The Transition Metals (Manganese, Titanium, etc.) for ...€¦ · of a lithium-ion battery down...
Transcript of The Transition Metals (Manganese, Titanium, etc.) for ...€¦ · of a lithium-ion battery down...
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The Transition Metals (Manganese, Titanium,
etc.) for Energy Storage Application
Mesfin Kebede, PhD
Energy Centre, CSIR
Chemical elements for South Africa’s future, NSTF, 18 March
2019
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Outline
• Major mineral resources for lithium ion battery
• Battery technology drivers
• Overview on CSIR engagement
• CSIR EET technologies
• Summary
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The major mineral resources geographical locations
• About 80% of the known world manganese resources are
located in South Africa; other important manganese deposits
are in Ukraine, Australia, India, China, Gabon and Brazil.
• Titanium is the ninth most abundant element in the Earth's
crust. The most important minerals for mining titanium are
rutile (TiO2) and ilmenite (FeTiO3). The top producing
countries of these ores are Australia, South Africa, and
Canada.
Corathers, Lisa A. (2009). "Mineral Commodity Summaries 2009: Manganese" (PDF). United States Geological Survey. Retrieved
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Titanium deposit & production
http://metalpedia.asianmetal.com/metal/titanium/resources&production.shtml
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Battery technology drivers
In the automotive industry
• EV market to grow 14-fold from $10bn in 2014 to $140bn by 2020.
• The feasible approach to curb air pollution.
• Falling battery/EV costs due to mass production.
• Improving product range (e.g., Chevy Bolt, Tesla Model 3).
• Ongoing expansion on fast-charging infrastructure (Li4Ti5O12-LTO).
(Berenberg, Feb 2016)
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Tesla’s New Gigafactory
• Opens 2017, Reno, Nevada
• Employ up to 6,500 people and
pay ~ $25/hr.
• Builds lithium-ion batteries.
• Cost to build Gigafactory
– $5 Billion
– Nevada pitching in $1+ Billion
in incentives
• $100 billion economic benefit
over 20 years.
• Factory will help Tesla move
closer to mass producing $35,000
car with 200 mile range.
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Battery technology drivers
In the utilities technologies
• Battery storage to grow from ~$0.5bn in
2015 to a ~$14bn market by 2020 due to
increasing renewables investment;
• For residential “battery-plus-solar”
• The realization of power generation and
micro-grids instead of the centralised
distribution model.
(Berenberg,2016)
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L-ion batteries prices
L-ion batteries to cross $100/kWh in 2018,
residential solar + electric battery cost-
competitive with grid electricity by 2020
Energy storage prices are falling rapidly, allowing new combinations of solar, wind, and energy storage to “outcompete” the costs of coal and natural gas plants, according to a new study.
Research and development investment for energy storage projects have brought the cost of a lithium-ion battery down from $10,000 per kilowatt-hour in the early 1990s to an expected $100 per kilowatt-hour in 2018, the researchers said. Residential solar and electric battery storage could become cost-competitive with grid electricity by 2020, they added.
Source: http://www.rapidshift.net/l-ion-batteries-to-cross-100kwh-in-2018-residential-solar-electric-battery-cost-competitive-with-grid-electricity-by-2020/
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Key African market
• <20% Africans have access
to electricity (World Bank)
• Sub-Saharan Africa (SSA)
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Overview on CSIR activities
a) Objectives
Technical: To produce high-performance manganese-rich
electrode materials for lithium-ion batteries.
Socio-economic: Assist local SA industries via value-addition to
mineral beneficiation (notably, EMD and manganese salts) and job
creation.
b) SA’s competitive advantages
Access to key raw materials, e.g., EMD, Titanium, fluorine
Access to key African market, especially sub-Saharan Africa:
Unique IP that reduces costs: CSIR patent-filed.
c) Expected time to market
Possibly by 2025
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LIB Value Chain
The position of the CSIR in the value chain is a semi-manufacturer, which
will allow for the supply of the products to firms engaged in cell assembly,
battery module and packs integration, as well the end-user vehicle manufacturers.
Inputs
Basic Fabricated
Products
Manufactured Components,
Finished/Assembled Products
Active
Materials
Cathode
Electrode
Binders
Solvent
Chemicals
Raw
Minerals
and Metals
Various Other
Inputs
Foil
Anode
Various
Intermediate
Products
Separator
Tabs
Electrolyte
Can/Case
Vent
Seal
Lid
Battery
Cell
Battery
Module
and
Pack
Vehicle
(use &
recycling)
Semi-manufactured
Products
Winding
Welding
Packaging
Charging
Testing
Ancillary
Devices
Packaging
Management
Systems
Component
production
Cell
production
Module production
& Pack Assembly Use
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Partnership (local & International) & Roles
a) Academic
UWC, NMU, Wits and UP are involved in the training of our
students and characterisation of materials
Overseas universities (e.g., NUS Singapore and VUB, Belgium)
are/will be involved in the characterisation of the materials.
b) Industrial
TIA is funding the process optimisation and scale-up to 1 kg
batches of the CSIR patent-filed synthesis of LMNO.
