rusnano: fostering nanotechnology innovation in russia · 2015-10-12 · russia’sfirst...

RUSNANO:

Fostering Nanotechnology Innovation in Russia

Boston, USA

April 2010

Anatoly Chubais,

Chief Executive Officer

RUSNANO: Brief overview

Mission: to provide the state policy in the field of nanotechnologies

Tasks:

•commercialization of nanotech industry projects and innovations

•production volume of Russian nano-enabled products by 2015 –

€ 20 bln per year

Areas of financing:

•fabrication of nano-enabled products

•scientific forecasting and road maps, standardization, certification,

safety in nanotech industry

•education, popularization

Founded in 2007

RUSNANO: profile

RUSNANO: profile

Ownership participation — no more than 50% minus 1 share

Loan term — up to 10 years

Financing projects at early stage and stage of expansion

RUSNANO’s key services in financing

RUSNANO: profile

Support for co-investors

Financial support

Basic condition – location in Russia

Corporate: RUSNANO’s minority share in all projects

Credit:Long-term andcomparatively cheap money.

Guarantee for loans

Friendly exit strategy:Not to maximize returns but to offset the costs

Non-financial support

Infrastructural: Technical and investment expertise, certification, foresight and road maps

Managerial:Assistance in marketing,investment spending supervision in the interests of all shareholders

Administrative:Shielding from the red tape and corruption

Investment Project Selection MechanismRUSNANO: investment projects

Entry expertise

Internal technical

and scientific

expertise

Internal investment

expertise

< 1% <Supervisory Council

BoD

financing decision

Technical

and scientific Board

Investment policy

committee

Application

1.04.2008 – 2.04.2010, total applications: 1561

Rejected: 820

still to be reviewed:

392

undergoing appraisal

procedures: 277

RUSNANO book value of assets, %

Projects approved / launched: 72

Investment Projects: Summary

In Q3 2009, RUSNANO achieved the planned ―project capacity‖ –

a minimum of 15 projects per quarter. It makes our strategic task possible:

to ensure production volume of Russian nanoindustry by 2015 –

€20 billion per 1 year

• Approved by the Supervisory Council: 64 projects

•Total investment volume: ~ €5.1 billion

(incl. RUSNANO’s share: ~ €2.4 billion)

• Consolidated revenue - 2015 (planned): ~ €3.5 billion

Total

investments

Consolidated

revenue - 2015

(plan)

RUSNANO: investment projects

€ billion

~ 3.5

~ 5.1

(incl. 2.4)

Projects’ clustersSolar energy and energy conservation Nanostructured materials

Medicine and Biotechnology Mechanical engineering and metalwork

Infrastructure and EducationOptoelectronics and nanoelectronics

RUSNANO financed projects:2008-2015 Investment Structure and Amount

0.010.6

1.6

2.5

3.3

3.9

4.4

4.9 (75%)

0.13

0.25

0.33

0.37

0.42

0.46

0.5 (8%)

0.05

0.08

0.11

0.15

0.18

0.2 (3%)

0,2

0.5

0.6

0.9

0.90.9 (14%)

2008 2009 2010 2011 2012 2013 2014 2015

Production Projects

Infrastructure Projects

Educational Projects

Investment into Nanotechnology funds

€ billion

(cumulative sum)

Russian market: evaluations and forecasts

Total: ~ € 6.5 billion

*

*%%

of total

Dynamics of the Russian Nanoindustry Market:Forecast

2009 2010 2011 2012 2013 2014 2015

0.9

14.4

20

9.3

3.5

0.005 0.2 0.7

7

5.7

3.4

1.4

€ billion

Sales of Russian nanoindustry products

Including revenue of project companies

set up with participation of RUSNANO

Russian market: evaluations and forecasts

RUSNANO welcomes opportunities to collaborate

with foreign companies,

governmental organizations, investment funds

We guarantee: Financial and non-financial support for co-investors

You can:

•Apply for financing of your project at

www.rusnano.com

•Invest in joint project together with RUSNANO

•Further develop your technology with RUSNANO help

•Get inspired with new ideas at annual Moscow

Nanotechnology International Forum

(www.rusnanoforum.ru)

