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Company profile

Scionix Limited

Scionix Limited is a UK company with status active founded in 1999 based in London.

CRN
03739551
Founded
1999
Age
27

Overview

Legal name
SCIONIX LIMITED
Region
London
Registered address
41-44 GREAT QUEEN STREET
LONDON
ENGLAND
WC2B 5AD
Insolvency history
No

Latest accounts

Financial period: 1 Jan 2024 to 31 Dec 2024

FILLETEDACCOUNTS
Turnover
Unknown
Profit / Loss
Unknown
Employees
3

Company events

Reference milestones and recent Companies House filing stream events.

10 events
30 Sep
2027

Accounts due

Accounts Due

Next accounts due date

30 Dec
2026

Confirmation statement due

Confirmation Due

Next confirmation statement due date

31 Dec
2025

Accounts filed

Accounts

Last accounts made up date

16 Dec
2025

Confirmation statement filed

Confirmation

Last confirmation statement made up date

15 Oct
2024

Memorandum Articles

Incorporation

MA | Transaction MzQzODcwMDM1M2FkaXF6a2N4 | Paper/PDF filed

Published 16 Oct 2024 07:28

15 Oct
2024

Capital Name Of Class Of Shares

Capital

SH08 | Transaction MzQzODcwMDQ5NGFkaXF6a2N4 | Paper/PDF filed

Published 16 Oct 2024 07:23

15 Oct
2024

Resolution

Resolution

RESOLUTIONS | Transaction WUREQUgxVE5hZGlxemtjeA | Paper/PDF filed

Published 16 Oct 2024 07:07

14 Oct
2024

Capital Variation Of Rights Attached To Shares

Capital

SH10 | Transaction MzQzODcwMDUwMWFkaXF6a2N4 | Paper/PDF filed

Published 15 Oct 2024 06:11

09 Oct
2024

Change To A Person With Significant Control

Persons-with-significant-control

PSC05 | Transaction MzQzODcwMTg3OWFkaXF6a2N4

Published 28 Oct 2024 12:20

24 Mar
1999

Incorporated

Inception

Company registered at Companies House

Public funding

5 awards
First funded
2006
Funded years
2006, 2008, 2009, 2013, 2014
Age at first award
6 years

Projects

2014 Collaborative R&D

ELECTRO-TEG - Electrodeposition of thermoelectric materials to produce novel thermoelectric generator devices

1 Jul 2014 to 30 Jun 2016

Awarded
£60,244
Total cost £100,406

Material advances (in particular in nano-structuring) have produced a step change in the thermoelectric performance over the last 5 years which has led to some wate heat energy recovery technoloiges being commercialised within the autmotive sector. As a result, there is increased market pull and the market for these TEGs is growing considerably. However, ...

2013 Collaborative R&D Lead participant

Step Change in Manufacture and Processing of Aerospace Superalloy Components

1 Feb 2013 to 31 Jul 2016

Awarded
£149,983
Total cost £425,000

A novel process for electropolishing aerospace castings using ionic liquids is being developed. Specifically this project is exploring the application of novel liquids for electrochemical removal of silicate and metal containing scale from turbine blade castings and seeking to understand how scale forms during solidification on single crystal turbine blad...

2009 Feasibility Studies Lead participant

Novel Method For Capturing CO2 from Fossil-Fuelled power Stations - DISPLACE

1 Dec 2009 to 31 Aug 2010

Awarded
£26,250
Total cost £35,000

Awaiting Public Summary

2008 Feasibility Studies

The Glycerol Challenge

1 Mar 2008 to 29 Feb 2012

Awarded
£128,377
Total cost £256,857

The objective of the project is to develop a chemisty and reactor engineering solution to purify and manufacture sustainable products from the glut of 10% glycerol co-product which accompanies plant oil-derived biodiesel. Viable catalytic routes to key chemical intermediates are a missing key step. The products would be carbon neutral and potentially be a...

2006 Collaborative R&D Lead participant

Recycling of electric arc furnace dust using ionic liquids

1 Jan 2006 to 30 Jun 2008

Awarded
£140,000
Total cost £316,000

Awaiting Public Summary

Product types

Collaborative R&D Feasibility Studies