backing australian sme owned projects in technology and · sor 3 sor focusing on backing large...
TRANSCRIPT
Our MissionEmpower innovation by providing high risk-high reward opportunities with funding, Intellectual Property protection, company formation, incubation, scale-up and partnering.
OVERVIEW
Significant potential benefits to holding shares in a Pooled Development Fund
Under the Ausindustry Venture Capital managed program most shareholders pay no capital gains tax on the sale of their ASX listed SOR shares.Other potential benefits for shareholders include paying no tax on dividends received. SOR as a Company also pays just 15% corporate tax rate on returns from backing Australian SME’s.
2
Seeking large scale tax effective returns from high risk – very high reward innovation and resources projects.
For
per
sona
l use
onl
y
SOR
3
SOR focusing on backing large scale technology and resources opportunities
For
per
sona
l use
onl
y
“The world is moving from hard rigid silicon ‘boxes of electronics’ to softer printed electronics – electronics that can be curved, be flexed and even
stretch”. ID TechX
MEMORY INKNANOCUBE
© OE-A – A working group within VDMA
Key trends
Page 17 | May 2017
Imag
e so
urce
: Sam
sung
, OE
-A, N
ovaC
entri
x, D
uPon
t (2x
), Th
infil
m, O
E-A
OLED Displays Major industry sectors Smaller dimensions & improved registration
Flexible / bendable -> stretchable
Hybrid systems NFC-enabled smart labels Maturity, realistic growth, significant revenues
For
per
sona
l use
onl
y
Massive emerging sector currently moving from innovation to products (USD 73 Billion).
Nanocube
5
One of the core components that enable data to be stored on devices rather than in cloud.
Early prototypes show potential for increased memory capacity on flexible, transparent surfaces.
“Strong growth potential for stretchable electronics, logic and memory, thin film sensors” OE-A
© OE-A – A working group within VDMA
0
50
100
150
200
2010 2011 2012 2013 2014 2015 2016 2017 2018 2019 2020 2021 2022 2023 2024 2025 2026
Mar
ket V
olum
e [b
n U
S$]
Development of Overall Printed Electronics Market
Sou
rce:
OE
-A
Increase from2016-2017: 8 %2017-2018: 10 %
2018: 34.8 Bn US$, predominant by OLED displays, conductive inks, 2027: 73.43 Bn. US$
Strong growth potential for stretchable electronics, logic and memory, thin film sensors
| LOPEC 2018 Main Press Conference
Sources: Allied Market Research, Displaybank,IDTechEx, Konica Minolta, Markets and Markets,
Smithers Pira, Transparency Market Research
© OE-A 2018
Page 8 | 14/03/2018
Ability to customize not only form factor but also to store and receive critical information creates a point of difference.
© OE-A – A working group within VDMA
0
50
100
150
200
2010 2011 2012 2013 2014 2015 2016 2017 2018 2019 2020 2021 2022 2023 2024 2025 2026
Mar
ket V
olum
e [b
n U
S$]
Development of Overall Printed Electronics Market
Sou
rce:
OE
-A
Increase from2016-2017: 8 %2017-2018: 10 %
2018: 34.8 Bn US$, predominant by OLED displays, conductive inks, 2027: 73.43 Bn. US$
Strong growth potential for stretchable electronics, logic and memory, thin film sensors
| LOPEC 2018 Main Press Conference
Sources: Allied Market Research, Displaybank,IDTechEx, Konica Minolta, Markets and Markets,
Smithers Pira, Transparency Market Research
© OE-A 2018
Page 8 | 14/03/2018
For
per
sona
l use
onl
y
Nanocube
6
R&D programProgram aims: Improve ink for flexible and deformable substrates, build demonstrator.
R&D program secured with Australian Government Grant.Program aims: Trial advanced device configurations and performance testing on glass surfaces.
Program designProgram aims: To dramatically increase memory capacity.
#1 University in Australia for material science and #37 in the World.
Global leader in printed electronics. 100 dedicated scientists. Partner with world’s biggest companies.
Australia’s premier research organization. Nanomaterials and devices team Melbourne.
2018 has seen breakthroughs in key enabling technologies, however a printed flexible memory with enhanced data storage has yet to be commercialised.
For
per
sona
l use
onl
y
7
Current & 1st Quarter 20191st 1st 1st 2nd 2nd
Development
2nd Quarter 2019
Key milestone is 5000% + increase in capacityover leading printed non-volatile flexiblememory.
Goals F
or p
erso
nal u
se o
nly
RING FEATURESOFFICER BASIN
Seeking a large scale base/precious metals discovery.
For
per
sona
l use
onl
y
9
High risk- high reward greenfield exploration…
Must use geophysics to see under the cover..
