The long list of the key products/services, technologies and topics of research and development in the direction of "New
Materials and Technologies" for the period until 2030 year
Product/Service
Technologies
Topics of research and development
New materials in the environment range
1. Catalytic
Systems and
Technologies
1. Technologies of
production of the
polymerization catalyst.
1. Process development technologies of the olefin polymerization catalysts (ethylene and
propylene) production.
2. Technologies of
production catalyst for
monomers preparation
1. Process development technologies of the production catalysts for metathesis
2. Process development technologies of technologies of the polymerization catalyst
production for masterbatch and elastomers.
2. Process development technologies of the production catalysts for propane
dehydrogenation.
3. Process development technologies of the production catalysts for butane and isobutane
dehydrogenation.
3. Technologies of
production catalyst for
the oil processing.
1. Process development technologies of the production catalysts for heavy oil processing.
4. Technologies of
production catalyst for
the motor fuel
purification.
1. Process development technologies of the production catalysts for hydrocarbons
hydrocracking.
2. Process development technologies of the production catalysts for hydrocarbons reforming.
3. Process development technologies of the production catalysts for the alkylation.
4. Process development technologies of the production catalysts for the isomerization.
5. Process development technologies of the production catalysts for the catalytic hydrocarbon
cracking.
6. Process development technologies of the production catalysts for the motor fuel
hydrotreating.
5. Technologies of
production catalyst for
the syn gas and hydrogen
products based on them.
1. Process development technologies of the production catalysts for the syn gas.
2. Process development technologies of the production catalysts for the hydrogen.
3. Process development technologies of the production catalysts for the Fischer-Tropsh.
4. Process development technologies of the production catalysts for ammonia.
5. Process development technologies of the production catalysts for methanol.
2. Polymeric
materials with
special properties
6. Technologies of
production catalyst for
the aromatization.
1. Process development technologies of the production catalysts for the associated gas
aromatization.
7. Technologies of
production catalyst for
associated gas
purification.
1. Process development technologies of the production of the heterogeneous catalysts
hydratreating for the liquefied hydrocarbon gases.
8. Technologies of
production catalytic
neutralizers of exhaust
and flue gases.
1. Process development technologies of the production catalysts for post-combustion of
exhaust and flue gases.
1. Technology for
production of
biodegradable polymer
materials
1. Process development technologies of the production of biodegradable polymers based on
vegetable raw materials.
2. Process development technologies of the production catalysts for liquefied hydrocarbon
gases demercaptanization
2. Process development technologies of directed synthesis of biodegradable polymers based
on the large-capacity polymer production.
3. Process development technologies of the production of biodegradable supplements for
large-capacity polymer products.
2. Technology for
producing polymer
materials for special
purposes on the basis of
basic research
polycondensation
catalyst, polymerization
and chemical
modification.
1. Process development technologies of the production of polymers and composites with
enhanced thermal and radiation resistance, high mechanical resistance with magnetic
susceptibility, and ion and other electroconductive properties.
2. Process development technologies of the production of highly selective ion exchange, the
redox and complexing sorbents and membranes, polyfunctional polymers and constructional
materials.
3. Process development technologies of the production of radiation-modified polymeric
materials (thermoed polyethylene polymers inoculate type, etc.).
4. Process development technologies of the production of polymer organogel with increased
sorption capacity for oil and its components for use in technologies of scimming oil spills
from the water surface.
3. Technology for
producing water-soluble
and water swellable
polymers (polymer
hydrogels)
1. Process development technologies of the production of "smart" polymers of linear network
structure to solve actual problems of ecology, biomedicine, electronics, biotechnology and
others.
2. Process development technologies of the production of swellable polymer hydrogels for
regulation of soil water regime in agriculture.
3. Process development technologies of the production for creating intergel systems with high
selectivity and sorption capacity towards to various ion classes.
4. Process development technologies of the production of selective separation and recovery
various ions from aqueous solutions using intergel systems.
3. Functional
materials for
textile and light
industries.
4. Technology for or
obtaining modifying
supplements, fillers,
various agent types to
improvement of
operational properties of
polymer materials and
give them special
properties.
1. Process development technologies of the production of antioxidants and stabilizers to
protect polymers from chemical and physical destruction.
5. Technology for
producing functional
materials for textile and
light industries
1. Process development technologies of the production of synthetic and artificial organic
fibers with improved performance characteristics.