Basic condition – location in Russia

http://www.rusnano.com/

http://www.rusnanoforum.ru/

Appendixes:

Projects by clasters

Projects’ clustersSolar energy and energy conservation Nanostructured materials

Medicine and Biotechnology Mechanical engineering and metalwork

Infrastructure and EducationOptoelectronics and nanoelectronics

Energy Efficient Solid State Lighting

Technology

Optogan was founded in 2004 by three graduates of the chair of Nobel Prize winning

prof. Alferov and has since developed a cutting edge technology for ultra-bright LEDs

and a solid IP base. Optogan LEDs are going to be used in backlighting for mobile

appliances, computer screens and LCD TVs, as well as general lighting applications.

Market opportunityProject budget

Total budget

$110 mlnRUSNANO investment

$ 55 mln

Income 2015 (forecast)

$184 mlnExport 2015 (forecast)

$120 mln

Solar energy

and energy

conservation

Solar energy

and energy

conservation HEVEL

Technology

The largest manufacturer of solar modules in Russia will produce thin film

photovoltaic cells based on micromorph silicon, ultrathin layers of

amorphous silicon with submersed nanocrystallites of 10 nanometers to 30

nanometers.

Design capacity for the manufacturing facility is more than one million solar

modules per year (130 MW per year).

The project, in addition to undertaking production, will establish a large

research center with equipment worth approximately one billion rubles. The

research center will collaborate with the Ioffe Physical Technical Institute of

the Russian Academy of Sciences.


Total budget


$370 mln



$283 mln

ФОТО,

ГРАФИКИ,

ИЗОБРАЖЕНИЯ

Large-scale production of Polysilicon and

Monosilane

Technology

Russia’s first large-scale Polysilicon and Monosilane production complex is

getting underway by Nitol Solar in the Irkutsk Region, Russia.

Polysilicon and Monosilane are essential materials for a number of

industries, most importantly microelectronics and solar energy.

The first samples of Polysilicon were obtained in 2008. The product is

commercialized on international market. Full-scale production of Polysilicon

with output of 3,800 MT p/a is planed by the end of 2010.

Monosilane production will be initiated in stages and gradually

reach design capacity of 200 MT p/a.


Total budget


$250 mln

ЛОГО

ПРОЕКТА

Income 2015

(forecast)Commercial information

Export 2015

(forecast)

Commercial information

Solar energy

and energy

conservation

Thunder Sky Russian Plant of Li-ion batteries

Technology

Technology: Integration of nanotechnology,

electrochemistry, materials science, metallurgy and

electronics into high-end product.

Project: Set up manufacturing facilities of novel

lithium Ion batteries to EV in Russia (Novosibirsk).

Product: Batteries to EV based on novel

nanostructured LiFePO4 materials.


Total budget

$450 mln.RUSNANO investment

$250 mln.

Revenue 2015 (f)

$430 mln.EBITDA 2015 (f)

$150 mln.

Solar energy

and energy

conservation

Scaling up bifacial mono-Si solar modules

production

Technology


Total budget


$86 mln



$362 mln

The project will found Russia’s first commercial production of bifacial solar modules.

The project is based on proprietary solar cell production technology.

High-efficiency bifacial Solar Modules are able to generate power from both sides

simultaneously. The sunlight that has passed through the solar panel, along with the

light reflected off surrounding surfaces (may be both from original ground or special

construction), is captured by the back side of the panel, increasing the amount of

energy produced and allows to cut the clients costs up to 30% compared to one-side

mono-Si modules.

The production cost will be competitive with one-sided analogues. Production is to

begin in 2012 and reach design capacity of 120 MW per year in 2015. The project

diversifies the solar energy portfolio of RUSNANO and ensures entry into the market

with a competitive product.

Solar energy

and energy

conservation

Nanostructured

materialsNew generation flexible packaging

Technology

The project involves setting up the production

of high-barrier flexible packaging with the use

of nanotechnologies:

- extrusion of the polyethylene film with

a nanocomposite layer imbedded into it;

- coating different films with an aluminum or silicon

oxide layer of 20 nm to 40 nm.


