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Company profile

Nanomox Ltd

Sustainable Advanced Materials | Nanomox

Our team of specialists is focused on developing sustainable and cost-effective advanced materials for widespread applications of today and tomorrow.

CRN
12504507
Founded
2020
Age
6

Overview

Legal name
NANOMOX LTD
Region
Unknown
Registered address
THE ROYAL INSTITUTION
21 ALBEMARLE ST
LONDON
UNITED KINGDOM
W1S 4BS
Insolvency history
No

Latest accounts

Financial period: 1 Apr 2024 to 31 Mar 2025

FILLETEDACCOUNTS
Turnover
Unknown
Profit / Loss
Unknown
Employees
8

Company events

Reference milestones and recent Companies House filing stream events.

6 events
14 Apr
2027

Confirmation statement due

Confirmation Due

Next confirmation statement due date

31 Dec
2026

Accounts due

Accounts Due

Next accounts due date

31 Mar
2026

Confirmation statement filed

Confirmation

Last confirmation statement made up date

31 Mar
2025

Accounts filed

Accounts

Last accounts made up date

16 Sep
2024

Termination Director Company With Name Termination Date

Officers

TM01 | Transaction MzQzNTk5ODk4NmFkaXF6a2N4

Published 16 Sep 2024 11:35

09 Mar
2020

Incorporated

Inception

Company registered at Companies House

Public funding

11 awards
First funded
2022
Funded years
2022, 2023, 2024, 2025, 2026
Age at first award
1 years

Projects

2026 Investment Accelerator Lead participant

Catalyst I - Scaling Nanomox® OIS® Technology for Sustainable Zinc Oxide Production and Clean Material Innovation

1 Jan 2026 to 31 Aug 2027

Awarded
£699,310
Total cost £999,014

Nanomox is launching a scale-up project to commercialise its proprietary OIS(r) (Oxidative Ionothermal Synthesis) process for producing high-purity zinc oxide (ZnO), tailored for use in cosmetics and personal care. This innovation responds to a global shift away from chemical UV filters---many of which are under regulatory and environmental pressure---tow...

2026 Business Connect Lead participant

RePaint: Valorising Paint Filter Cake into High-Value Materials

1 Jan 2026 to 31 Mar 2026

Awarded
£24,907
Total cost £24,907

This project turns water-based paint "filter cake"---a sludge generated when cleaning mixing vessels and filling lines---into useful materials for construction and manufacturing. Instead of sending this residue to disposal, we will demonstrate practical, offsite pathways that create value while reducing environmental impact. Our approach combines two comp...

2025 Department for Science, Innovation & Technology Lead participant

Magnesium Valorisation for Next-Level Impact in Future Yield and Sustainability (MAGNIFY)

1 Nov 2025 to 31 Mar 2026

Awarded
£210,888
Total cost £210,888

MAGNIFY is an ambitious UK project that will demonstrate a cleaner, more resource-efficient way of producing magnesium compounds from waste. Magnesium oxide (MgO) and magnesium hydroxide \[Mg(OH)₂\] are vital materials used in construction, refractories, pharmaceuticals, and environmental technologies. However, almost all UK demand is currently met by imp...

2024 Missions Lead participant

MAGSIN - Magnesium Synergy Initiative

1 Sep 2024 to 31 Aug 2025

Awarded
£85,876
Total cost £122,680

The MAGSIN (Magnesium Synergy Initiative) Project, led by Nanomox Ltd, a UK-based innovative materials company, in collaboration with SIGMA Devtech, a Canadian-Quebec company, aims to revolutionize the magnesium supply chain while addressing the growing demand for critical minerals in high-tech applications. Magnesium, a critical mineral in both the UK an...

2024 Collaborative R&D Lead participant

OIS(R) as a Sustainable Alternative to Hydrometallurgical Processes

1 Aug 2024 to 31 Jul 2025

Awarded
£111,781
Total cost £159,688

We're facing a pressing need to improve and strengthen the supply chain of rare earth elements (REEs) to keep up with growing demands. If we don't address this demand-supply gap for essential REEs by 2035, it will directly impact technologies crucial for everyday life and reduce the impact of climate change, including wind turbines, solar panels, electric...

2024 Collaborative R&D Lead participant

Oxidative Ionothermal Synthesis-based Iron Extraction

1 May 2024 to 31 Jul 2024

Awarded
£24,604
Total cost £24,604

Nanomox Ltd is embarking on an exciting project to explore the potential of their innovative process, Oxidative Ionothermal Synthesis (OIS(r)), for selective extraction of iron from a mixture of metal powders. OIS(r) is a sustainable and environmentally friendly approach that uses wet chemistry to recover metals and produce advanced nanomaterials. Unlike ...

2023 Feasibility Studies Lead participant

REEMAG - Closing the loop on REEs for MAGnets

1 Oct 2023 to 30 Sep 2024

Awarded
£156,114
Total cost £223,020

Nanomox Ltd is embarking on an exciting project to explore the potential of their innovative manufacturing process, Oxidative Ionothermal Synthesis (OIS), for recycling Rare Earth Elements (REEs) and manufacturing nanomaterials. OIS is a sustainable and environmentally friendly approach that uses wet chemistry to recover metals and produce advanced nanoma...

2023 Launchpad Lead participant

Advanced zinc oxide for high-tech coatings

1 Mar 2023 to 30 Nov 2023

Awarded
£80,782
Total cost £80,782

Nanomox has developed a cost-effective and sustainable metal oxidation method, Oxidative Ionothermal Synthesis (OIS), to produce advanced inorganic materials. This process uses ionic liquids (green solvents that can be readily recycled) at low temperatures (<120°C) for the direct oxidation of metals, such as zinc. Preliminary techno-economic and sustainab...

2022 Demonstrator

Mevocrete: The Scale up of Material Evolution technology for net zero emission concrete

1 Sep 2022 to 31 Aug 2024

Awarded
£48,395
Total cost £107,544

Concrete's main carbon emitter is Ordinary Portland Cement (OPC) which equates to around 5% of the world's CO2 emissions. In 2019, production plants in Britain produced over 9million tonnes of cement, equating to over 700million tonnes of CO2 (Barcelo, 2020). There is a clear need to radically and radically decarbonise the foundation industries. This proj...

2022 Collaborative R&D Lead participant

Sustainable transformation of metallic wastes from the steel industry into advanced zinc oxide

1 Feb 2022 to 31 Jan 2023

Awarded
£48,856
Total cost £69,794

Nanomox has developed a cost-effective and sustainable metal oxidation method, Oxidative Ionothermal Synthesis (OIS), to produce advanced inorganic materials. This process uses ionic liquids (green solvents that can be readily recycled) at low temperatures (<120°C) for the direct oxidation of metals, such as zinc. Preliminary techno-economic and sustainab...

2022 Demonstrator Lead participant

Closing the loop on zinc oxide - transforming foundation industry waste to value

1 Feb 2022 to 31 Mar 2022

Awarded
£15,000
Total cost £15,000

Nanomox has developed a cost-effective and sustainable metal oxidation method, Oxidative Ionothermal Synthesis (OIS), to produce advanced inorganic materials. This process uses ionic liquids (green solvents that can be readily recycled) at low temperatures (<120°C) for the direct oxidation of metals, such as zinc. Preliminary techno-economic and sustainab...

Product types

Business Connect Collaborative R&D Demonstrator Department for Science, Innovation & Technology Feasibility Studies Investment Accelerator Launchpad Missions