2. Process development technologies of the production of plasticizers for the expansion of
rubber elasticity interval from polymers and improve its frost resistance.
3. Process development technologies of the production of foaming agents for producing a
porous polymers structure.
4. Process development technologies of the production of fillers and modifying supplements
for increased strength and wear resistance of polymeric products.
2. Process development technologies of the production of new types of mineral fibers (glass,
ceramic, basalt, and others).
3. Process development technologies of the production of nanostructured fibers.
4. Process development technologies of the production of chemical fibers for special use.
New materials in mechanical engineering field.
1. Polymeric
materials with
special
characteristics
1. Technology for
producing plasticizers for
the interval expansion of
elastomeric condition of
the production and
increase its frost
resistance.
1. Process development technologies of the production of plasticizers based on aliphatic
acids.
2. Process development technologies of the production of plasticizers based on complex
esters (phtalates, phosphates, etc.).
3. Process development technologies of the production of plasticizers based on hydrocarbons
and their derivatives.
4. Process development technologies of the production of plasticizers based on vegetable oils
and their modification products.
2. Technology for
producing fillers at
manufacturing products
from polymers to
improve its performance
by giving it special
characteristics.
1. Process development technologies of the production of dispersed fillers.
2. Process development technologies of the production of fibrous fillers.
3. Process development technologies of the production of woven fillers.
4. Process development technologies of the production of non-woven fillers.
3. Technologies for
obtaining modifiers of
polymer surfaces.
1. Process development technologies of the production of matting agents.
2. Process development technologies of the production of supplements that increase the
scratch resistance.
3. Process development technologies of the production of supplements that increase wear
resistance.
4. Process development technologies of the production of surface modifiers.
4. Technologies for
obtaining functional
polymers using similar to
polymers transformations
and self-polymerization
grafting.
1. Process development technologies of the production of functional polymers using similar
to polymers transformations and self-polymerization grafting.
2. Solid and
superhard
materials and
alloys
5. Radiation technology
of thermosetting
polymers (with the
"memory effect").
1. Process development technologies of the production of radiation modification of polymer
materials based on radiation graft polymerization and copolymerization.
1. Technologies for
obtaining of powder
materials.
1. Process development technologies of the production of grinding equipment manufacturing
to obtain powder materials.
2. Technologies for
production of solid
materials based on
tungsten, tantalum and
titanium compounds.
1. Process development technologies of the production of tungsten carbide, tantalum,
titanium, by powder metallurgy techniques, including a SV- synthesis.
2. Process development technologies of the production of bonding materials based on cobalt
alloys and nickel-molybdenum alloys
3. Process development technologies of the production of composite materials based on
carbides, nitrides, borides, tungsten, titanium, and tantalum.
3. Technologies for
obtaining tungsten hard
alloys.
1. Process development technologies of the production of tungsten hard alloys based on TiC,
TiC-TiN with different variants of ligaments.
2. Process development technologies of the production of synthesis of tungsten hard alloys
based on transition metal borides IV - VI of the periodic system and, in particular, TiB and
TiB2.
3. Process development technologies of the production of synthesis ligaments solid tungsten
alloys
4. Technology synthesis
of superhard materials.
1. Process development technologies f or synthesis of cubic boron nitride.
2. Process development technologies for creating composite materials based on corundum
and boron nitride.
3. Process development technologies of silicon nitride and producing composite materials
based on them.
4. Process development technologies of superhard materials based on natural and synthetic
diamonds.
5. Process development technologies of corundum with various modifying additives.
3. Membrane
Technology
5. Technologies of
applying hard and
superhard materials
1. Process development technologies of applying hard and superhard materials.
6. Technologies of the
abrasives synthesis based
on oxide systems.
1. Process development technologies of abrasives synthesis based on natural and synthetic
silica and alumina.
1. Membrane technology
for the solutions of
ecological problems,
water treatment and
industrial sector.
1. Process development technologies for creating membranes for water purification from
man-made and natural inclusions.
2. Process development technologies for creating nanofiltration membranes and elements.
3. Process development technologies for creating reverse osmosis membrane elements.
4. Process development technologies for creating modular systems on ceramic porous
membrane.
5. Process development technologies for creating polymer membrane modules on polymer
porous and rolled membranes.
2. Technologies for
producing the initial
components for the
manufacture of
composite materials.
1. Process development technologies for creating high-temperature ceramics, including
cermets.
2. Process development technologies for creating coatings with radio shielding
characteristics.