Total budget

$83,5 mlnRUSNANO investment

$41 mln



$7,2 mln

CJSC "Prepreg-ACM"

Technology

• Large-scale manufacturing of semi-products for new

generation polymer matrix composites – high quality prepregs

with improved, as compared with analogues, strength and other

performance characteristics with carbon and mineral fibers and

nanomodified and filled with nanoparticles polyimide and epoxy

resins.

• Application areas: aircraft industry, wind power industry,

sporting goods manufacturing, construction, motorcar- and

shipbuilding.

Project budget

Total budget

$ 115 mln

RUSNANO investment

$ 108 mln

Market opportunity


$ 1 021 mln

Nanostructured

materials

Nanostructured

materialsInnovative heat insulating materials

Technology

This project will expand production of new heat insulating materials made

of recyclable glass waste.

The new technology mixes finely crushed glass with specially prepared

liquid agents that modify the surface of the glass granules by forming

films of 100nm thick. During the subsequent thermal processing the

foamed glass results without using foaming agents.

The new materials are structurally stable and wear resistant, serving

longer than 50 years and bearing temperatures from -250°С to +650°С.

They do not burn and are chemically inert because they are made only of

glass.


Total budget


$44,5 mln


$86 mln

Nanoclay polymer composites

Technology

THE TECHNOLOGY: Polymer nanocomposites with organically modified and exfoliated montmorillonite nanoparticles uniformly distributed in the polymer matrix.

THE PROJECT: Powerful up-to-date production of nanomaterials in Russia based on bulk polymers and their co-polymers

THE PRODUCT AND APPLICATION: 1)Refined and modified natural bentonite clayOil and gas industry (drilling muds and oil refining)Food industry (adsorbents for impurities in fat-and-oil, winemaking and other industries)Cosmetic and pharmacological industry2)Polymeric nanoclay-based nanocompositePackaging industry (high-barrier films and PET preforms)Automotive industry (plastics)Protection of trunk pipelinesAircraft industryCable industry (nonflammable cable compositions)


Total budget


$20,7 mln


$151,1 mln

ЗАО «МЕТАКЛЭЙ»

Micrograph of Polymeric nanoclay-basednanocomposite

Potential Application

Nanostructured

materials

Nanostructured

materials Asphalt modifier UNIREM

Technology

UNIREM is developed to modify asphalt mixes by ―dry‖ method.UNIREM application does not require changes in the technologyprocess of asphalt plants or temperature and timing modes of asphaltmixture production

Asphalt pavements with UNIREM have improved durability, highresistance to rutting and cracking, high water resistance, hightoughness at subzero temperatures

UNIREM increase durability of asphalt pavements by 25-30%


Total budget


$43 mln

ЛОГО

ПРОЕКТА


$175 mln

0

5 000

10 000

15 000

20 000

25 000

30 000

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при температуре -

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Без модификатора "Унирем" С модификатором "Унирем"

Cyc

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befo

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+ 20ºC - 16ºC

Standard asphalt mix Asphalt mix with «Unirem»

0

5 000

10 000

15 000

20 000

25 000

30 000


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5 000

10 000

15 000

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+ 20ºC - 16ºC

Standard asphalt mix Asphalt mix with «Unirem»

Improved fatigue durability

Nanostructured

materialsNanostructured membranes and modules

for water treatment

Technology

The membrane technology has broad applicability in all sectors of industry that

call for water conditioning and sewage treatment, particularly in electric energy

generation, microelectronics, pharmaceuticals, and foodstuffs. It reduces

expenditures to obtain water that is ultra clean, salt free, and safe from

microbiological contaminants.

Creation in the Russian Federation of a modern high-tech and high performance

industrial production of nanostructured porous polymer materials (membranes)

and filter modules on their basis for processes of liquid media separation in

various fields of industry and social sphere.

Spiral wound type membrane filtering modules based on nanostructured ultra-,

nanofiltration and reverse osmosis membranes of various types.

