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Faradion Limited

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Welcome to Faradion, the world leader in non-aqueous sodium-ion cell technology that provides cheaper, cleaner energy.

CRN
07338748
Founded
2010
Age
15

Overview

Legal name
FARADION LIMITED
Region
Unknown
Registered address
105 WIGMORE STREET
8TH FLOOR
LONDON
ENGLAND
W1U 1QY
Insolvency history
No

Company events

Reference milestones and recent Companies House filing stream events.

11 events
30 Sep
2026

Accounts due

Accounts Due

Next accounts due date

20 Aug
2026

Confirmation statement due

Confirmation Due

Next confirmation statement due date

06 Aug
2025

Confirmation statement filed

Confirmation

Last confirmation statement made up date

31 Dec
2024

Accounts filed

Accounts

Last accounts made up date

08 Oct
2024

Accounts With Accounts Type Small

Accounts PDF pending

AA | Transaction MzQzODE1ODYwOWFkaXF6a2N4 | Paper/PDF filed

Published 09 Oct 2024 06:13

18 Sep
2024

Appoint Person Director Company With Name Date

Officers

AP01 | Transaction MzQzNjM2ODEyOWFkaXF6a2N4

Published 18 Sep 2024 10:30

18 Sep
2024

Termination Director Company With Name Termination Date

Officers

TM01 | Transaction MzQzNjM1NzIyMWFkaXF6a2N4

Published 18 Sep 2024 09:11

12 Sep
2024

Appoint Person Director Company With Name Date

Officers

AP01 | Transaction MzQzNTUwMzIzNmFkaXF6a2N4

Published 12 Sep 2024 14:35

12 Sep
2024

Termination Director Company With Name Termination Date

Officers

TM01 | Transaction MzQzNTQ5OTI2NGFkaXF6a2N4

Published 12 Sep 2024 14:26

20 Aug
2024

Confirmation Statement With No Updates

Confirmation-statement

CS01 | Transaction MzQzMjc0OTc3MWFkaXF6a2N4

Published 20 Aug 2024 12:11

06 Aug
2010

Incorporated

Inception

Company registered at Companies House

Public funding

9 awards
First funded
2011
Funded years
2011, 2013, 2015, 2016, 2017, 2018, 2024
Age at first award
1 years

Projects

2024 Collaborative R&D Lead participant

Sodium-ion batteries for BESS in South Asia utilising a local materials supply chain

1 May 2024 to 31 Mar 2027

Awarded
£741,307
Total cost £1,647,349

Battery Energy Storage System \[BESS\] are needed to maximise the utilisation of renewable energy sources, to support the functioning of electrical grids and to provide energy access to those in locations not yet grid-connected. Faradion's Sodium-Ion Battery \[SIB\] technology represents a lower cost, more sustainable alternative to existing lithium-ion o...

2018 Collaborative R&D Lead participant

Sodium-ion batteries for automotive power applications

1 Mar 2018 to 31 May 2021

Awarded
£590,503
Total cost £843,576

"The projects aims are to develop and demonstrate low cost 12V batteries for electrified vehicles. These batteries are used for lighting, security, control of the traction battery management system and other critical features. Generally, in electrified vehicles, these batteries use lead acid technology on account of their low cost and specialised requirem...

2017 Collaborative R&D Lead participant

Materials and cell scale-up for sodium-ion technology for residential energy storage

1 Aug 2017 to 31 Jan 2020

Awarded
£560,000
Total cost £800,000

Energy storage is one of DECC's top priority areas for development, with the potential to massively cut the cost of decarbonising the electricity supply if a grid-scale electricity storage system to balance the variable output of renewables can be created. The challenge for residential energy storage (RES) systems is in providing safe, low-cost, long-life...

2017 Feasibility Studies

PHOENIX: Printable Hard carbOn Electrodes for Na-Ion batteries with eXtra capacity

1 Mar 2017 to 28 Feb 2018

Awarded
£39,335
Total cost £78,670

This feasibility project enables a low cost sodium ion battery (NIB) option for Residential Energy storage (RES) to partner with PV. The project aims to transfer knowledge from the conductive ink industry into the battery industry and develop carbon pastes and electrodes to enable a low cost NIB as an alternative rechargeable battery technology to lithium...

2016 Collaborative R&D Lead participant

Sodium-ion batteries for electric vehicles

1 Jul 2016 to 31 Dec 2018

Awarded
£220,586
Total cost £315,122

A consortium of three businesses, Faradion Ltd. , AGM Batteries Ltd. and Renault together with Warwick University have come together to demonstrate that battery packs based on sodium-ion technology can be manufactured successfully on a commercial scale. The technology has been developed in the laboratory by Faradion Ltd who will be joing forces with Warwi...

2016 Feasibility Studies Lead participant

Sodium-ion battery performance over an extended temperature range

1 Mar 2016 to 28 Feb 2018

Awarded
£155,156
Total cost £221,651

Faradion Limited is being supported by Innovate to develop and optimise sodium-ion batteries which can operate over the wide range of ambient temperature conditions which can be experienced by electric and hybrid vehicles. These range from -20C to +60C.

2015 Collaborative R&D Lead participant

Low Cost storage of Renewable Energy

1 Nov 2015 to 31 Oct 2018

Awarded
£272,906
Total cost £454,465

The project is a three year programme undertaken by Faradion Ltd, Moixa Ltd and Warwick University to develop sodium-ion batteries for the storage of domestic solar energy. The stored energy, generated when there are high levels of sunlight can then be used later in the day when demand is at its highest. The attraction of sodium-ion batteries is that they...

2013 Collaborative R&D Lead participant

Low cost sodium-ion batteries

1 Nov 2013 to 30 Apr 2015

Awarded
£208,048
Total cost £346,745

The project will demonstrate the use of sodium-ion technology in low cost batteries for applications in transport and the storage of renewable energy. If it is succesful, it will enable a faster adoption of electric vehicle and renewable technologies. The project is a collaboration between three partners namely Faradion Ltd., Williams Advanced Engineering...

2011 GRD Proof of Concept Lead participant

New Advanced Battery Materials by Faradion Ltd

1 Oct 2011 to 31 Mar 2012

Awarded
£100,000
Total cost £205,693

Efficient and low cost energy storage is a crucial requirement for many high technology markets including low carbon vehicles, mobile communications and renewable energy. Rechargeable batteries are advancing in technology to meet these market demands but they are currently hindered by high cost, weight and volume and significant safety issues. There is a ...

Product types

Collaborative R&D Feasibility Studies GRD Proof of Concept