3. Process development technologies for creating new types of dispersed fillers and building
mixtures for special purposes.
4. Process development technologies for creating carbon-containing materials and sorbents
based on carbon-mineral and vegetable raw materials.
5. Process development of the reinforcing fiber compositions and layered fillers.
4. Functional
coatings
1. Production of
composite materials
1. Process development technologies for creating premixes.
2. Technology for
producing ceramic
materials.
1. Process development technologies for pressing in mold constructions, including “hot
molding”
2. Process development technologies for creating prepregs and thermosets glass-carbon
plastics.
2. Process development technologies for injection molding of thermoplastic elastomers and
slips.
3. Process development technologies for reaction sintering.
New materials in agrocultural industry.
1. Polymer materials
with special
characteristics.
1. Technology for
production of
biodegradable
polymer materials
2. Technologies for
producing polymer
materials for special
purposes on the basis
of fundamental
research of catalytic
polycondensation
polymerization and
chemical
modifications.
3. Technologies for
obtaining watersoluble and waterswellable polymers
(hydrogels)
2. Membrane
Technology
1. Membrane
technology to solve
the problems of
ecology, water
1. Process development technologies for production of biodegradable polymers based on
vegetable raw materials.
2. Process development technologies for directed synthesis of biodegradable polymers based
on large-capacity polymer production.
3. Process development technologies for biodegradable additives for large-capacity polymer
products.
1. Process development technologies for production of highly selective ion-exchange,
redox and complexion sorbents membranes, polyfunctional polymers, and construction
materials.
1. Process development technologies for production of "smart" polymers and linear network
structure to solve actual problems of ecology, biomeditsinry, electronics, biotechnology, etc.
2. Process development technologies for creating systems with high intergel sorption capacity
and selectivity towards various
Ion classes.
3. Process development technologies for selective separation and recovery of various types of
ions from aqueous solutions using intergel systems.
4. Process development technologies for production of superswelling polymer
hydrogels for regulation of soil water regime in agriculture.
1. Process development technologies for creating membranes for water purification from
man-made and natural inclusions.
3. The new multipurpose materials
based on natural
raw materials and
industrial waste.
1. Polymer materials
with special
characteristics.
treatment and
industrial sector.
1. Technology of
obtaining products
chemicalization of
agriculture
1. Technology of
producing
biodegradable
polymer materials.
2. Technologies for
producing polymer
materials of special
purpose based on
fundamental research
of catalytic
polycondensation
polymerization and
chemical
modification.
3. Technologies for
obtaining watersoluble and waterswellable polymers
(hydrogels)
1. Process development technologies for production of special varieties of common salt from
Kazakhstan raw materials.
2. Process development technologies for production of organic and mineral fertilizers.
3. Process development technologies for production of phosphogypsum with increased
coefficient of soil structure.
New materials in the field of biotechnology
1. Process development technologies for production of biodegradable polymers based on
herbal raw material.
2. Process development technologies for synthesis directed on biodegradable polymers based
on large-capacity polymer production.
3. Process development technologies for production of biodegradable additives for largecapacity polymer products.
1. Process development technologies for production of polymers and composites with
predetermined properties.
1. Process development technologies for production of "smart" polymers and linear network
structure to solve actual problems of ecology, biomedicine, electronics, biotechnology and
etc.
2. Process development technologies for production of superswelling polymer
hydrogels for water regulation in agricultural soils.
New Materials in Energetic field.
1. Catalytic
Systems and
Technologies
1. Hard and
superhard materials
and alloys.
2. Membrane
Technology.
1. Technology for
obtaining catalysts
producing synthesis gas and hydrogen
products based on
them.
1. Process development technologies for production of catalysts for the synthesis gas.
2. Process development technologies for production of catalysts for hydrogen.
3. Process development technologies for production of catalysts for the Fischer-Tropsh
synthesis.
4. Process development technologies for production of catalysts for ammonia.
5. Process development technologies for production of catalysts for methanol.
1. Technologies for
obtaining catalysts for
gas treatment
1. Process development technologies for production of heterogeneous catalysts for
hydrotreating of liquefied petroleum gas.
2. Process development technologies for production of catalysts for liquefied petroleum gas
sweetening.
1. Process development technologies for production of catalysts for afterburning exhaust and
flue gases.
1. Technologies for
preparing catalyst
converters and exhaust
the flue gases.
