# RECOVER

**Source**: https://www.lboro.ac.uk/research/spotlights/recover/
**Parent**: https://www.lboro.ac.uk/research/spotlights/

Transforming forensic capabilities with a novel fingerprint development system

Developing fingerprints is a key forensic capability, but it is not always possible to lift usable prints from objects like discharged ammunition casings, IED fragments and cleaned weapons.

Our work developed and underpins a revolutionary new technology, [RECOVER](http://www.fosterfreeman.com/691-recover-lft.html) – a cutting-edge chemical vapour fuming process which provides unrivalled fingerprint development capabilities on even the most difficult surfaces.

Commercially available since 2018, it is now used by police forces worldwide.

## Our impact

### Inspiring confidence

- A Royal Canadian Mounted Police study demonstrated full print retrieval in 12% of bullet casings, and achieved unprecedented success in retrieving prints from mock-ups of IEDs.
- Police forces and government agencies worldwide have purchased, and are employing, the technology.

### Commercial venture and job creation

- Commercialisation partner [Foster & Freeman](http://www.fosterfreeman.com/) has established a laboratory on [Loughborough University Science and Enterprise Park](http://www.lusep.co.uk).
- The specialist facility employs two former University researchers in work that underpins the ongoing commercialisation process.

### Related fingerprinting activity

- We worked with Historic England and the police as part of [Operation Crucible](https://www.lboro.ac.uk/news-events/news/2014/september/155heritagecrime.html) to combat metal theft.
- Prior to their release into circulation in 2016, we worked with the Bank of England on print retrieval from the plastic £5 notes.

[Dstl video about RECOVER](https://vimeo.com/244614194)

[OCSO Forensics Unit gets RECOVER](https://www.youtube.com/watch?v=MokfA4q6kKo)

## The research

In 2007, we made a serendipitous discovery – the fumes created during a polymerisation process we were running revealed fingerprints on the surface of a glass vial. Further research proved the technique, and we published our findings to widespread interest.

In 2011, we began work with [DSTL](https://www.gov.uk/government/organisations/defence-science-and-technology-laboratory) and [CAST](https://www.gov.uk/government/news/centre-for-applied-science-and-technology-cast-becomes-part-of-dstl) to maximise the potential of the process and tailor it with three priorities in mind: safety, ease of use, and the route to commercialisation.

Concerns about safety were addressed by changing the way the active material is generated within the process. The other two priorities were tackled by global forensic manufacturer Foster & Freeman Ltd who joined the collaboration in 2017.

RECOVER was launched in 2018, marking a step change in crime detection and security.

> This fingerprint technology will make it much harder for criminals to escape justice.

**Harriett Baldwin MP**
Former Defence Minister

[There were 45,627 knife crimes in England and Wales during 2019](https://www.theguardian.com/uk-news/2020/apr/23/knife-offences-hit-record-high-in-2019-in-england-and-wales)

[In 2018, there were 6,521 firearms offences in England and Wales](https://www.bbc.co.uk/news/uk-england-47157967)

### Research funders

- DSTL

### Development partners

- DSTL
- Home Office (CAST)
- Foster & Freeman Ltd

## Commercialisation

The technique – discovered and validated at Loughborough – was developed in collaboration with DSTL and CAST. Foster & Freeman Ltd joined the partnership, providing the necessary expertise to refine and optimise the technology for the security marketplace.

The new fingerprint development system – RECOVER – was commercially launched in late 2018.

## Meet the experts

### [Professor Paul Kelly](https://www.lboro.ac.uk/departments/chemistry/staff/paul-kelly/)

#### Reader in Inorganic Chemistry

- [+44 (0) 1509 222 578](tel:+44 (0) 1509 222 578)
- [Send email](mailto:P.F.Kelly@lboro.ac.uk)

### Dr Roberto King

#### Former Postdoctoral Research Associate

Currently, Chief Technology Officer for Foster & Freeman

### Dr Beth McMurchie

#### Former PhD researcher

Currently, R&D Applications Specialist for Foster & Freeman