The nanomaterial, consisting of semiconductor particles that are a million times smaller than a millimetre, is luminescent.
All one will need to do is: sprinkle the nanomaterial on the surface where fingerprint has been left behind, capture the image and use a UV lamp and process it to reconstruct the fingerprint.
Researchers said that such fingerprints could be captured using a mobile phone too and transmitted to forensic lab from any crime scene.
The new material has been developed by doping manganese and copper atoms on zinc sulphide nanosystem.
By replacing zinc atoms with those of copper and manganese, researchers could change the optical properties of zinc sulphide nanosystem. When this material is applied to latent fingerprints, its strong visible luminescence property helps decipher fingerprints.
In laboratory experiments, the nanoparticles could help identify all the minute patterns of fingerprints such as island, fork, core, bifurcation, short ridge and ridge ending even with fingerprints that were two months old.
The ridge patterns of the human finger produce a unique fingerprint. When human fingers touch a surface, secretions present at the surface of the skin get transferred to the surface leaving an impression of the ridge pattern.
“The finely-resolved intensity patterns of fingerprints that this material yields shows that it has great usefulness in meeting the various demands in latent fingerprint detection,” Dr. Chandra S. Tiwary, a member of the research team at Indian Institute of Technology Kharagpur, told India Science Wire.
Researchers plan to improve the light emission efficiency of the nanomaterial and also develop a smart portable device for application in the forensic sector for online retrieval of data and identification of latent fingerprints. The group has also used the new material to develop white LED.
The material has been developed at Nanoscience Laboratory, National Institute of Technology (NIT) Durgapur. The research team included Partha Kumbhakar, Subrata Biswas, Pathik Kumbhakar (NIT); Prafulla Pandey (IIT, Gandhinagar) and Chandra S. Tiwary (IIT Kharagpur). The research results have been published in journal Nanoscale.
Source: TBI
Image Courtesy:QDiscovery
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