1. The application
technology of hard and
superhard materials.
2. Technologies of
synthesis of abrasive
materials based on
oxide systems.
1. Technology of the
initial components for
the production of
composite materials.
1. Process development technologies for the application of hard and superhard materials.
1. Process development technologies for the synthesis of abrasive-based systems natural and
synthetic silica and alumina.
1. Process development technologies for production of high-temperature ceramics, including
cermets.
2. Process development technologies for production of coatings with radio shielding
properties.
3. Process development technologies for production of new types of dispersed fillers and
building mixtures for special purposes.
3. Functional
coatings.
1. Preparation of
composite materials.
1. Process development technologies for production of premixes.
2. Process development technologies for production of prepregs and thermosets and glassy
plastics coatings.
New Materials in Health Care
1. Polymer
materials with
special
characteristics.
1. Membrane
Technology
1. Technologies for
obtaining of
biodegradable
polymeric materials.
2. Technologies for
obtaining water-soluble
and water-swellable
polymers (hydrogels).
1. Process development technologies for the directed synthesis on biodegradable polymers
based on large-capacity polymer production.
3. Technologies for
obtaining functional
materials for textile
and light industry.
1. Process development technologies for the production of aromatic (para-, meta-) polyamide,
polyethylene of high molecular weight, polybenzoxazole, polybenzimidazole, synthetic
carbon fibers.
4. Technologies for
obtaining chemical
fibers.
1. Process development technologies for the production of polyester fibers.
1. Membrane
Technologies for
biomedical use.
1. Process development technologies creation of membranes for separation and concentration
of proteins.
2. Process development technologies for creating UV membranes for biopharmaceuticals.
1. Process development technologies for the production of "smart" polymers and linear
network structure to solve current problems and environmental medicine, electronics,
biotechnology, etc.
2. Biomedical
Materials and
biologically active
substances
1. Technology
obtaining biologically
active compounds for
the practical medicine,
pharmacy, veterinary
medicine and
agriculture.
2. Technology of
obtaining biologically
active compounds
based on modern
methods of thin
organic synthesis
including green
chemistry approaches.
3. Technologies of
production therapeutic
forms of herbal
remedies from
vegetable raw
materials.
4. The production
technology polymeric
materials for
biomedical use.
1. Process development technologies for synthesis directed on products for medicine,
veterinary medicine and agriculture.
2. Process development technologies for green technologies to produce products and
materials for medicine, veterinary medicine, agriculture.
3. Process development technologies for small-tonnage production for medicine from the list
of vitally important medicines.
1. Process development technologies for biologically active products synthetic analogues of
natural for medical, veterinary and agriculture.
2. Process development technologies for biologically active compounds in modification of
natural compounds.
3. Process development technologies for classical thin organic synthesis and green chemistry
in the obtaining biologically active products.
1. Process development technologies for isolation and purification of biologically active
substances from plant raw materials from Kazakhstan.
2. Process development technologies for the productionof tableted and capsulated forms of
herbal remedies.
3. Process development technologies for the production of syrup and other soft dosage forms
of herbal remedies.
4. Process development technologies for production technologies and hydrogel ointment
dosage forms of herbal remedies.
1. Process development technologies for production of dressings and suture materials based
on synthetic and natural polymers.
2. Process development technologies for production of implant materials based on synthetic
and natural polymers.
3. Process development technologies for production of polymer hydrogel materials for
biomedical use.
Nanomaterials and
Nanotechnologies
5. Technology
approaches based on
obtaining the green
chemistry of
macromolecular
systems with
controlled drug
delivery.
1. Process development technologies for production of systems with controlled release of
medicinal substances based on stimulus-sensitive polymers.
2. Process development technologies for production of the transdermal and mucoadhesive
therapeutic systems.
3. Process development technologies for production based on green chemistry approaches of
physiologically active polymers in vaccination type.
4. Process development technologies for production of polymer dosage forms in prolonged
action.
5. Process development technologies for production of nanotechnological systems with
controlled drug delivery into the target cell.
1. Technology of
obtaining
nanomaterials and
nanocomposites with
bio-medical purpose.
1. Process development technologies based on nanotechnology approaches with creating
systems of controlled delivery of medicinal substances to the target cell.
2. Process development technologies for creating dressings, sutures and implant materials,
metal-structured nanoparticles.
3. Process development technologies for production of nanocapsules, nanogels and polymer
nanostructures for systems with target drug delivery.