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Company profile

Woodrow Scientific Limited

Woodrow Scientific

Woodrow Scientific Limited is a UK company with status active founded in 2012 based in South East England.

CRN
08060443
Founded
2012
Age
14

Overview

Legal name
WOODROW SCIENTIFIC LIMITED
Region
South East England
Registered address
UNIT A6 ADANAC DRIVE
NURSLING
SOUTHAMPTON
HAMPSHIRE
ENGLAND
SO16 0AU
Insolvency history
No

Latest accounts

Financial period: 1 Jun 2024 to 31 May 2025

FILLETEDACCOUNTS
Turnover
Unknown
Profit / Loss
Unknown
Employees
7

Company events

Reference milestones and recent Companies House filing stream events.

5 events
22 May
2027

Confirmation statement due

Confirmation Due

Next confirmation statement due date

28 Feb
2027

Accounts due

Accounts Due

Next accounts due date

08 May
2026

Confirmation statement filed

Confirmation

Last confirmation statement made up date

31 May
2025

Accounts filed

Accounts

Last accounts made up date

08 May
2012

Incorporated

Inception

Company registered at Companies House

Public funding

6 awards
First funded
2013
Funded years
2013, 2022, 2023, 2024
Age at first award
0 years

Projects

2024 Collaborative R&D Lead participant

STARLASE - Technology to Establish UK Leadership in Laser Satellite Communications and to Enable Mass Adoption of Optical Ground Stations

1 Jul 2024 to 31 Dec 2025

Awarded
£146,559
Total cost £209,370

The STARLASE project will develop a world-first "multi-mission capable" high-power optical transceiver to address the global need for high-speed optical modems and high-power laser amplifiers to underpin the expanding Space Based Laser Communications market. This market is growing exponentially, forecast to exceed £3.4 Billion by 2031 and is fast becoming...

2024 Collaborative R&D Lead participant

COMPLASE - COMPliant eye-safe LASEr-cleaning systems for sustainable surface cleaning

1 Jun 2024 to 30 Nov 2024

Awarded
£48,364
Total cost £48,364

Surface cleaning tasks, in the home, offices, shop-floors, shops and hospitals, all utilise chemicals, abrasives and consumables. Through their manufacture, packaging, shipping and disposal, these consumables impact the health of our planet, making significant contribution towards rising global carbon emissions. Imagine a cleaning process that doesn't use...

2023 Collaborative R&D Lead participant

"LASERCLEAN-CE" - Automated Laser-Cleaning Rejuvenation of 3D-Metallic Components for Re-use within the Circular Economy

1 May 2023 to 30 Apr 2024

Awarded
£58,962
Total cost £84,232

Approximately 23% of a petrol vehicle's lifetime carbon emissions are generated during its production and this value increases to 46% for a wholly-electric vehicle. To minimise carbon emissions and transition towards a zero-carbon economy, it is essential that we find a way of maintaining our used vehicle stock on the road for as long as possible. "Green"...

2023 Collaborative R&D Lead participant

HALIDE - MegaWatt Pulsed Eyesafe Laser Technology to Disrupt and Expand Global Cleaning Markets

1 Jan 2023 to 31 Mar 2024

Awarded
£158,259
Total cost £226,084

The HALIDE project addresses the global challenge to achieve clean-growth by developing game-changing laser technology that will totally disrupt industrial laser-cleaning markets and enable use of laser-cleaning technology within publicly-accessible spaces. Providing 10X power increases over commercial state-of-art, the project will develop novel optical ...

2022 Collaborative R&D Lead participant

"ELASER" - Eye-safe LASER cleaning - eliminating water, chemicals and abrasives from cleaning processes

1 Mar 2022 to 31 May 2023

Awarded
£226,282
Total cost £323,260

Everyday cleaning activities, whether in the home, offices, shop-floors or hospitals, all utilise chemicals, abrasives and consumables. Through their manufacture, packaging, shipping and disposal, these consumables impact the health of our planet. Can you imagine a cleaning process that doesn't use water, chemicals or abrasives and involves no consumables...

2013 GRD Proof of Concept Lead participant

LIRON - Next Generation, Environmentally Friendly Domestic Laundry Equipment

1 Feb 2013 to 31 Jan 2014

Awarded
£45,802
Total cost £76,337

With energy and water prices soaring there is a constant drive towards more energy efficient and water efficient laundry technology within the home. The average domestic washing machine uses approximately 50 litres of water and consumes 1KWhr electricity per wash. At more than 270 washed per year on average, water usage is staggering, with the US domestic...

Product types

Collaborative R&D GRD Proof of Concept