Market opportunity

Total budget


$27 mln



$12 mln

Micrograph of cross section and surface of the separating layer

of polymer phase inversion membranes

Spiral wound membrane elements

Project budget

Nanostructured microspheric isoparaffin's

dehydrogenation catalyst and adsorbent for

dehydration olefin-containing streamsTechnology

Catalyst is micro balloons with granule size 40-200 microns in the form of aggregates of lamellar crystals, the size of 10-20

microns. Hydrothermal synthesis of boehmite support is a directional crystallization in hydrothermal conditions, small

particles -Al2O3 in the bulk grains in polycrystalline microspheric nanoblocks boehmite with a given size (60-130 nm). It

allows to adjust the structure of the support and the catalyst performance based on it (conversion of isoparaffins not lower -

50%, selectivity of iso olefin’s formation, no less 90%). Smoothed topography of granules and low abrasiveness are provided

by boehmite aggregates of crystals size > 10 microns. The strength of granules increases with the number of contacts

between the crystallization nanoblocks of boehmite, which reduces the consumption of catalyst to 6-8 kg per ton of olefin.

Gibbsite Boehmite + -Al2O3 Boehmite

Total budget


$6,17 mln


$22 mln

Project budget Market opportunity

Nanostructured

materials

Nanostructured magnesium hydroxide as

fireproof additive

Technology

Nanostructured magnesium hydroxide production technology was developed by

Nikochem Company and realized both in laboratory and pilot scales.

The Project will start in the first quarter of 2010. Start-up of the pilot plant and

the entire complex ramp-up are planned to be at third quarter of 2011 and 2013

accordingly.

Responses given by the customers allow us to ascertain doubtless advantages

of nanostructured magnesium hydroxide comparing to imported analogues

available.


Total budget


$43 mln


$69,1 mlnExport 2015 (forecast)

$43,8 mln

Nanostructured

materials

Medicine and

biotechnology Radioactive medical devices and

pharmaceuticals using nanotechnology for cancer

brachytherapy and controlled drug delivery

Technology

The project will establish production in Russia of new, effective materials

for treating prostate, liver, and pancreatic cancer—radioactive

microsources and nanostructured microspheres.

These tools, called seeds, are used in brachytherapy, a method of

treating cancer using a radioactive source that is introduced into the

diseased organ and that acts directly on the cancer.

The new technology provides for modification of the surface of the

microspheres at the nanoscale level (30 nm to 50 nm). As a result, the

microspheres become biocompatible, which improves their fixation in the

patient’s tissues.


Total budget

$ 34 mlnRUSNANO investment

$ 27 mln


$ 31 mln

Medicine and

biotechnology Nanovaccines and biopharmaceuticals

Technology

NTPHARMA is a company founded to develop

nanotechnology-based flu vaccines and immune

activators. The vaccine technology employs non-

replicating genetically modified viruses carrying

genes for target proteins to activate the immune

system. The vaccines are expected to have better

safety and reduced time to market compared to the

traditional vaccines.


Total budget


$43 mln


$ 66 mln

Medicine and

biotechnology Blood coagulation testing instruments

Technology

The project develops new diagnostic test for blood clotting

disorders that detects both hypo- and hyper-coagulation of

blood. Method is based on a special nanocoating (30-50

nanometers), that imitates a damaged vessel wall. This

nanocoating activates clotting of blood sample in a natural

manner in the cuvet, while image of growing clot is

registered with a CCD camera. Highly accurate diagnoses,

easy-to-use units, and moderate price will make the new

product extremely attractive for the market.


Total budget


$19,1 mln



$3,25 mln

ФОТО,

ГРАФИКИ,

ИЗОБРАЖЕНИЯ

Medicine and

biotechnology

Technology

The project is based on a new technology providing precise

targeting of pharmaceuticals into mitochondria – intracellular

―power-stations‖. Since 2004 the project applicants developed

several pharmaceuticals based on new

mitochondrially−targeted antioxidants. Wide range of

preclinical studies showed high efficacy of developed drugs in

treatment of age-related eye-diseases, cardio-vascular

pathologies etc. In 2009 first project’s drug-candidate entered

clinical trials. The project is based in Moscow State University.