For
per
sona
l use
onl
y
Gravity Surveys
10
Ilkurlka Project Lennis Project
1. Existing Ilkurka project gravity data showed no gravity anomaly associated with it.
1. At Lennis a very strong gravity anomaly was identified in the 1980’s but not targeted specifically for exploration or more detailed gravity surveys. 2. A land based gravity survey program was conducted with a total of 528 gravity stations at 400m centres with 2 infill lines at 200m spacing.
3. 3D inversion and forward modelling of the final gravity datasets was completed by Southern Geoscience and a 3D workspace of the modelled density distribution was compiled including density isosurfaces and depth and cross- sectional slices of the density model. Bodies generated during the forward / profile modelling were also incorporated into the final 3D workspace. Current = IP Surveys to explore for potential sulphides in gravity survey target zones
2. A land based gravity survey program was conducted with a total of 528 gravity stations at 400m centres with two infill lines at 200m spacing.
2. A land based gravity survey program was conducted with a total of 144 gravity stations at 1000m centres with two infill lines at 400m spacing.
For p
erso
nal u
se o
nly
Ilkurlka Project Lennis Project
1. Existing Ilkurka project gravity data showed no gravity anomaly associated with it.
1. At Lennis a very strong gravity anomaly was identified in the 1980’s but not targeted specifically for exploration or more detailed gravity surveys. 2. A land based gravity survey program was conducted with a total of 528 gravity stations at 400m centres with 2 infill lines at 200m spacing.
3. 3D inversion and forward modelling of the final gravity datasets was completed by Southern Geoscience and a 3D workspace of the modelled density distribution was compiled including density isosurfaces and depth and cross- sectional slices of the density model. Bodies generated during the forward / profile modelling were also incorporated into the final 3D workspace. Current = IP Surveys to explore for potential sulphides in gravity survey target zones
2. A land based gravity survey program was conducted with a total of 528 gravity stations at 400m centres with two infill lines at 200m spacing.
2. A land based gravity survey program was conducted with a total of 144 gravity stations at 1000m centres with two infill lines at 400m spacing.
For p
erso
nal u
se o
nly
Ilkurlka Project Lennis Project
1. Existing Ilkurka project gravity data showed no gravity anomaly associated with it.
1. At Lennis a very strong gravity anomaly was identified in the 1980’s but not targeted specifically for exploration or more detailed gravity surveys. 2. A land based gravity survey program was conducted with a total of 528 gravity stations at 400m centres with 2 infill lines at 200m spacing.
3. 3D inversion and forward modelling of the final gravity datasets was completed by Southern Geoscience and a 3D workspace of the modelled density distribution was compiled including density isosurfaces and depth and cross- sectional slices of the density model. Bodies generated during the forward / profile modelling were also incorporated into the final 3D workspace. Current = IP Surveys to explore for potential sulphides in gravity survey target zones
2. A land based gravity survey program was conducted with a total of 528 gravity stations at 400m centres with two infill lines at 200m spacing.
2. A land based gravity survey program was conducted with a total of 144 gravity stations at 1000m centres with two infill lines at 400m spacing.
For p
erso
nal u
se o
nly
Ilkurlka Project Lennis Project
1. Existing Ilkurka project gravity data showed no gravity anomaly associated with it.
1. At Lennis a very strong gravity anomaly was identified in the 1980’s but not targeted specifically for exploration or more detailed gravity surveys. 2. A land based gravity survey program was conducted with a total of 528 gravity stations at 400m centres with 2 infill lines at 200m spacing.
3. 3D inversion and forward modelling of the final gravity datasets was completed by Southern Geoscience and a 3D workspace of the modelled density distribution was compiled including density isosurfaces and depth and cross- sectional slices of the density model. Bodies generated during the forward / profile modelling were also incorporated into the final 3D workspace. Current = IP Surveys to explore for potential sulphides in gravity survey target zones
2. A land based gravity survey program was conducted with a total of 528 gravity stations at 400m centres with two infill lines at 200m spacing.
2. A land based gravity survey program was conducted with a total of 144 gravity stations at 1000m centres with two infill lines at 400m spacing.
For p
erso
nal u
se o
nly
What did we find buried within the ring features?
Lennis: 11 potential intrusions or alteration zones and 8 potential structural target zones were identified within the approx. 20km diameter ring structure
For
per
sona
l use
onl
y
IP Surveys
11
Lennis: IP Survey over gravity anomaly within ringsIlkurlka: IP Survey over gravity anomaly within rings
IP Survey currently being completed in the field. IP Survey completed within last few weeks. Data aggregation and analysis to be conducted and relevant target generation.
For
per
sona
l use
onl
y
Uncovered sixteen gold nuggets from around the historic workings. Significant dry blowing activity around historical Beasley River gold workings. Reconnaissance soil and rock sampling discovered anomalous gold as per image to right.
