Τhe goals of this project involve: a. Development of methods, mechanisms, tools to verify the quality of olive oil and protect consumers from contamination of Greek traditional products and foods of high added value. b. the investigation of alternative screening techniques, which are fast, easier and more cost-effective, for the detection of contaminants in olive oil, even the most specialized (Mineral Oils, 3MCPD, QACs), with direct application to olive oil companies at low cost, and c. the commercial exploitation of the above in the CHEMICOTECHNIKI laboratory, which based in Crete, in order to attract customers from Greece and abroad.

The objectives of the project are:

1. To enable the exploitation of the characteristics of local products by quickly identifying them and diversifying them. In addition, to help local cheese shops and prevent consumer deception. 

2. The second objective of the proposal is to be able to identify positive brucella by controlling farmed milk and then to follow a universal blood collection in the animals of positive farms. At the same time, the method will enable continuous monitoring of farms easily and efficiently. A check that ensures the safety of the products produced, but at the same time will help to process milk exclusively from brucellosis-free farms.

The objectives of the project are:

a. Development of methods, mechanisms and tools for verifying the authenticity of honey and protecting consumers from fraud by adulteration in Greek traditional products and foods of high added value (honey).

b. Investigation of alternative screening techniques, such as spectroscopy methods based on innovative photonic approaches in conjunction with the application of computational methods of artificial intelligence pattern recognition, which provide speed, ease of measurement and low cost, for the verification of the authenticity of honey, with direct application to food businesses.

c. Commercial exploitation of the above in the CHEMICOTECHNIKI laboratory, which is based in Crete, in order to attract customers from Greece and abroad.

Optical spectroscopy methods combined with multivariate statistical analysis for the classification of Cretan thyme, multi-floral and honeydew honey

The botanical origin of honey attracts both commercial and research interest. Consumers’ preferences and medicinal uses of particular honey types drive the demand for the determination of their authenticity with regard to their botanical origin. This study presents the discrimination of thyme, multi-floral. and honeydew honeys by Fourier-transform infrared (FTIR) and ultraviolet (UV) absorption spectroscopy combined with multivariate statistical analysis. UV absorption spectroscopy was applied without any dilution of the sample using a custom-made cuvette. FTIR and UV absorption spectroscopic
data were processed by means of the orthogonal partial least squares discriminant analysis.
The optimal classification of floral and honeydew honeys was accomplished with UV spectroscopy with a successful estimation of 92.65% for floral honey and 91.30% for honeydew honey. The discrimination of thyme versus the multi-floral honey was best achieved with FTIR, with a correct classification of 95.56% and 100% for multi-floral and thyme honey respectively. Furthermore, our findings revealed the region of 2400–4000 cm−1 of the FTIR spectra as the most significant for this discrimination.
This work demonstrates that optical spectroscopic techniques in combination with multivariate statistical analysis can be a rapid, low-cost, easy-to-use approach for the determination of the botanical origin of honey without sample pretreatment.