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08/09/2015
1
Date : 7th August 2015 Time : 11.35 a.m. Venue : Shangri-la’s Tanjung Aru Resort & Spa, Kota Kinabalu, Sabah, Malaysia.
ENABLING NEW ADVANCEMENT IN AGRICULTURE VIA
NANOTECHNOLOGY
Introduction: NanoMalaysia Bhd.
Phase development of
nanotechnology Worldwide trends & market in Nanotechnology
Commercialization through
Jumpstart Sectors Alignment with NKEAs of Economic Transformation
Programme (ETP) & Commercialization Programs
Agricultural nanotechnology
prospects Underlying trends of market of agriculture attributes
to nanotechnology.
National Graphene Action Plan 2020
(NGAP2020) NanoMalaysia commercialization Programs
1
2
3
4
5
Contents
08/09/2015
2
Introduction: NanoMalaysia Bhd.
Phase development of
nanotechnology Worldwide trends & market in Nanotechnology
Commercialization through
Jumpstart Sectors Alignment with NKEAs of Economic Transformation
Programme (ETP) & Commercialization Programs
Agricultural nanotechnology
prospects Underlying trends of market of agriculture attributes
to nanotechnology.
National Graphene Action Plan 2020
(NGAP2020) NanoMalaysia commercialization Programs
1
2
3
4
5
Contents
Statement by Prime Minister
YAB Dato’ Sri Mohd Najib Tun Razak 29 Oct 2009
“Nanotechnology development would be given and be made of the resources of
the country’s new economic model. Thus, it is important for Malaysia to not be left
behind in the field of nanotechnology and we have decided to give importance….”
NanoMalaysia Berhad
(NanoMalaysia) was mooted during
National Innovation Council (NIC)
meeting, chaired by the Right
Honorable Prime Minister, Y.A.B.
Dato’ Seri Najib Tun Razak on 14
February 2011.
NanoMalaysia was then
incorporated as Company Limited
by Guarantee (CLG) in August
2011 under Section 24, Company
Act 1965 to take the lead in
commercialisation of
nanotechnology products Commercialization and
development of nanotechnology
Facilitate the development
of human capital
Plan and execute
activities that contribute
to the development of
nanotechnology-based
industries
Plan and coordinate the
commercialization of R&D
in nanotechnology
Strategize the positioning
of nanotechnology
industry of Malaysia
Facilitate investment in
nanotechnology
commercialization
Key functions of
08/09/2015
3
Introduction: NanoMalaysia Bhd.
Phase development of
nanotechnology Worldwide trends & market in Nanotechnology
Commercialization through
Jumpstart Sectors Alignment with NKEAs of Economic Transformation
Programme (ETP) & Commercialization Programs
Agricultural nanotechnology
prospects Underlying trends of market of agriculture attributes
to nanotechnology.
1
2
3
4
5
Contents
National Graphene Action Plan 2020
(NGAP2020) NanoMalaysia commercialization Programs
Passive
nanostructures
(2000-2010)
Active
nanostructures
(2010-2020)
Systems of
Nanosystems
(2020-2030)
Molecular
Nanosystems
(2030-2040)
2010 2030 2020 2040…
Nanoparticles
Nanocomposite
Nanocoating
Sensors
Electronics
Targeted drugs
• Nanostructure
materials
• Adaptive
structures
(Nanomaterials
& devices)
3D networking
Advanced
materials
Molecular
assembly
Nanorobotics
• Supramolecules
Molecules by
design
Hierarchical
functions
• Evolutionary
nanosystem
1st Gen 2nd Gen
3rd Gen 4th Gen
Phase development of nanotechnology
Nanotechnology “The application of scientific knowledge to control and utilize matter in the nanoscale
(1 nm to 100 nm), where properties and phenomena related to size or structure can emerge.”
