical glasses - changing transparency when voltage is applied. Yes, yes, these are the same self-darkening glass of buildings, office partitions and car sunroofs.

Boy or girl?

The most interesting company of the nanocenter for me was Genext Laboratory and TestGen. Probably because I do not understand anything in biotechnology and molecular genetics, and it seems to me that this is something prohibitively complicated. But damn it, the world will not be the same when you see how, with the help of an ordinary magnet, you can extract his DNA from the patient's biomaterial!

Directions of GeNext developments - non-invasive diagnostics in obstetrics and oncology, diagnostics of mutations and polymorphisms, identification of a person, determination of the degree of relationship. One of the commercial, patented and sought-after products is kits for determining the sex, Rh factor of the child by the blood of a pregnant woman. They allow you to take blood from a woman at the 10th week of pregnancy and, by the DNA of the child that is contained there, determine the sex of the child or Rhesus.

The main consumer of the kits is the laboratories of private clinics. This is not yet sold in a pharmacy, since additional laboratory equipment is required for use.

The "TestGen" team - young guys from different cities - PhDs, with extensive experience in practical and scientific work.

Very interesting is the technology by which DNA molecules are isolated for research in the laboratory. It is based on the property of ordinary glass to absorb DNA on its surface. To collect as many molecules as possible, a fairly large surface area is required, for which in Russia such a device was invented and patented, consisting of several hundred hollow glass nanotubes:

A lot of money was invested in its development, but as always, in vain - in practice it turned out to be ineffective. It turned out that the most effective surface on which you can collect the maximum number of DNA molecules is a ball. The guys, in collaboration with a Russian scientist, have developed special spherical glass nanoparticles with an iron core inside, which are added to the patient's biological fluid (blood or urine), DNA sticks to them, and then the particles are attracted to one of the walls of the test tube by an ordinary strong magnet. After that, the remaining liquid is removed with a pipette and special composition washes away DNA from the particles, preparing them for further research.

The laboratory cooperates with several Russian clinics that send samples for research and technology testing. For example, the technology for early diagnosis of prostate cancer, which was also developed at GeNext, is currently being tested.

And for dessert, I’ll tell you where the technologies of this nanocenter are already being applied in Ulyanovsk:

• The system of external reinforcement of the office building on Surova.


• LED lighting of the Nanocenter.


• Induction lighting of a section of the road of the Presidential Bridge.


• Nano-paints in the residential building of the Silen company, the Alfacom management company and the Nanocenter.


• Silicon water repellent - treatment of paving stones from ice (Committee of road facilities in Ulyanovsk).


• Seamless roofing of a residential building on Dovator St., Oktyabrskaya St. and agreements for a residential building in the South-West microdistrict.


• Composite lighting poles in the village of Stolbishche.

Surprised?

Academician ALFIMOV MIKHAIL VLADIMIROVICH, Chief Editor

EDITOR'S COLUMN

M.V. Alfimov

"Bio" and "nano": points of contact

SCIENTIFIC AND TECHNICAL POLICY

S.V. Kozyrev, P.P. Yakutseny

Nanobiotechnologies - a panorama of directions

V.M. talker

“The main component of nanobiotechnologies is medical”

Nanobiotechnologies abroad: the view of experts

Nanobiotechnologies in Russia

A.V. Kolesnichenko, M.A. Timofeev, M.V. Protopopov

Toxicity of nanomaterials - 15 years of research

ABOUT THE JOURNAL

• "Russian Nanotechnologies", magazine federal agency on Science and Innovations of the Russian Federation, its main goal is to publish articles of an interdisciplinary nature on fundamental issues of studying the structure and properties of nanosized objects and nanomaterials, as well as works that consider technologies for their production and processing, practical implementation products and devices based on them.

The journal publishes original articles, including those of an interdisciplinary nature, that meet the criteria of the highest scientific quality in the following areas of scientific and technological research:

• self-organizing structures and nanoassemblies (responsible editor S.P. Gromov);
• nanostructures, including nanotubes (responsible editor I.P. Suzdalev);
• functional nanomaterials (responsible editor A.N. Ozerin);
• nanomaterials for structural purposes (responsible editor M.I. Alymov);
• devices and products based on nanomaterials and nanotechnologies (responsible editor S.P. Timoshenkov);
• metrology, standardization and control of nanotechnologies (responsible editor R. M. Kadushnikov);
• nanoelectronics;
• nanophotonics (responsible editor A.M. Zheltikov);
• nanobiology (responsible editor V.M. Govorun).

The main types of publications in the journal "Russian Nanotechnologies" :

• an overview of up to 50,000 characters (22–25 printed pages),
• original article up to 30,000 characters (13–15 printed pages),
• original message up to 15,000 characters (7–8 printed pages).

Magazine "Russian Nanotechnologies" published on English language entitled «Nanotechnologies in Russia» .

Publication of articles in domestic and foreign journals excludes the publication of the same materials in the journal "Russian Nanotechnologies". The journal, as a rule, does not publish details of phenomena and patterns that are well known and described in the literature. The editorial board reserves the right not to publish articles due to the limited volume of the journal.

Nanotechnologies in Russia

(Rossiiskie Nanotekhnologii)

• ISSN PRINT: 1995–0780
• ISSN ONLINE: 1995–0799

EDITOR-IN-CHIEF: Mikhail V. Alfimov

Academician of the RAS, Director, Photochemistry Center of the Russian Academy of Sciences, Moscow, Russia

Nanotechnologies in Russia (Rossiiskie Nanotekhnologii) focuses on publication of the interdisciplinary articles devoted to basic issues of the structure and properties of nanoscale objects and nanomaterials, technologies of their production and processing as well as practical implementation of the devices and facilities on their basis.

The journal publishes original articles meeting the highest scientific criteria that cover research in the following areas of science and technology: self-organizing structures and nanoassemblages, nanostructures including nanotubes, functional nanomaterials, structural nanomaterials, devices and facilities on the basis of nanomaterials and nanotechnologies, metrology, standardization, and testing in nanotechnologies, nanophotonics, nanobiology.