Bushveld Manganese (Pty) Ltd is supplying aqueous manganese
nitrate for the LMNO scale-up
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Cathode demand
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0.5 µm
0 0.1 0.2 0.3 0.4 0.5 µm
nm
0
2
4
6
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CSIR EET technologies
Targets
• Electric vehicles
• Stationary / utility
• Lithium & Sodium ion
batteries
• Electrochemical capacitors
Electrochemical Energy Technologies (EET)
Pouches lighting LED
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State of present day activities
Chemistries: LMO, LMNO, LMNC, LFP, LTO, SIB, ZIB, Supercapacitors
• Doping o Structural stabilisation, enhanced electrochemistry
• Nano-sizing o Enhanced mass transport properties
• Surface-coating o Structural stabilisation, enhanced electrochemistry
• Microwave irradiation o Control manganese valence state
o Structural stabilization
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Technology Development Pathways
Coin/button Cell Powder ~ 10 g Lab-scale Reaction
Electrochemical
testing and
device
demonstration
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Powder ~ 1 – 10 kg Pouch cells and battery
packs (UWC) Bench scale reactor
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Cell assembly
Coin cells ready for
electrochemistry testing
Individual parts of a coin cell:
A – negative electrode cap
B – positive electrode cap
C – separator
D – Spacer
E – spring
F – Coated electrodes
F
Coin cell assembly in
glove box
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Lithium ion battery (LIB)
At the anode:
6C + xLi+ + xe
- ↔Li
xC
6
At the cathode:
LiCoO2 ↔Li
1-xCoO
2 + xLi
++ xe
-
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Three Types of Cathode Materials
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LMO structure, challenges & strategies
Research Challenges for LiMn2O
4 spinel
Jahn-Teller distortion in the 3V region,
which is due to the generation of new
phases during cycling
Disproportion reaction in the 4 V.
2Mn3+
(S) → Mn4+
(S) + Mn2+
(solution)
Doping
Structural stabilisation, enhanced electrochemistry
Nano-sizing
Enhanced mass transport properties
Surface-coating
Structural stabilisation, enhanced electrochemistry
Microwave irradiation
Control manganese valence state
Structural stabilization
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- The nanorods quantity and
distribution increases with
time.
6 h
12 h 72 h
EMD
Development of LiMn2O4 cathode material from South African
raw material for lithium ion batteries
LMO nanorods
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Cyclic performance
• LMO-1 and LMO-2 retain 88%
and 95% of their 1st
discharge capacity after 100
cycles.
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LiMn2O4 cathode for lithium ion battery
Lithium manganese oxide Batch number LMO582
LiMn2O4 Molecular weight 180.81
Particle size distribution D10 (um) 28.9
D50 (um) 49.8
D90 (um) 81.2
Tap Density (g/cm2) 2.22
Specific Capacity (mAh/g) 105-110 0 20 40 60 80 100
0
2000
4000
6000
8000
10000
12000
14000
16000
18000
Inte
ns
ity
(a
.u.)
2 (degs)
LMO-582
Figure 1 XRD of LMO Figure 2 SEM of LMO
Figure 3 Charge/discharge curves at 0.1C (3.5-4.3V) Figure 4 Cycling performance
Active material:Carbon black:PVDF = 8:1:1
3.5
3.7
3.9
4.1
4.3
4.5
0 20 40 60 80 100
Vo
lta
ge
(V
)
Capacity (mAh/g)
0
20
40
60
80
100
120
0 25 50
Ca
caci
ty (
mA
n/g
)
Cycle no.
0.1C 3.5-4.3V C2032 Room temperature Anode electrode: Li
Figure 5 full battery performance
Development of LiMn2O4 from South African raw material (EMD)
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LIB & SIB characterisation and testing
(a)
Kumar Raju,a Funeka P. Nkosi et al, Phys.Chem.Chem.Phys., 2016, 18, 13074
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In-house synthesized TiO2 nanotubes
Fig. A set-up of stirring hydrothermal
for the growth of TiO2 Nanotubes
• Nanotubular TiO2 by an alkaline hydrothermal reaction of TiO2 particles.
• Formation of TiO2 nanotube or nanowire occurs by the heat treatment (annealing) of
layered hydrogen titanate or protonated polytitanate (H2TinO2n+1·xH2O) previously
ion-exchanged by HCl washing from sodium hydrogen titanate
(NayH2−yTinO2n+1·xH2O).
• It should also be noted that the shapes and electrochemical properties of nanotubular
TiO2 strongly depend on the synthesis conditions, primarily the NaOH concentration
and the annealing temperature.
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Electrochemical analysis of TiO2 nanotubes
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Summary
• The transition metals Mn and Ti are very useful for
electrochemical energy storage applications
• these minerals availability in South Africa is a
benefit.
• At CSIR both elements are being used for cathode
and anode materials for lithium ion battery
• The trend to industrial size manufacturing is very
important.
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Acknowledgments
• CSIR Energy Centre
• CSIR Electrochemical Energy Technologies
• CSIR Energy Materials
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Thank you