Adapted from Roco, MC
(2004) AI Che J. 50 (5)
ISO/TS 80004-1:2010
08/09/2015
4
Mark
et
inc
orp
ora
tin
g N
an
ote
ch
no
log
y d
oll
ar
($)
2000 2004 2008 2012 2016 2020
10000
1000
100
10
1
~ $ 40B
~ $ 120B
~ $ 250B
~ $ 1T by
2015
~ $ 3T by
2020
1st Generation: Passive nanostructures
2nd Generation: Active nanostructures
3rd Generation: Nanosystems by design
Worldwide Market Incorporating Nanotechnology
Years
4th Generation: Systems of
Nanosystems
Mth. Res. Inst. (2005)
Lux Research (2009)
Deutche Bank (2005)
~ $ 92B
Roco & Bainbridge (2000 – 2015)
Current position
Nanotechnology research directions: Vision for nanotechnology in the next decade, 2001-2010, M Roco et al.,(1999) - Springer, Nano1 Report
Nanotechnology research directions for societal needs in 2020, M Roco et al., (2010) – Springer, Nano2 Report
Final products incorporating
nanotechnology in the world
World
annual rate
of increase
: ~ 25%
85.7K
Nanoscale technology
impact in 2007 ($M) Predicted Nanoscale technology
impact in 2015 ($M)
[1] “The U.S. is once again the leader
in corporate nanotechnology spending;
increase of 19% 2015 to reach $4.1
billion.”
2.6K
[2] “Seventh Framework
Programme (FP7);The
Nanosciences, Nanotechnologies,
Materials, and New Production
Technologies (NMP) sub-program
runs 7 years”
> $400 million 70%: Nanotechnology
VC funding
70%
65%
$4.7 billion 65%:
Nanotechnology
Europe
US
Asia
[1] Revenue from Nano-
enabled Products by
Region (in US$ Trillions)
“By 2018, Asia will emerge as a
leading producer of nano-enabled
products with more than $1 trillion
in revenue, compared to in the
U.S and Europe.”
1.13 0.9 0.94
2000 2014 2018
0.38
0.18
0.96
1.75
“Nanotechnology
initiatives and
development in Malaysia
are aligned with the
growing global revenues ($ trillions)
of nano-enabled sectors”
[2]
[1]
[1] LuxResearch, February 2014
[2] Nanotechnology: a UK Industry View, 2012
Medical & Health
Energy & Environment
Electric & Electronics
Food & Agriculture
08/09/2015
5
[1] “The U.S. is spending more than
$50 million per year; increase of 19%
from 2013 till now 1500 patent
applications filed” “Seventh Framework Programme
(FP7);The Graphene Flagship sub-
program runs 10 years and total
national funding is estimated at €150 M
to fund graphene-related research” Graphene Global
Research &
Technology Hub €57 Million
[3] Projected patents that
have been filed worldwide
“Since 2009 till now, China
has seen the growth from
7% to 47% in first filings of
patents related to graphene
research and development
compared to 16% and 18%
the U.S and Korea.” Potential revenue (RM bil) GNI (RM bil)
“National Graphene
Action Plan (NGAP)
focuses on downstream
applications when
innovating with
Graphene”
[2]
[1]
[1] National Graphene Action Plan 2020 (NGAP2020)
[2] Source: European Science Foundation
[3] Graphene: the worldwide patent landscape in 2015 and forward
47% Li-ion batteries / ultracapacitor
Nanofluids
Conductive ink
Rubber additives
Plastic additives
$50 Million
1500 patents
€150 Million
0.8
2.5
2.5
6.5
8.0
Introduction: NanoMalaysia Bhd.
Phase development of
nanotechnology Worldwide trends & market in Nanotechnology
Commercialization through
Jumpstart Sectors Alignment with NKEAs of Economic Transformation
Programme (ETP) & Commercialization Programs
Agricultural nanotechnology
prospects Underlying trends of market of agriculture attributes
to nanotechnology.
1
2
3
4
5
Contents
National Graphene Action Plan 2020
(NGAP2020) NanoMalaysia commercialization Programs
08/09/2015
6
Food & Agriculture Electronics,
Devices & Systems
Energy &
Environment
Wellness, Medical
& Healthcare
Food
processing and
management (smart packaging)
Nano-
encapsulation,
Nanofertilizer (Bio-active ingredient
detection and database)
Nanosensors (Scalar sensors &
system)
Nanolectronics (Processors, NEMS)
Nanodevices (Phones, cameras
etc.)
