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Company profile

Rheon Labs Ltd

Engineered with RHEON - the energy-absorbing superpolymer

RHEON is an energy-absorbing super polymer. Born out of NASA and developed for over 15 years at Imperial College in London.

CRN
10828503
Founded
2017
Age
9

Overview

Legal name
RHEON LABS LTD
Region
London
Registered address
1 BROUGHTON STREET
BATTERSEA
LONDON
ENGLAND
SW8 3QJ
Insolvency history
No

Corporate ownership

Updated 06 Jun 2026 16:52

Rheon Labs Ltd
No active corporate controller recorded.

Latest accounts

Financial period: 1 Jan 2024 to 31 Dec 2024

FULLACCOUNTS
Turnover
Unknown
Profit / Loss
-£1,983,965
Employees
29

Company events

Reference milestones and recent Companies House filing stream events.

6 events
30 Sep
2026

Accounts due

Accounts Due

Next accounts due date

02 Jul
2026

Confirmation statement due

Confirmation Due

Next confirmation statement due date

23 Jun
2026

Accounts With Accounts Type Group

Accounts Analysed

AA | Transaction MzUyNzkxMzg1MGFkaXF6a2N4

Published 23 Jun 2026 15:22

18 Jun
2025

Confirmation statement filed

Confirmation

Last confirmation statement made up date

31 Dec
2024

Accounts filed

Accounts

Last accounts made up date

21 Jun
2017

Incorporated

Inception

Company registered at Companies House

Public funding

6 awards
First funded
2018
Funded years
2018, 2021, 2022, 2024, 2025
Age at first award
0 years

Projects

2025 Knowledge Transfer Partnership

The University of Leeds and Rheon Labs Limited KTP 23_24 R6

31 Jan 2025 to 31 Jul 2026

Awarded
£0
Total cost £0

To revolutionise athletic apparel, RHEON Labs and the University of Leeds are partnering on a ground-breaking project. We will optimize and scale innovative RHEON Fibres, bringing dynamic support to sports bras. This collaboration merges RL's industry leadership with academic expertise, commercialising a novel fibre redefining the standards of performance...

2024 Collaborative R&D Lead participant

ARI (Augmented Rheon Intelligence) - AI driven design of Rheon garments

1 Oct 2024 to 31 Mar 2025

Awarded
£24,912
Total cost £24,912

This project is a collaboration between Rheon Labs and UWE Bristol's Computer Science and Creative Technologies School. ARI - Augmented Rheon Intelligence, will be the first AI driven design tool for dynamic body control garments. Rheon Labs' design focuses on leveraging the strain-rate-sensitive (SRS) properties of their RHEON(tm) polymer material and en...

2024 Collaborative R&D Lead participant

Gas pocket formation in film production: analysis and characterisation

1 May 2024 to 31 Oct 2024

Awarded
£14,991
Total cost £24,985

This project focuses an innovative approach to address a critical challenge in RHEON Labs' reactivewear manufacturing process. The focus is on the analysis and characterisation of sporadic gas bubble formations that disrupt the surface of RHEON film patterns during the heat lamination process. This project aims to employ advanced surface analysis techniqu...

2022 Collaborative R&D Lead participant

Re-use of injection moulding waste for Additive Manufacturing Rheon (Re- Rheon 3D)

1 Apr 2022 to 31 Mar 2023

Awarded
£59,202
Total cost £84,574

Re-Rheon 3D aims to address the reuse and upcycling of polymer waste generated during injection moulding, while creating the world's first strain-rate sensitive material for 3d printing. This is a collaborative initiative between Rheon Labs Ltd and the Additive Manufacturing Centre of Excellence and will focus on the development of a circular process for ...

2021 Feasibility Studies Lead participant

Hyper-Viscoelastic Fibre Extrusion for Textile Manufacture

1 Oct 2021 to 31 Mar 2022

Awarded
£173,442
Total cost £247,747

Imagine a new generation of stretch textile that didn't just behave like a spring but could also actively dampen and/or control energy. Imagine the radical impact that this could have on the market. This could be as radical a change in the market as the initial introduction of stretch fibre with the launch of Lycra(tm). Rheon Labs is a fast-growing materi...

2018 Study Lead participant

Re-inventing the Shin Guard: Groundbreaking Design with Smart Materials

1 Feb 2018 to 31 Oct 2018

Awarded
£55,141
Total cost £78,773

The traditional football shin pad has remained unchanged for over a decade. Essentially a stiff, one-size-fits-all, solid moulded item backed by commodity foam, existing products are stiff and uncomfortable. However, they must be used for every match as stipulated by FIFA and the FA. Even leading brands who pride themselves on 'innovation' use the same ap...

Product types

Collaborative R&D Feasibility Studies Knowledge Transfer Partnership Study