Company Active LTD

Company profile

Oxford Nanosystems Ltd

Oxford nanoSystems Advanced Coating Technologies

Oxford Nanosystems Ltd is a UK company with status active founded in 2011 based in South East England.

CRN
07523447
Founded
2011
Age
15

Overview

Legal name
ATLANTIC NANOSYSTEMS LTD
Region
South East England
Registered address
6-7 CITIBASE NEW BARCLAY HOUSE
234 BOTLEY ROAD
OXFORD
ENGLAND
OX2 0HP
Insolvency history
No

Company events

Reference milestones and recent Companies House filing stream events.

5 events
30 Jun
2027

Accounts due

Accounts Due

Next accounts due date

23 Mar
2027

Confirmation statement due

Confirmation Due

Next confirmation statement due date

09 Mar
2026

Confirmation statement filed

Confirmation

Last confirmation statement made up date

30 Sep
2025

Accounts filed

Accounts

Last accounts made up date

09 Feb
2011

Incorporated

Inception

Company registered at Companies House

Public funding

16 awards
First funded
2013
Funded years
2013, 2015, 2016, 2018, 2019, 2020, 2022, 2023, 2024
Age at first award
2 years

Projects

2024 Collaborative R&D Lead participant

Scale-up of innovative electrolyser coating technology: SICT

1 Sep 2024 to 28 Feb 2025

Awarded
£25,772
Total cost £42,954

**Oxford nanoSystems Ltd (OnS)** has developed nanoFLUX, a revolutionary nano-coating designed to optimize the efficiency of two-phase heat-exchangers. With a commitment to eco-friendly and cost-effective solutions, nanoFLUX introduces a highly porous coating that amplifies nucleation site density by over 10,000-fold, resulting in a remarkable increase in...

2023 Collaborative R&D Lead participant

Nanocoating improvements for Hydrogen Generation - R6 Cont

1 Jan 2023 to 31 Mar 2023

Awarded
£28,454
Total cost £47,423

Oxford nanoSystems Ltd (OnS) is a high-tech start-up that spent the past 6 years developing nanoFLUX -- a nano-coating which dramatically improves the efficiency of two-phase heat-exchangers, such as evaporators. Our core technology, nanoFLUX is a highly-porous coating that enhances evaporative heat transfer by significantly increasing the density of nucl...

2022 Collaborative R&D Lead participant

Nanocatalyst improved electrolysers

1 Jul 2022 to 31 Dec 2023

Awarded
£176,296
Total cost £251,851

In 2019, the UK passed legislation requiring it to become a 'net zero' emitter of CO2 by 2050\. Analysis by BEIS and CCC shows the energy system will require significant amounts of low-carbon hydrogen (BEIS: 150-450TWh by 2050 and CCC 2020 report: "By 2050, a new low carbon industry is needed, with UK hydrogen production capacity of comparable size to the...

2022 Collaborative R&D Lead participant

Nanocoating improvements for Hydrogen Generation

1 Jan 2022 to 31 Mar 2022

Awarded
£7,824
Total cost £7,824

Oxford nanoSystems Ltd (OnS) is a high-tech start-up that spent the past 6 years developing nanoFLUX -- a nano-coating which dramatically improves the efficiency of two-phase heat-exchangers, such as evaporators. Our core technology, nanoFLUX is a highly-porous coating that enhances evaporative heat transfer by significantly increasing the density of nucl...

2020 Collaborative R&D Lead participant

I-GREEN: Improved Green Refrigeration For A Sustainable Future

1 Nov 2020 to 30 Apr 2021

Awarded
£98,694
Total cost £98,694

Oxford nanoSystems Ltd (OnS) is a high-tech start-up that has developed a unique coating technology to improve the efficiency of heat transfer. OnS was founded in 2012 and has spent the past 5 years developing nanoFLUX; a nano-coating which dramatically improves the efficiency of two-phase heat-exchangers, such as evaporators. OnS focuses on the air condi...

2020 Collaborative R&D Lead participant

Analysis for Innovators Round 5: Phase 2 de minimis

1 Aug 2020 to 30 Nov 2020

Awarded
£8,939
Total cost £8,939

Oxford nanoSystems Ltd (OnS) is a high-tech start-up located in Abingdon that has developed a unique coating technology to improve the efficiency of heat transfer. OnS was founded in 2012 and has spent the past 5 years developing nanoFLUX -- a nano-coating which dramatically improves the efficiency of two-phase heat-exchangers such as evaporators. Up to n...

2020 Feasibility Studies Lead participant

Covid Continuity of electroFLUX

1 Jun 2020 to 30 Nov 2020

Awarded
£89,571
Total cost £89,571

no public description

2019 Collaborative R&D Lead participant

electroFLUX: Electronics cooling enhancement using micro and nanostructures

1 Sep 2019 to 28 Feb 2021

Awarded
£347,138
Total cost £495,912

Oxford nanoSystems Ltd (OnS) is a high-tech start-up that has developed a unique coating technology to improve the efficiency of heat transfer. OnS was founded in 2012 and has spent the past 6 years developing nanoFLUX -- a nano-coating which dramatically improves the efficiency of two-phase heat-exchangers such as evaporators. Up to now, OnS has focused ...

2018 Collaborative R&D Lead participant

CryoHex - Ultra-efficient cryogenic heat exchangers for liquid air energy storage

1 Jul 2018 to 31 Mar 2019

Awarded
£107,688
Total cost £153,840

Renewable energy sources in the electricity sector will reach a global share of 60% by 2040, while the global demand for cooling in 2060 will overtake demand for heating. If nothing is done emissions will rise of over 1 billion of tonnes per year while 100s of extra GW in demand will threat the supply of clean energy. Liquid air energy storage (LAES) prov...

2018 Feasibility Studies Lead participant

microFLUX - Microchannel Fabrication for Large Upgraded eXchangers

1 Jan 2018 to 31 Mar 2019

Awarded
£65,380
Total cost £93,400

"Heat exchangers are used in a range of domestic and industrial applications from Air Conditioning, refrigeration and domestic heating, to chemical refinement and electricity production. Heat exchangers that boil a liquid are called two phase heat exchangers and are more commonly used in cooling applications. Currently, these heat exchangers are very inef...

2016 Feasibility Studies Lead participant

Thermodynamically Efficient Heat EXchangers - TEHEX

1 Mar 2016 to 31 Jul 2017

Awarded
£119,500
Total cost £170,795

TEHEx aims to transform the economics of waste heat recovery (WHR) for electricity generation by moving the calculation point of where low grade heat becomes economic, and to provide an enabling technology wherever 'boiling heat transfer' is used in energy processes. More efficient and lower cost heat exchangers would extend WHR growth to less economic so...

2015 Feasibility Studies Lead participant

ECHiPCHeP - Electronics Cooling via Hi Performance Coated Heat Pipes

1 Apr 2015 to 31 Mar 2016

Awarded
£71,100
Total cost £94,799

Heat Pipes are vital to the thermal management of high performance silicon chips and are present in virtually every new laptop computer. Thermacore is a world leader in heat pipe technology and specialises in thermal management of high performance electronic devices such as for military applications. To protect and expand its position at the high end of t...

Product types

Collaborative R&D Feasibility Studies Launchpad Vouchers