Advanced
materials (Nanogenerators,
Nanochip)
Packaging and
systems (Nanonetworks for
healthcare
applications, RFID)
Drug delivery (Nanomedicine,
biosensors)
Li-ion battery
anode / ultra-
capacitors (Power system)
Antimicrobial
applications (Antimicrobial assays)
Green energy
and power
technology (Sensors for alternative
power sources)
Nanofiber,
Nanocellulose (Forestry
Nanotechnology,
Filtration system)
Nanowire: electronic devices and sensors
Nanoparticles and Bionanotechnology Platform (wearables development)
CNT: Nanotechnology engineering and nanocomposite application
Graphene: Nanotechnology engineering and nanocomposite application
1 2 3 4
Commercialization through four (4) Jump Start Sectors
Food & Agriculture Electronics,
Devices & Systems
Energy &
Environment
Wellness, Medical
& Healthcare
1 2 3 4
Alignment with NKEAs of Economic Transformation Programme (ETP)
GNI GNI GNI GNI
Oil, Gas
and Energy Healthcare
Electrical &
Electronics Agriculture
Incremental GNI
by 2020
RM 35 billion
Incremental GNI
by 2020
RM 131 billion
Incremental GNI
by 2020
RM 53 billion
Incremental GNI
by 2020
RM 29 billion
Additional Jobs
by 2020
181,000
Additional Jobs
by 2020
52,300
Additional Jobs
by 2020
157,000
Additional Jobs
by 2020
109,335
Enabling industries
through Nanotechnology 20
EPP Highlights
Increasing solar module producers 7
EPP Highlights EPP Highlights EPP Highlights
Enable EV component manufacturing 18
Building up renewable
energy and solar capacity 10
Creating supportive ecosystem
to grow clinical research 2
High-value Herbal
Products 1
Establishing Malaysia as
a Global Biodiversity Hub 4
08/09/2015
7
1 2
Two (2) Commercialization Programs in Nanotechnology
iNanovation
National
Graphene Action
Plan 2020
(NGAP2020)
Nanofluid
Plastic
additives
Rubber
additives
Li-ion
battery/
ultra-
capacitors
Condu-
ctive ink
Technology and
Business Due
Diligence
Nanotechnology
landscaping and
Business
opportunities
Strategy planning &
consulting in
commercialization of
Nanotechnology R&D
Facilitation of
investment in
Nanotechnology
Development of
human capitals in
Nanotechnology
Food &
Agriculture
Electronics,
Devices &
Systems
Energy &
Environment
Wellness,
Medical &
Healthcare
Nanotechnology Product and Process
Verification and Certification supporting
iNanovation and NGAP 2020
Introduction: NanoMalaysia Bhd.
Phase development of
nanotechnology Worldwide trends & market in Nanotechnology
Commercialization through
Jumpstart Sectors Alignment with NKEAs of Economic Transformation
Programme (ETP) & Commercialization Programs
Agricultural nanotechnology
prospects Underlying trends of market of agriculture attributes
to nanotechnology.
1
2
3
4
5
Contents
National Graphene Action Plan 2020
(NGAP2020) NanoMalaysia commercialization Programs
08/09/2015
8
Agriculture Attributes
The Enabling Catalyst
Nanotechnology
Oil Palm (Oil palm ash (OPA),
POME)
Forestry
Paddy Rice husk ash
(RHA)
Direct Impacts
Nanotechnology-enabled products
Rubber
Social Impacts Access to basic needs
nexus – water, energy
and food security.
