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Applied Materials Technology Limited

Applied Materials Technology Limited is a UK company with status active founded in 2002 based in East Midlands.

CRN
04463294
Founded
2002
Age
24

Overview

Legal name
APPLIED MATERIALS TECHNOLOGY LIMITED
Region
East Midlands
Registered address
TOWER HOUSE
LUCY TOWER STREET
LINCOLN
LN1 1XW
Insolvency history
No

Latest accounts

Financial period: 1 Jul 2023 to 30 Jun 2024

FULLACCOUNTS
Turnover
Unknown
Profit / Loss
Unknown
Employees
0

Company events

Reference milestones and recent Companies House filing stream events.

6 events
27 Mar
2027

Accounts due

Accounts Due

Next accounts due date

12 Feb
2027

Confirmation statement due

Confirmation Due

Next confirmation statement due date

29 Jan
2026

Confirmation statement filed

Confirmation

Last confirmation statement made up date

30 Jun
2025

Accounts filed

Accounts

Last accounts made up date

12 Nov
2024

Gazette Notice Compulsory

Gazette

GAZ1 | Transaction MzQ0MTUzNjI5M2FkaXF6a2N4 | Paper/PDF filed

Published 08 Nov 2024 12:34

18 Jun
2002

Incorporated

Inception

Company registered at Companies House

Public funding

9 awards
First funded
2013
Funded years
2013, 2014, 2015, 2016, 2019
Age at first award
10 years

Projects

2019 Feasibility Studies Lead participant

Metelled – METal Evolved by Linear LasEr Deposition

1 Jun 2019 to 31 May 2020

Awarded
£84,151
Total cost £120,215

"Metelled conceives a new method in additive manufacturing (AM) creating both new exploitation strategies and employment opportunities. It could offer a new avenue to the applicability and diversity that metal AM technology offers. New larger scale deposition, with micro features, optimal energy management and low cost production will be possible using th...

2016 Feasibility Studies Lead participant

Flexible Thermographic Borescope with Pyroelectric detection

1 May 2016 to 31 Jan 2017

Awarded
£34,977
Total cost £49,968

Flexible Thermographic Borescope with Pyroelectric Detection to allow inspection of components in difficult to reach or hazardous areas. The Flexible Thermographic Borescope with Pyroelectric Detection project will undertake the miniaturisation of the non-destructive evaluation (NDE) technique 'active thermography' with the development of a pyroelectric d...

2016 Feasibility Studies Lead participant

Low-cost Spatial Beam Combination enabling UV Laser Diode Arrays for Stereolithography

1 Apr 2016 to 30 Jun 2017

Awarded
£71,475
Total cost £102,107

Additive layer manufacturing (ALM) has revolutionised the near-net-shape fabrication of precision componentsand advanced cellular and microlattice materials in industries such as aerospace, automotive & medicaldevices. The laser is the primary component and expense in ALM machines but despite high costs (>£25k), thecost and performance of current laser so...

2015 Feasibility Studies Lead participant

Low Cost Copper Transparent Electrode Material (LOCUST)

1 Dec 2015 to 28 Feb 2017

Awarded
£67,398
Total cost £96,296

Transparent conductive electrode (TCE) is an essential component for solar cells and other devices such as displays, currently indium tin oxide (ITO) and silver are the prevailing choices. ITO and silver are however expensive. ITO has limited supply, and tends to degrade in performance under stress, so ITO-replacement TCEs have attracted extensive interes...

2014 Collaborative R&D Lead participant

Shell HIP Shaping Process (SHIPSHAPE)

1 Sep 2014 to 28 Feb 2017

Awarded
£73,320
Total cost £142,612

The SHIPSHAPE project unlocks the commercial potential of the Powder-HIP process. In Powder-HIP a sacrificial metal canister is filled with fine metallic powder which is then consolidated at high pressure and temperature, in a Hot Isostatic Pressure (HIP) vessel, to form a fully dense part. Powder-HIP provides an effective method of producing complex, hig...

2014 Collaborative R&D Lead participant

The safe portable phototherapy treatment for hyperbilirubinemia in babies

1 Jan 2014 to 31 Dec 2015

Awarded
£195,715
Total cost £326,192

Project 228135 develops a portable phototherapy device for the mobile treatment of skin conditions.

2013 Collaborative R&D

Integrated Power Modules for Hybrid and Electric Vehicles

1 Nov 2013 to 31 Jan 2016

Awarded
£102,287
Total cost £170,479

A collaborative project will be undertaken between Versarien Technologies Limited, Applied Materials Technology Limited and Dynex Semiconductor Limited which will seek to develop a technology capable of providing world leading thermal management specifically for use in the power electronic modules of electric vehicles and plug-in hybrid electric vehicles....

2013 GRD Development of Prototype Lead participant

Applied Materials Technology Limited - Low Cost Custom Laser Reflectors

1 Oct 2013 to 30 Sep 2014

Awarded
£84,218
Total cost £187,150

Applied Materials Technology (AMT) proposes a 12 month, £187k, development of prototype project to progress Decoupleable Deformable Mirrors (DDM), a novel approach to the production of affordable, custom, high precision mirrors for optical devices. DDM will allow beam quality to be transformed i.e. from a highly aberrated beam to M2 approaching 1.1. AMT w...

2013 Feasibility Studies

Feasibility of manufacturing a novel Power Electronic Module (PEM) providing a step change in component weight, power density & compactness for application in the high growth hybrid & electric vehicle sectors.

1 Mar 2013 to 30 Jun 2013

Awarded
£11,792
Total cost £15,722

The project explores the feasibility of developing a novel power electronic module for initial application in the hybrid and electric vehicle market. It is targeted at reducing the size and weight of the unit whilst also increasing the power density. The project will explore key manufacturing processes to ensure key components can be effectively and relia...

Product types

Collaborative R&D Feasibility Studies GRD Development of Prototype