Recently, the use of smell in different fields has been rediscovered due to major advances in odour sensing technology and artificial intelligence. However, current electronic noses, based on electronic sensors, have significant limitations concerning sensitivity, reliability and selectivity, amongst others. These limitations are at the basis of recurrent troubles of this technology to reach essential applications in different areas, such as food safety, diagnosis, security, environment… The present project proposes a new bioelectronic nose based on olfactory receptors in order to mimic the animal nose. For this aim, micro/nano, bio and information technologies will converge to develop an integrated bioelectronic analytical nanoplatform based on olfactory receptors for odour detection. Briefly, the basis of the nanobioplatform will be the olfactory receptors, prepared in the form of nanosomes immobilized onto the nanotransducers (NANO and BIO). An array of smart nanotransducers will acquire and process electronically the detected odour (NANO and INFORMATION). Such an easy-to-use nanobioplatform, with user-friendly interface and odorant identification algorithm, will detect and discriminate the odorants (NANO and INFORMATION). The scientific and technological challenges of the BOND project can only be solved by integrating a multidisciplinary consortium at European level with expertise in areas such as biotechnology, surface chemistry, nanofabrication, electronics and theoretical modelling. The partners involved in the BOND project are experienced partners used to work in large consortia with distributed laboratories all over the European Union and offer competences and resources to build a complementary partnership for the successful implementation of the nanobioplatform. Six of the eight partners have already successfully worked together in the European SPOT-NOSED project to produce a proof of concept of a bioelectronic sensor based on olfactory receptors