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Company profile

Mof Technologies Limited

Nuada Carbon Capture - Ultra Energy Efficient CO2 Capture

The next generation of carbon capture is energy efficient and cost-effective. Learn more Nuada carbon capture today!

CRN
NI612857
Founded
2012
Age
14

Overview

Legal name
MOF TECHNOLOGIES LIMITED
Region
Northern Ireland
Registered address
9 MICHELIN ROAD
NEWTOWNABBEY
NORTHERN IRELAND
BT36 4PT
Insolvency history
No

Latest accounts

Financial period: 1 Jan 2024 to 31 Dec 2024

FULLACCOUNTS
Turnover
Unknown
Profit / Loss
Unknown
Employees
29

Company events

Reference milestones and recent Companies House filing stream events.

7 events
11 Dec
2026

Confirmation statement due

Confirmation Due

Next confirmation statement due date

30 Sep
2026

Accounts due

Accounts Due

Next accounts due date

27 Nov
2025

Confirmation statement filed

Confirmation

Last confirmation statement made up date

31 Dec
2024

Accounts filed

Accounts

Last accounts made up date

13 Sep
2024

Change Registered Office Address Company With Date Old Address New Address

Address

AD01 | Transaction MzQzNTU5NTgyN2FkaXF6a2N4

Published 13 Sep 2024 08:30

13 Sep
2024

Change Registered Office Address Company With Date Old Address New Address

Address

AD01 | Transaction MzQzNTU5MzEzN2FkaXF6a2N4

Published 13 Sep 2024 08:03

23 May
2012

Incorporated

Inception

Company registered at Companies House

Public funding

6 awards
First funded
2013
Funded years
2013, 2018, 2020, 2021, 2022, 2023
Age at first award
0 years

Projects

2023 Investment Accelerator Lead participant

CO2 capture from cement flue gas

1 Jan 2023 to 31 Dec 2024

Awarded
£899,853
Total cost £1,999,674

To fulfil the UK's Net-Zero targets, innovative solutions are required to decarbonise heavy industries, particularly cement production (which accounts for 7% of the global CO2 emissions). Existing carbon capture technology solutions (e.g., amine scrubbing) suffer from have high energy usage and associated operational costs, which has hindered their wide i...

2022 Collaborative R&D Lead participant

Accelerating the commercialisation of BREATHE (MOF-Based unit foR genErATing Hospital-gradE oxygen)

1 Jan 2022 to 31 Mar 2022

Awarded
£20,911
Total cost £29,873

The expanding pervasiveness of chronic obstructive pulmonary disease (COPD) and other lung disorders due to rising environmental pollution and changing lifestyles (smoking), the rising geriatric population which is prone to various respiratory disorders and the COVID-19 outbreak have resulted in an unforeseeable global demand for oxygen. To meet this incr...

2021 Collaborative R&D Lead participant

MOF-Based unit foR genErATing Hospital-gradE oxygen (BREATHE)

1 Jan 2021 to 31 Mar 2021

Awarded
£122,490
Total cost £153,113

As COVID-19 infection rates soar across the UK, the number of patients requiring hospital treatment increases proportionally. Unfortunately, there is not yet a targeted effective cure for COVID-19, however, it has been demonstrated that high-flow oxygen improves a patient's chances of survival. Unsurprisingly, the oxygen demand for hospital and home care ...

2020 Knowledge Transfer Partnership

Queen's university Belfast and MOF Technologies Limited

1 Mar 2020 to 28 Feb 2022

Awarded
Unknown

To formulate and shape metal organic frameworks to investigate a number of size enlargement techniques to increase the number of shaped products provided.

2018 Collaborative R&D Lead participant

Development of a Protoype MOF Coated Heat Exchanger for Heat Pump Applications

1 Jul 2018 to 31 Mar 2019

Awarded
£140,181
Total cost £200,259

This project aims to develop coherent Metal Organic Framework (MOF) based coatings for heat exchangers to be used in adsorption heat pumps. Adsorption heat pumps will allow industry to recover valuable waste heat that is currently discharged to the environment. Savings of up to £300m per year and a reduction in CO2 emissions of 2.2 million tons per year c...

2013 Vouchers Lead participant

Energy Innovation Voucher

1 Feb 2013 to 31 Jul 2013

Awarded
£5,000
Total cost £5,000

MOF Technologies will perform a economic and environmental evaluation of it's novel manufacturing technique, in partnership with a chemical engineering consultancy. Our technique promises lower-cost and cleaner synthesis of metal organic framework (MOF) nano-materials, which have a number of clean energy applications, including carbon capture and natural ...

Product types

Collaborative R&D Investment Accelerator Knowledge Transfer Partnership Vouchers