Segment 2 | Mobility
Mobility | Earth Friendly Energy Solutions
Introducing Solid-state Sodium Silicate Batteries (SSSB) - a breakthrough technology utilizing locally available materials like phyllosilicate.
Our batteries offer low environmental impact, cost-effectiveness, enhanced safety, and longer cycle life. They address challenges like resource dependency, high production costs, and limited recyclability.
With applications spanning e-mobility, electronics, stationary storage, drones, and biomedical devices, our innovation heralds a sustainable energy future.
Major Developments in
this Segment:
01
Magnesium Air Fuel Cells
-
Ideal for high-load bearing applications like locomotives and trucks.
-
Customer Base: Includes Medha Servo and Mahindra.
02
Hydrogen Producing Fuel Cells
-
Ideal for long distance mobility requirements, aircraft and space applications.
-
Customer base: ISRO, Tata.
Comparison of what we have to offer against their tech & where we are better / need improvement in terms of performance.
S_No | Company | Anode | Cathode | Solid Electrolyte | Energy Density (Wh/kg) | Capacity (mAh) | Voltage (V) | Type of cell |
|---|---|---|---|---|---|---|---|---|
1 | QuantumScape | Anodefree Lithium | Lithium
Nickel
Manganese
Cobalt
(LNMC) | Oxidic & Sulfidic Ceramic | 1000 | - | 4 | Prismatic |
2 | Prologium | Lithium/ Graphite /Si | Lithium
Cobalt Oxide
(LCO)
| Oxidic Ceramic | 400 | 250 | 4 | Prismatic |
3 | Solid Energy | Lithium | Lithium
Nickel Cobalt
Aluminium
(NCA) | Semi-Solid Solvent-in-Salt | 500 | 200 | 4.2 | Prismatic |
4 | Ionic Materials | Lithium/ Graphite | Lithium Iron
Phosphate
(LFP) | Doped Pi-Conjugated Polymer | 400 | 250 | 4 | Prismatic |
5 | Sion Power | Lithium | Lithium
Cobalt Oxide
(LCO)
| Hybrid Ceramic-Polymer | 400 | 300 | 4 | Prismatic |
6 | Solid Power | Lithium | Lithium
Nickel
Manganese
Cobalt
(LNMC) | Sulfidic Glass-Ceramic | 400 | 200 | 4.2 | Prismatic |
7 | Bollore | Lithium | Lithium Iron
Phosphate
(LFP) | PEO-based Polymer | 200 | 150 | 3 | Prismatic |
8 | Hydro Quebac | Lithium | Lithium
Cobalt Oxide
(LCO) | PEO-based Polymer | 400 | 300 | 4 | Prismatic |
9 | Entity 2 SSSBs | Carbon black | Sodium Silicate
| Solid state Na-enriched phyllosilicate deposited on PP
| 1703 | 210 | 3.1 | Coin |
10 | Entity 2 SSSBs | Carbon black | Sodium Silicate
| Solid state Na-enriched phyllosilicate deposited on PP | 961 | 2860 | 3.1 | Prismatic |
Segment 2 | Mobility
Mobility | Earth Friendly Energy Solutions
Introducing Solid-state Sodium Silicate Batteries (SSSB) - a breakthrough technology utilizing locally available materials like phyllosilicate.
Our batteries offer low environmental impact, cost-effectiveness, enhanced safety, and longer cycle life. They address challenges like resource dependency, high production costs, and limited recyclability.
With applications spanning e-mobility, electronics, stationary storage, drones, and biomedical devices, our innovation heralds a sustainable energy future.
01
Magnesium Air Fuel Cells
-
Ideal for high-load bearing applications like locomotives and trucks.
-
Customer Base: Includes Medha Servo and Mahindra.
02
Hydrogen Producing Fuel Cells
-
Ideal for long distance mobility requirements, aircraft and space applications.
-
Customer base: ISRO, Tata.
Major Developments in this Segment:
Comparison of what we have to offer against their tech & where we are better / need improvement in terms of performance.