Waste to wealth Crafting value and concept
towards environmental
sustainability
Full value chain Social/people economy
Active
nanostructures
(2010-2020)
Chemicals (catalysts, additives,
precursors, nanofertilizers)
Materials (Graphene. Nanofiber,
nanocellulose)
Biofuel (Ethanol, biodiesel,
biogas, biomass, bio-oil)
towards nanotechnology agriculture
Natural/organic
Environmental
benefits
Reduction of
CO2 emission
Reduction of
energy
Market review Features &
Benefits Potential adopters
1.76 bn 1.3 bn [1]
[kilo tons]
Market volume 2014
Market volume 2020
Revenue
> 4.4% CAGR By 2020
• Rice husk ash (RHA)
2
1
NanoSilica
Zeolite
i. Reduces consumption of coagulation
ii. Sustainable Source from Rice Husk Ash
iii. Molecular sieves for water
iv. 30% increase in oil and gas yield
v. 35% increase in production efficiency
Benefits of Rice Husk Nanomaterials
Eco Friendly
Technology
[1] Transparency Market Research : Global Synthetic Zeolite Market by 2020
[2] Zeolites: 2015 World Market Review and Forecast
Synthetic Zeolite Market Share
Global Zeolite Consumption
1
Catalyst
Adsorbents/
Dessicants
Detergent
builders
Natural zaeolites
Synthetic zeolites
73%
17%
10%
[2]
Rice husk are
generated from
the rice
cultivation.
Silica is the
major inorganic
constituent of
the rice husk.
Filtration
Rubber
additives
Drugs for pest
control
Oil and gas
Concrete mixture Aerogel
Nanosilica and Zeolites
• Oil palm ash (OPA)
USD 2.15 B
USD 2.52 B
USD 2.94 B
2005
2010
2015
Key technical advantages of nanotechnology inclusion
08/09/2015
9
Market review Features &
Benefits Potential adopters Nanocellulose
Product applications of
nanocellulose
2
Aerospace
Automotive
Forest products
Nanocellulose fibrils may
be isolated from the wood &
palm tree-based fibers
using mechanical &
chemical isolation methods.
Emulsion and
dispersion in
coatings and
paints
Interesting
material for
reinforcing
plastics and
composite
Additives used as
thickeners, flavour
carriers and
suspension
stabilizers
Oil & gas
Healthcare and medicine
Others
[1] International Symposium on Assessing the Economic Impact of Nanotechnology, 2012
[2] Nanocellulose: A Technology and Market Study, Future Market Inc., 2012
[3] Nanocellulose: a new ageless bionanomaterial, Materials Todat, 16 (6), 2013
Nanocellulose gives
superiors strength
without compromising
the original shape &
appeal
1
Nanocellulose gives strong & flexible
films coated on glass
for architecture
2
[1]
3 Green
technology that
gives rapid
scalability
Nanocellulose market study [2]
To
nn
es/y
ea
r
Source: [3]
20
Potential adopters
Nanofiber is used in
engineering-desired
textile attributes; different
levels of breathability and
water resistance.
3
4
Nanofiber membrane from biopolymers can be
used as a bioactive
material or drug carrier;
provide significant
bioavailability
improvement
Nanofiber’s main
applications for inorganic
nanofiber usage are
catalysis (e.g.
photocatalysis), electrode
materials, sensors,
nanocomposites, etc.
115 13.6
[1] Nanotechnologies for the Textile Market
[2] The Global Nanofibers market: Trends, Drivers and Projections
[1]
Projected Market for nano-textiles
2017 ($B)
Market for nano-textiles 2007 ($B)
Nanofiber Market review Features &
Benefits 3
Compound Annual Growth Rate
(CAGR) of 28% and market projected
to reach US$ 1.0 Billion by 2020.