Pilbara
12
Hardey Formation
8 KM
Rocklea Dome Project
1986 ppb Au
127 ppb Au
343 ppb Au
146 ppb Au
112 ppb Au
206 ppb Au
145 ppb Au
189 ppb Au
Grabs to 2.0 g/t Au Costean 5 m @ 1.8 g/t Au
Grabs to 7.8 g/t Au DDH 3m @ 3.15 g/t Au
Gold Nuggets Reported 100 ppb Au anomaly >1 km (Max 299 ppb AU)
Beasley Workings: SOR 16 gold nuggets 75 Historic Pits
SOR Buck Rogers Veins: Rock 47.9 g/t Au Rock 9.7 g/t Au
284 ppb Au
18 ppb Au
E47/3797 & E47/3792
First pass at one of the three prospecting licenses confirmed prospective lower Hardey Formation conglomerate and Mount Roe Basalt outcrops.
Gold
Once the Milli Milli Dome project to the southeast is granted, exploration in the eastern projects are expected to progress in tandem.
For
per
sona
l use
onl
y
Current work on the Golden Blocks goldfield in NZ consists of negotiations with regulatory and other parties for access into the area to continue the highly successful exploration activities of the Company.
13
GOLDEN BLOCKS
APPLYING TECHNOLOGY TO A 100 YR OLD HIGH GRADE GOLDFIELD
For
per
sona
l use
onl
y
14
Stealth Technologies is currently a
100% owned start-up backed by
Strategic Elements Ltd.
Stealth is actively seeking to acquire
key technology in Machine Learning
with a focus on Intelligent Data and
Advanced Image Processing.
SectorMachine learning is a method of data analysis that automates
analytical model building. It is a branch of
artificial intelligence based on the idea that systems can learn
from data, identify patterns and make decisions with minimal
human intervention.
Machine learning is an application of artificial intelligence (AI)
that provides systems the ability to automatically learn and
improve from experience without being explicitly
programmed. Machine learning focuses on the development of
computer programs that can access data and use it learn for
themselves.
A large number of opportunities have been reviewed by the Company with a number entering formal due diligence. No agreement has been signed at the date of this presentation.
For
per
sona
l use
onl
y
SOR What are our short term objectives?
16
focusing on large scale technology and resources opportunities
#1. Identify potential zones of sulphides in ring
features.
#1. Demonstrate performance of flexible
memory ink.
#1. Enter agreement or sign acquisition for new
technology.
For
per
sona
l use
onl
y
Disclaimer and Forward Looking StatementsCompetent Person StatementGeological information within this presentation is sourced from previously made public announcements by respective Australian and New Zealand Competent Persons. These public announcementsmade under the JORC code may be viewed on the Company’s website or the ASX announcements platform under the “SOR” code.
Forward Looking StatementsThe document contains background Information about Strategic Elements Ltd current at the date of this presentation. The presentation is in summary form and does not purport to be all inclusiveor complete. Recipients should conduct their own investigations and perform their own analysis in order to satisfy themselves as to the accuracy and completeness of the information, statementsand opinions contained in this presentation.
Neither this presentation nor the information contained in it constitutes an offer, invitation, solicitation or recommendation in relation to the purchase or sale of shares in any jurisdiction. Thepresentation may not be distributed in any jurisdiction except in accordance with the legal requirements applicable in such jurisdiction. Recipients should inform themselves of the restrictions thatapply to their own jurisdiction as a failure to do so may result in a violation of securities laws in such jurisdiction.
This presentation does not constitute investment advice and has been prepared without taking into account the recipient’s investment objectives, financial circumstances or particular needs andthe opinions and recommendations in this presentation are not intended to represent recommendations of particular investments to particular persons. Recipients should seek professional advicewhen deciding if an investment is appropriate. All securities transactions involve risks, which include (among others) the risk of adverse or unanticipated market, financial or political developments.
To the fullest extent of the law, Strategic Elements Limited, its officers, employees, agents and advisers do not make any representation or warranty, express or implied, as to the currency, accuracy,reliability or completeness of any information, statements, opinion, market estimates, forecasts or other representations contained in this presentation. No responsibility for any errors or omissionsfrom the presentation arising out of negligence or otherwise is accepted.
This presentation may include forward-looking statements that are only predictions and are subject to risks, uncertainties and assumptions which are outside the control of Strategic ElementsLimited. Actual values, results or events may be materially different to those expressed or implied in this presentation. Given these uncertainties, recipients are cautioned not to place reliance onforward-looking statements in the presentation as they speak only at the date of issue of this presentation. Subject to any continuing obligations under applicable law and ASX Listing Rules, StrategicElements Limited does not undertake any obligation to update or revise any information or any of the forward looking statements in this presentation or any changes in events, conditions orcircumstances on which any such forward-looking statement is based.
No New InformationTo the extent that this presentation contains references to prior exploration results, which have been cross referenced to previous market announcements made by the Company, unless explicitlystated, no new information is contained. The Company confirms that it is not aware of any new information or data that materially affects the information included in the relevant marketannouncements.
28/11/2018.
For
per
sona
l use
onl
y