S_No | Company | Anode | Cathode | Solid Electrolyte | Energy Density (Wh/kg) | Capacity (mAh) | Voltage (V) | Type of cell |
|---|---|---|---|---|---|---|---|---|
1 | QuantumScape | Anodefree Lithium | Lithium
Nickel
Manganese
Cobalt
(LNMC) | Oxidic & Sulfidic Ceramic | 1000 | - | 4 | Prismatic |
2 | Prologium | Lithium/ Graphite /Si | Lithium
Cobalt Oxide
(LCO)
| Oxidic Ceramic | 400 | 250 | 4 | Prismatic |
3 | Solid Energy | Lithium | Lithium
Nickel Cobalt
Aluminium
(NCA) | Semi-Solid Solvent-in-Salt | 500 | 200 | 4.2 | Prismatic |
4 | Ionic Materials | Lithium/ Graphite | Lithium Iron
Phosphate
(LFP) | Doped Pi-Conjugated Polymer | 400 | 250 | 4 | Prismatic |
5 | Sion Power | Lithium | Lithium
Cobalt Oxide
(LCO)
| Hybrid Ceramic-Polymer | 400 | 300 | 4 | Prismatic |
6 | Solid Power | Lithium | Lithium
Nickel
Manganese
Cobalt
(LNMC) | Sulfidic Glass-Ceramic | 400 | 200 | 4.2 | Prismatic |
7 | Bollore | Lithium | Lithium Iron
Phosphate
(LFP) | PEO-based Polymer | 200 | 150 | 3 | Prismatic |
8 | Hydro Quebac | Lithium | Lithium
Cobalt Oxide
(LCO) | PEO-based Polymer | 400 | 300 | 4 | Prismatic |
9 | Entity 2 SSSBs | Carbon black | Sodium Silicate
| Solid state Na-enriched phyllosilicate deposited on PP
| 1703 | 210 | 3.1 | Coin |
10 | Entity 2 SSSBs | Carbon black | Sodium Silicate
| Solid state Na-enriched phyllosilicate deposited on PP | 961 | 2860 | 3.1 | Prismatic |
Segment 2 | Mobility
Mobility | Earth Friendly Energy Solutions
Introducing Solid-state Sodium Silicate Batteries (SSSB) - a breakthrough technology utilizing locally available materials like phyllosilicate.
Our batteries offer low environmental impact, cost-effectiveness, enhanced safety, and longer cycle life. They address challenges like resource dependency, high production costs, and limited recyclability.
With applications spanning e-mobility, electronics, stationary storage, drones, and biomedical devices, our innovation heralds a sustainable energy future.
01
Magnesium Air Fuel
Cells
-
Ideal for high-load bearing applications like locomotives and trucks.
-
Customer Base: Includes Medha Servo and Mahindra.
02
Hydrogen Producing
Fuel Cells
-
Ideal for high-load bearing applications like locomotives and trucks.
-
Customer Base: Includes Medha Servo and Mahindra.
Major Developments in this Segment:
S_No | Company | Anode | Cathode | Solid Electrolyte | Energy Density (Wh/kg) | Capacity (mAh) | Voltage (V) | Type of cell |
|---|---|---|---|---|---|---|---|---|
1 | QuantumScape | Anodefree Lithium | Lithium
Nickel
Manganese
Cobalt
(LNMC) | Oxidic & Sulfidic Ceramic | 1000 | - | 4 | Prismatic |
2 | Prologium | Lithium/ Graphite /Si | Lithium
Cobalt Oxide
(LCO)
| Oxidic Ceramic | 400 | 250 | 4 | Prismatic |
3 | Solid Energy | Lithium | Lithium
Nickel Cobalt
Aluminium
(NCA) | Semi-Solid Solvent-in-Salt | 500 | 200 | 4.2 | Prismatic |
4 | Ionic Materials | Lithium/ Graphite | Lithium Iron
Phosphate
(LFP) | Doped Pi-Conjugated Polymer | 400 | 250 | 4 | Prismatic |
5 | Sion Power | Lithium | Lithium
Cobalt Oxide
(LCO)
| Hybrid Ceramic-Polymer | 400 | 300 | 4 | Prismatic |
6 | Solid Power | Lithium | Lithium
Nickel
Manganese
Cobalt
(LNMC) | Sulfidic Glass-Ceramic | 400 | 200 | 4.2 | Prismatic |
7 | Bollore | Lithium | Lithium Iron
Phosphate
(LFP) | PEO-based Polymer | 200 | 150 | 3 | Prismatic |
8 | Hydro Quebac | Lithium | Lithium
Cobalt Oxide
(LCO) | PEO-based Polymer | 400 | 300 | 4 | Prismatic |
9 | Entity 2 SSSBs | Carbon black | Sodium Silicate
| Solid state Na-enriched phyllosilicate deposited on PP
| 1703 | 210 | 3.1 | Coin |
10 | Entity 2 SSSBs | Carbon black | Sodium Silicate
| Solid state Na-enriched phyllosilicate deposited on PP | 961 | 2860 | 3.1 | Prismatic |
Comparison of what we have to offer against their tech & where we are better / need improvement in terms of performance.
Tropical EV Batteries and Battery Cells.
Power Electronics, Machines and Drives (PEMD).
Electric Vehicle Charging Infrastructure.
Introduction of the Scheme [Electric Vehicle Mission (EV-Mission)]:
The Anusandhan National Research Foundation (ANRF), a statutory body under the Government of India, aims to fund and coordinate research across institutions, focusing on national priorities and emerging technologies. Under its Mission for Advancement in High-impact Areas (MAHA), ANRF has prioritized Electric Vehicle (EV) Mobility.
The EV-Mission promotes R&D to drive EV adoption in India by developing key components like batteries, motors, and chargers. It aims to build a self-reliant ecosystem, boost domestic R&D, and position India as a global leader in EV technology, aligning with the goals of Atmanirbhar Bharat and Viksit Bharat.