Total budget


$23,6 mln

ЛОГО

ПРОЕКТА



$260 mln

Skulachev ions – mitochondrially targeted pharmaceuticals

Medicine and

biotechnology Tri-leaflet heart valve tricardics

Technology

О ТЕХНОЛОГИИ

О ПРОЕКТЕ

О ПРОДУКТЕ


Total budget

$49,7mlnRUSNANO investment

$31 mln


$40,8 mlnExport 2015 (forecast)

$34,2 mln

The project will expand already existing bicuspid heart

valve production in Moscow and establish small-batch

production of innovative tricuspid heart valves. The

tricuspid heart valve has characteristics that closely

resemble natural valves, particularly its ability to provide

low resistance to blood flow and its low level of

thrombogenicity.

Nanofabrication of aspherical optics

Technology


Total budget

$22.3 mlnRUSNANO investment

$13.4 mln


$66.9 mlnExport 2015 (forecast)

$34.1 mln

We suggest to devise a method of direct mechanic shaping of the surface form needed

though the instrumentality of diamond turning followed by final polishing, by using patented

nanopositioners and direct drive systems as super accurate drives:

•The coarse positioning of the working tool with a precision of 1 mm will be done by direct

drive manipulators.

•An exact 2D- and 3D-positioning of the working tool with a resolution up to 0,01 nm and a

torque up to 106 N we be carried out by using the precise nanopositioner.

•Grinding and polishing as well as testing of the resulting form will be accomplished by using

an original system for a final processing.

Mechanical

engineering and

metalwork

Technology

Metal cutting instruments with

nanostructured coating

Construction of a new production facility is underway in Rybinsk, Yaroslavl

Region. The factory will manufacture tools to process aircraft motor parts

and metal in machine building plants. The Kurchatov Institute developed the

project’s technology— deposition of nanostructured coatings on the

instruments—as part of a federal target program. Nanolayered and

nanostructured coatings with complex configurations consisting of nitrides,

carbides from elements of the IV-VI groups, oxides, and borides, diamond-

like films, and wear-resistant and anti-friction coatings will be applied using

the plasma-arc method.


Total budget


$17 mln



$5 mln

Mechanical

engineering and

metalwork

Planned product ranges

Tribotechnical parts and wear parts (slide bearings, rolling bearings, face ring

seals, nozzles, draw plates, dies) ;

Cutting tools (indexable faceted cutting inserts, rotary cutting tools);

Pyrolytic boron nitride (PBN) products for electronics and special engineering.

Technology


Total budget


$16 mln



$34 mln

1. Controlling final grain size in ceramic or cermet part by using special nanosized

powder processing technologies and consolidation methods

2. Introduction of barrier nano-layer between fibre reinforcement and ceramic

matrix in nanostructured ceramic-matrix fibre composites

3. Controlling the pyrolytic boron nitride properties at nano-layer formation level

Mechanical

engineering and

metalwork

Industrial-scale production of products

based on nanostructured ceramics and

cermets

Mass production of the super-reliable springs

using the technologies of the controlled

formation of the homogeneous nano-

substructures in the material

Technology

The final goal of the Project is setting up the technology of the multifunctional

springs mass production. The technology is based on the high-temperature and

mechanical treatment, with the result of the nanosubstructures formation in the

spring material, which leads to the fundamental increase of the springs

performance characteristics, i.e. the number of cycles till the breakage is 10-fold

increased, the springs relaxation resistance – at least 5 fold, and the level of the

tolerable stress should be 2-times increased at least.

Our technology might be applied for any springs of hot winding and is a product

itself.

It is planned to set up the automatically adjusted production line of the hot-wound

springs, for which the basically new technological modules are planned to be used.


Total budget


$28 mln



$30 mln

Mechanical

engineering and

metalwork

Technology

Development of technologies for the deposition of multifunctional nanostructured coatings to

extend the resource of equipment and renovation of Russia's machinery, oil&gas and other

industries.

Production:

Nano-structured coating application services (heat-proofing, heat-resistant, wear-

resistant, corrosion-protective, electroinsulating, superconducting composition);

End solution for nano-structured coating application (supply, adjustment and service of

equipment, adaptation of nano-structured coating application technology and licence selling,

development of nano-coating material, e.t.c.)