28%
1
2
Nanofiber webs’
features in all other filter
media technology; high
mechanical filter
efficiency and high dust
loading capacity
• Largest
nanofiber
market
Asia Pacific
Others
Energy
Chemical & mechanical
2005 2014 2018
[2]
Growing demand for
air & liquid filters
Market trends:
√ Use of Catalysts in
industrial sectors
√ Prominence of energy
storage applications
√ Demand for
nanofibers in
performance
apparel
08/09/2015
10
Market review Features &
Benefits Potential adopters Graphene
Market forecast split by application in
2015, 2018 and 2021
4
[1]
[1] Graphene and 2D Materials: Markets, Technologies and Opportunities 2015-2025
[2] Graphene: the worldwide patent landscape in 2015 and forward
$ 200 M • Graphene market will reach
nearly $ 200 M by 2025
Atmospheric
Pressure Continuous
Microwave Plasma
Cracking Conversion of methane,
CO2 and Gas Wastes to
graphene and carbon
nanotubes (CNT)
1
The direct discharge
of the Palm Oil Mill
Effluent (POME)
Publication
“Systematic increase of filed
patents and publications in
graphene (25,000 filed from
2005-2014)”
• Optical
• Electronic
• Chemical
• Thermal
• Structural
Improvement:
Graphene-based
catalysis for
biomass
conversion
New
encapsulation
technique for
Graphene
e.g Various
applications:
Graphene
membranes
make clean
water
Product Development
Prototyping (Productization)
Pilot production
Manufacturing Revenue
Majority
holding Minority
holding
Project
entry
Project
entry Project
entry
• dividend • royalties • licensing
Project
entry
iPush iPush iPush
iPull iPull iPull
iSwitch
disruptive technologies (IPs, PoCs)
industry/market demand
iNanovation Push
iNanovation Pull
iNanovation Switch
Facilitation: Nanotechnology adoption by the industry
Market share & GNI
increase
Market Pull
Industry
Push to market
High value Job Creation
Re
se
arc
h &
Ac
ad
em
ic
Ins
titu
tes
(C
oll
ab
ora
tio
ns
)
Multiple-helix facilitation scheme for nanotechnology ventures
Interfacing with pre-existing facilities and programs throughout the innovation value chain
Industry-driven incremental and revolutionary nanotechnology processes and products
Jumpstart sectors:
08/09/2015
11
Introduction: NanoMalaysia Bhd.
Phase development of
nanotechnology Worldwide trends & market in Nanotechnology
Commercialization through
Jumpstart Sectors Alignment with NKEAs of Economic Transformation
Programme (ETP) & Commercialization Programs
Agricultural nanotechnology
prospects Underlying trends of market of agriculture attributes
to nanotechnology.
National Graphene Action Plan 2020
(NGAP2020) NanoMalaysia commercialization Programs
1
2
3
4
5
Contents
4
3
1
2
Introduction of “Graphene”
Downstream Applications
Areas of Graphene
5
5 Key Area Under
NGAP2020
NGAP2020 Project
Execution
Potential Graphene
Application
08/09/2015
12
Graphene, widely known as ‘wonder material’ has superior physical properties
and could bring immense potential to intensify MY economic growth via the
manufacturing sector
Graphene is one of the most important innovations
in material sciences in the last decade
First isolated in 2004, Graphene is a one atomic
layer thick honeycomb sheet of carbon atoms.
Several superior properties have already been
proven, and new properties and applications are
continually being discovered.
Leading countries have already invested in
innovation, further building up global momentum
behind R&D.
Sheet Graphene
Flake Graphene
Forms and methods of production varies for
different applications
Graphene is commonly available in two
forms; i) sheets, and ii) flakes.
Chemical Vapor Deposition (CVD) and Chemical
Exfoliation (CE) are the common methods of
Graphene production.
