Biosensors for Food Analysis: Development and Applications
(2004)- Abstract
- Reliable analytical methods are increasingly needed in the food and beverage industry for the determination of specific components (e.g. sugars, proteins, vitamins, fats) and for detecting and quantifying chemical contaminants such as pesticides, heavy metals, antibiotics, and pathogenic microorganisms. The need arises from numerous regulatory actions and increased consumer concern about food composition and safety. The producers conventionally utilize analytical techniques such as spectrophotometry and chromatography, which do not always allow easy and continuous monitoring, are rather expensive, need well trained operators and often require sample pre-treatment steps, resulting in increased time and low cost-effectiveness of the... (More)
- Reliable analytical methods are increasingly needed in the food and beverage industry for the determination of specific components (e.g. sugars, proteins, vitamins, fats) and for detecting and quantifying chemical contaminants such as pesticides, heavy metals, antibiotics, and pathogenic microorganisms. The need arises from numerous regulatory actions and increased consumer concern about food composition and safety. The producers conventionally utilize analytical techniques such as spectrophotometry and chromatography, which do not always allow easy and continuous monitoring, are rather expensive, need well trained operators and often require sample pre-treatment steps, resulting in increased time and low cost-effectiveness of the analysis. Biosensors offer a promising alternative to the classical analytical methods. Besides their good selectivity and low cost, they can easily be integrated in automation schemes and used to develop simple and even portable equipment, allowing fast in-situ monitoring of raw materials and food processing steps.The aim of this thesis is to review the current situation and future possibilities for the development and applications of biosensors in the food and beverage industry. Focus is placed on particular aspects related to elucidation of the working mechanisms of biosensing systems, optimisation of operating parameters, miniaturization, automation, and determination of food constituents in real samples. (Less)
Please use this url to cite or link to this publication:
https://lup.lub.lu.se/record/467510
- author
- Nistor, Mihaela LU
- supervisor
- opponent
-
- Professor Dominguez, Elena, Department of Analytical Chemistry, Faculty of Pharmacy, University of Alcala, Madrid, Spain
- organization
- publishing date
- 2004
- type
- Thesis
- publication status
- published
- subject
- keywords
- Bioteknik, Food and drink technology, Analytisk kemi, Analytical chemistry, on-line monitoring, flow injection, enzyme, amperometric detection, Biosensor, electrode, Livsmedelsteknik, Biotechnology
- pages
- 150 pages
- publisher
- Mihaela Nistor, Biotechnology Department, LTH,
- defense location
- Hall B, Center for Chemistry and Chemical Engineering, Lund Institute of Technology
- defense date
- 2004-11-25 10:30:00
- external identifiers
-
- other:ISRN: LUTKDH/TKBT-04/1077-SE
- ISBN
- 91-89627-24-5
- language
- English
- LU publication?
- yes
- additional info
- Article: I. Electrooxidation mechanism of biogenic amines at amine oxidase modified graphite electrodeM. Niculescu, T. Ruzgas, C. Nistor, I. Frébort, M. Šebela, P. Peè, E. CsöregiAnalytical Chemistry, 72 (2000) 5988-5993. Article: II. Redox hydrogel-based amperometric bienzyme electrodes for fish freshness monitoringM. Niculescu, C. Nistor, I. Frébort, P. Peè, B. Mattiasson, E. CsöregiAnalytical Chemistry, 72 (2000) 1591-1597. Article: III. Quinohemoprotein alcohol dehydrogenase-based reagentless amperometric biosensor for ethanol monitoring during wine fermentationM. Niculescu, T. Erichsen, V. Sukharev, Z. Kerényi, E. Csöregi, W. SchuhmannAnaytica Chimica Acta, 463 (2002) 39-51. Article: IV. Simultaneous detection of ethanol, glucose and glycerol in wines using pyrroloquinoline quinone-dependent dehydrogenases based biosensorsM. Niculescu, R. Mieliauskiene, V. Laurinavicius, E. CsöregiFood Chemistry, 82 (2003) 481-489. Article: V. Visualization of micropatterned complex biosensor sensing chemistries by means of scanning electrochemical microscopyM. Niculescu, S. Gáspár, A. Schulte, E. Csöregi, W. SchuhmannBiosensors & Bioelectronics, 19 (2004) 1175-1184. Article: VI. Glycerol dehydrogenase based amperometric biosensor for monitoring of glycerol in alcoholic beveragesM. Niculescu, S. Sigina, E. CsöregiAnalytical Letters, 36 (2003) 1721-1737. Article: VII. Amperometric determination of acetate with a tri-enzyme based sensorM. Niculescu, R. Mieliauskiene, V. Laurinavicius, E. CsöregiBiosensors & Bioelectronics, submitted.
- id
- eedc9fd9-4570-4797-933e-e5a91f2716d1 (old id 467510)
- date added to LUP
- 2016-04-04 11:27:51
- date last changed
- 2018-11-21 21:05:01
@phdthesis{eedc9fd9-4570-4797-933e-e5a91f2716d1, abstract = {{Reliable analytical methods are increasingly needed in the food and beverage industry for the determination of specific components (e.g. sugars, proteins, vitamins, fats) and for detecting and quantifying chemical contaminants such as pesticides, heavy metals, antibiotics, and pathogenic microorganisms. The need arises from numerous regulatory actions and increased consumer concern about food composition and safety. The producers conventionally utilize analytical techniques such as spectrophotometry and chromatography, which do not always allow easy and continuous monitoring, are rather expensive, need well trained operators and often require sample pre-treatment steps, resulting in increased time and low cost-effectiveness of the analysis. Biosensors offer a promising alternative to the classical analytical methods. Besides their good selectivity and low cost, they can easily be integrated in automation schemes and used to develop simple and even portable equipment, allowing fast in-situ monitoring of raw materials and food processing steps.The aim of this thesis is to review the current situation and future possibilities for the development and applications of biosensors in the food and beverage industry. Focus is placed on particular aspects related to elucidation of the working mechanisms of biosensing systems, optimisation of operating parameters, miniaturization, automation, and determination of food constituents in real samples.}}, author = {{Nistor, Mihaela}}, isbn = {{91-89627-24-5}}, keywords = {{Bioteknik; Food and drink technology; Analytisk kemi; Analytical chemistry; on-line monitoring; flow injection; enzyme; amperometric detection; Biosensor; electrode; Livsmedelsteknik; Biotechnology}}, language = {{eng}}, publisher = {{Mihaela Nistor, Biotechnology Department, LTH,}}, school = {{Lund University}}, title = {{Biosensors for Food Analysis: Development and Applications}}, year = {{2004}}, }