Total budget

$130 mln

RUSNANO

investment

$40 mln


$229 mln

Export 2015 (forecast)

$12,6 mln

Technological systems for protective coatingsMechanical

engineering and

metalwork

Microbor nanotech –

CBN and NCBN cutting tools

Technology

Microbor Nanotech is a new generation manufacturerof composite materials based on micro- and nano –crystalline Cubic Boron Nitride (CBN and NCBN) andcutting tools made of these materials. Microbor firstin the world created a serial instrument of a materialbased on nano CBN.




$32 mln

Total budget

32 mln $RUSNANO investment

21 mln $

Mechanical

engineering and

metalwork

Equipment for synthesis of

nanoceramic layers on the surface of

aluminum, magnesium and other valve

group metals

Technology

Development of technology and production of new

ecologically friendly equipment for nanoceramic composites

synthesis and treatment of valve metals for superior surface

characteristics. Construction Bureau “ISKRA” and MATI

State University, a world leading scientific school in this field,

collaborate in this project.


Revenue 2015 (forecast)


$ 38 mln

Total budget


$ 7 mln

Mechanical

engineering and

metalwork

Optoelectronics

and

Nanoelectronics

Ultrapure quartz concentrates and powders

for nanoelectronics, optics, and chemistry

Technology

Ultrapure quartz concentrate is used as raw material for

production of quartz crucibles in which electronic and solar

grade monocrystalline silicon crystals are grown.

Technology was developed in partnership with leading foreign

and domestic laboratories specializing in issues of quartz

processing, particularly Dorfner Anzaplan GmbH (Germany),

having more than 100-year experience in quartz mining and

processing. The volume of highly processed quartz products is

expected to reach 10,200 tons in 2016


Total budget


$43 mln


$90.6 mlnExport 2016 (forecast)

$86.1 mln

The establishment of the design center and

mass production of IC based on the 90 nm

technology

Technology

Objective: Mass production of IC based on the 90 nm technology.

The final products of the project will be ICs for digital TV, GLONASS/GPS

navigation systems, industrial electronics, automotive, and ICs for biometric

passports and other personal documents, banking and social security cards, SIM-

cards and RFID tags.

The qualification of engineering equipment and the process qualification for the 90

nm node.

The technology for producing the 90-nanometer integrated circuits will be

transferred from ST Microelectronics.


Total budget


$180 mln


$332 mln

Optoelectronics

and

Nanoelectronics

Optical components for high-speed

data transmission

Technology

• New concept of VCSELs allows to produce low cost low

power consumption high-speed (up to 40 Gbit/s) optical

components.

• Project is aimed on production of chips and packaged

high-speed VCSELs and PDs in St.Petersburg .

• Products are intended for high-speed data transmission

in LAN, SAN, active optical cables, supercomputers,

USB 3.0, 4.0 interconnects as a substitution for copper

interconnects.


Total budget


$9 mln



$70 mln

VCSEL chip

PD module

Optoelectronics

and

Nanoelectronics

Technology

This project will create a joint venture that will produce radio frequency

identification tags, metalized packaging materials, and equipment for metalizing

packing material materials using the technology by Galileo Vacuum Systems

s.p.a.

CJSC ―Galileo Nanotech‖

RFID-tags are used as a substitute of bar-codes in stock recording

and identification in different systems.

Metal packaging materials (film and paper) for food and cigarettes

Equipment for metallization of roll materials


Total budget


$28 mln



$63 mln

Optoelectronics

and

Nanoelectronics

Manufacturing of multimedia DSPs and

consumer devices based on them

Technology

The project will provide a technological and production base

for microelectronic and electronic goods with greatly

improved technical-economic characteristics.

1st phase - production and sale of peripherals for digital

television and software products for studio digital broadcasts

using 90-nanometer technology.

2nd phase - production of encoders and decoders for video

signals and developing new microprocessors with 65-

nanometer technology.

3rd phase - commercial production of set-top boxes,

including those with the new processors.