Chemical vapor deposition and chemical exfoliation are the dominant methods of Graphene production
▪ Deposited graphene can take the form of a thin film or flakes depending on reaction parameters
▪ Expensive process, especially to produce sheets
▪ Medium to high quality Graphene can be produced
▪ Break through would be the development of graphene growth on arbitrary surfaces or at low temperatures
▪ Graphite is dropped into an acid / solvent with the aid of sonication. A centrifuge can be used on the resulting suspension to further increase yield / quality
▪ Alternately, process can be broken into two steps where Graphene Oxide is made as an intermediate and then reduced to Graphene
▪ Resulting Graphene is mow-medium quality but can allow for lower Capex and hence lower cost of production
Chemical Vapor Deposition Chemical Exfoliation
SOURCE: Nature, University of Manchester
08/09/2015
13
28 Graphene applications…
Medical
▪ Ultra-capacitors ▪ Li-ion battery anode ▪ Photovoltaics ▪ Hydrogen-based fuel
cells
▪ Transparent electrodes ▪ EM radiation shielding ▪ Heat spreader/thermal
interface material ▪ Conductive inks ▪ Digital electronics ▪ Photodetectors & lasers ▪ RF electronics ▪ Non-volatile memory
▪ Composite filler ▪ Composite matrix ▪ Protective coatings ▪ Water filtration ▪ Outgassing barrier ▪ Food packaging
▪ Plastics additives ▪ Rubber additives ▪ Catalyst supports ▪ Nanofluids ▪ Sensor applications ▪ Dispersing agents for
insoluble materials
▪ Anti-bacterial medical dressings ▪ Human tissue engineering ▪ DNA sequencing ▪ MRI contrast agents
The five applications areas for
further consideration are:
▪ Li-ion battery anode / ultra-
capacitors
▪ Conductive inks
▪ Rubber additives
▪ Plastic additives
▪ Nano fluids including drilling
fluids, lubricants and coolants
Low High
Applicability to Malaysia2
Large
Small
Mark
et
Siz
e1
▪ Rubber additives
Medium
▪ Li-ion battery
anode/
Ultra-capacitors
▪ Conductive ink
▪ Nanofluids
▪ Transparent
electrodes
▪ Plastics
additives
▪ EM radiation
shielding
▪ Composite filler
▪ Protective
coatings
▪ Heat spreader/
thermal interface
material
▪ Water filtration
▪ Composite
matrix
▪ Catalyst
supports
Market size and applicability to Malaysia
1 Market size is high if addressed Graphene market size is ~$1B or higher
2 Applicability to MY is based on current downstream players, upcoming policies, and focus of neighboring countries
Through systematic analysis we narrowed down to
5 technologically and economically feasible
applications … High Low Medium
Likelihood of successful Graphene
commercialization
For further consideration
08/09/2015
14
1 2 3 4
Li-ion
batteries/
ultracapacitor
Rubber
additives
5
Conductive
ink Plastic
additives Nanofluids
3 5 215 50 57 9 25 1 3 1
Plastics industry
is large and
Graphene can
enable high
performance
plastics
Overall market
size is big;
global
application
RFIDs are
projected to use
Graphene & can
capture a large
portion of the
market
Ultracapacitors
can enable fast
charging and
high energy
storage
Tires, gloves,
and industrial
applications
can be enabled
by Graphene
Addressable market size
Total downstream market
size
Addressable market size
Total downstream market
size
Addressable market size
Total downstream market
size
Addressable market size
Total downstream market
size
Addressable market size
Total downstream market
size
GNI Incremental
GNI by 2020
RM 8 – 9.5
billion Additional
Jobs by 2020
5700
Highlights Highlights Highlights Highlights Highlights
GNI Incremental
GNI by 2020
RM 6.5 – 8
billion Additional
Jobs by 2020
1700
GNI Incremental
GNI by 2020
RM 2 – 2.5
billion Additional
Jobs by 2020
1000
GNI Incremental
GNI by 2020
RM 0.8
billion Additional
Jobs by 2020
600
GNI Incremental
GNI by 2020
RM 2 – 2.5
billion Additional
Jobs by 2020
250
Access to R&D
funding and
prototyping
Information on
Graphene supply
Access to technical
experts
Access
to IP
advice
Co-ordination and monitoring
2 3
5 4
7
Awareness building
& facilitating
“projects”
Scale-up support 6 1
Facilitate introduction
to IP advisory
services for patent
application or
protection
Manage &
connect
companies to
expert networks
Facilitate
connection to
potential source
of Graphene
Facilitate “minority”
funding for R&D and
required prototyping
facilities
Project execution
NGAP2020 Project Execution
Conductive ink Li-ion battery/
ultra-capacitors
Plastics Rubber
additives
Nanofluid
Focus on downstream applications when innovating with Graphene
Priority on five applications areas; Based on technical feasibility, economic viability, time to
adoption, relevance and impact to Malaysia (2020 timeframe)
Comprehensive delivery framework in facilitating and executing projects
08/09/2015
15
Graphene and Biomass
Oil palm biomass:
- Fronds
- Trunks
- EFB
- Shells
- Fiber
- POME
Malaysia is currently in the forefront of developing
graphene from methane, a greenhouse gas produced in
huge quantities from POME.
Plasma system to turn biogas into graphene.
Graphene is an excellent catalyst bed for biomass conversion to
bio-fuel.
Largest exporter of palm oil
Malaysia currently generates about 12% of GNI from the
agriculture sector
8% contributed by palm oil sector > RM80 bil
Palm oil generates largest amount of biomass ~83 million dry
tonnes in 2012
Expected to increase about 100 million dry tonnes by
2020
National Biomass Strategy 2020: New wealth creation for Malaysia’s biomass industry
Version 2.0, 2013
▪ Graphene, has been described
as a 'miracle material' which has
the potential of 'changing the face
of manufacturing' because it is
'harder than diamond and thinner
than a human hair'.
▪ Malaysia's Felda Global Ventures
recently acquired UK-based
Cambridge Nanosystems Ltd
which owns a patented process to
produce graphene.
▪ Patented plasma system to turn
biogas into graphene.
▪ Collaboration with world-leading
companies and academic experts
to develop materials into advanced
designs to transform global
manufacturing processes and
potentially revolutionise a wide
range of consumer and industrial
products.
Investments in high-value
manufacturing producing
nanotechnology-based
products by companies
Goal
Development of local
small and medium
enterprises (SME)
Increasing the contribution
to GNI and job-creation
through the nanotechnology
commercialization
Conductive
ink
Plastic
additives
Rubber
additives
Nanofluids
Food & Agriculture
Electronics,
Devices &
Systems
Energy &
Environment
Wellness,
Medical &
Healthcare
Nanotechnology Commercialization via iNanovation & NGAP Li-ion battery
anode / ultra-
capacitors
1 2 3
08/09/2015
16
THANK YOU
NANOMALAYSIA BERHAD (955265-P)
(A CLG under the Ministry of Science, Technology and Innovation) A-2-2, Level 2, 157 Hampshire Place Office, No. 1, Jalan Mayang Sari, 50450 Kuala Lumpur. Tel : +603 2166 8849 Fax : +603 2181 8849 Email : info@nanomalaysia.com.my Website : www.nanomalaysia.com.my Facebook : www.facebook.com/NanoMalaysiaBerhad Twitter : www.twitter.com/NanoMalaysia Instagram : @nanomalaysia #nanomalaysia #nanoforall
Product Development
Prototyping (Productization)
Pilot production
Manufacturing Revenue
Majority
holding Minority
holding
Project
entry
Project
entry Project
entry
• dividend • royalties • licensing
Project
entry
iPush iPush iPush
iPull iPull iPull
iSwitch
disruptive technologies (IPs, PoCs)
industry/market demand
iNanovation Push
iNanovation Pull
iNanovation Switch
Commercialization Program : iNanovation 1
Market share & GNI
increase
Market Pull
Industry
Push to market
High value Job Creation
Re
se
arc
h &
Ac
ad
em
ic
Ins
titu
tes
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Multiple-helix facilitation scheme for nanotechnology ventures
Interfacing with pre-existing facilities and programs throughout the innovation value chain
Industry-driven incremental and revolutionary nanotechnology processes and products
Jumpstart sectors:
08/09/2015
17
Access to R&D
funding and
prototyping
Information on
Graphene supply
Access to technical
experts
Access
to IP
advice
Co-ordination and monitoring
2 3
5 4
7
Awareness building
& facilitating
“projects”
Scale-up support 6 1
Facilitate introduction
to IP advisory
services for patent
application or
protection
Manage &
connect
companies to
expert networks
Facilitate
connection to
potential source
of Graphene
Facilitate “minority”
funding for R&D and
required prototyping
facilities
Project execution
Commercialization Program : NGAP2020 Project Execution
Conductive ink Li-ion battery/
ultra-capacitors
Plastics Rubber
additives
Nanofluid
Focus on downstream applications when innovating with Graphene
Priority on five applications areas; Based on technical feasibility, economic viability, time to
adoption, relevance and impact to Malaysia (2020 timeframe)
Comprehensive delivery framework in facilitating and executing projects
2
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