Total budget


$11 mln



$166 mln

Optoelectronics

and

Nanoelectronics

Nanotechnology-based consumables for

copying and printing machines

Technology

•Project products include cartridges, toners, and OPC drums

based on nano-sized photoconductors, functional additives and

agents. The nanocomponents are Slavich’s proprietary technology.

•Special nanocomponents are incorporated during the

manufacturing process. They make OPC drums more resistant and

improve the sharpness of the print.

Printing cost is lower; print quality—better, and the price noticeably

lower than OEM counterparts.

•Today almost 100 percent of copying and printing consumables in

Russia are imported.

The project will form a base for developing electrophotographic

printing equipment in Russia.


Total budget

$ 24,5 mlnRUSNANO investment

$ 15 mln


$ 40 mlnExport 2015 (forecast)

$ 4 mln

Optoelectronics

and

Nanoelectronics

НАЗВАНИЕ

ПРОЕКТА

Technology

SUN Innovations, the only Russian company specializing in development and production of large-

format digital inkjet UV printers and UV ink. Over the last three years SUN has developed an

innovative digital UV-printing system which utilizes nano-sized pigments and additives in its nano-

ink and UV light-emitting diodes in its printers.

In addition to conventional printing of promotional products, printers utilizing SUN’s technology

enable printing on furniture, tile, glass, equipment, electronic devices, suspended ceilings, decorative

panels, and other materials.

The products of project company will render superior quality color reproduction and high light

resistance and will provide improved efficiency, lower TCO resulting in lower print costs, and longer

shelf life.


Total budget


$5,7 mln

ЛОГО

ПРОЕКТА



$76 mln

Optoelectronics

and

Nanoelectronics

Russian catalogue and warehouse of

high-purity chemical and biochemical reagents

Technology

The Project’s goal is to create the warehouse of

chemical and biochemical reagents, organize supply

logistics of chemicals within Russia and support Russian

scientists and high tech business.


Total budget

$ 3.5 mlnRUSNANO investment

$ 1.9 mln

Revenue 2015 (forecast)

$ 14.2 mln

Infrastructure

project

3D Packaging Nanotechnology Center with

Production of Electrochemical Nanomaterials

and 3D Electronic Devices

Technology

3D packaging technology enables stacking of

heterogeneous devices to fabricate complete IC

system in one package, decreasing its form factor

and power consumption, increasing the bandwidth

and device speed. The project company products

include 3D packaging nanotechnology foundry

services with electrochemical nanomaterials


Total budget


$10 mln

ЛОГО

ПРОЕКТА



$33 mln

Infrastructure

project

Technology equipment for Molecular Beam

Epitaxy and Planar Processing

Technology

ABOUT TECHNOLOGY: Growth and application of thin films,development of new types of thin films.ABOUT PROJECT: Planned expansion of production, organization

of sales and the adoption of related technologies, development of new

technologies, including manufacturing MBE equipment;

infrastructure support for Rusnano projects.

ABOUT PRODUCTS: Project products are Molecular Beam Epitaxy and Planar Technology equipment (PVD, CVD), used for applying thin films of materials on various surfaces.


Total budget


$5 mln

SemiTEq



$9 mln

* Central Bank official exchange rate on 13th of March 44.42 RUR/GBP

Infrastructure

project

International Master's Educational Program

«Nanodiagnostics, metrology, standardization

and certification of products of

nanotechnologies and nanoindustry»

Technology


Total budget

30,000$/per student

x 15 students

RUSNANO investment

375,000$

A broad fundamental training in the field of quantum physics in nanosystems,

laboratory practices with the latest nanodiagnostic equipment of RWC "Metallurgy and

Material Science" at Moscow Institute of Steel&Alloys (MISIS), Science and Training

Center "Nanotechnologies" at Moscow Institute of Physics&Technology (Fiztech-

MIPT), Research Center for the Study of surface properties and Vacuum (NICPV) of

Russian Federal Agency on Technical Regulating and Metrology.

Needed by 2015

(forecast) 100,000

professionals for

Russian nanoindustry

Total costs to educate

(estimated) 300 mln $

Infrastructure

project

rusnano: fostering nanotechnology innovation in russia · 2015-10-12 · russia’sfirst...

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