Aufsätze in referierten Fachzeitschriften
- Malounas, I.; Vierbergen, W.; Kutluk, S.; Zude-Sasse, M.; Yang, K.; Zhao, M.; Argyropoulos, D.; Van Beek, J.; Ampe, E.; Fountas, S. (2024): SpectroFood dataset: A comprehensive fruit and vegetable hyperspectral meta-dataset for dry matter estimation. Data in Brief. (February): p. 110040. Online: https://doi.org/10.1016/j.dib.2024.110040 1.0
- Büchele, F.; Hivare, K.; Khera, K.; Thewes, F.; Argenta, L.; Hoffmann, T.; Mahajan, P.; Prange, R.; Pareek, S.; Neuwald, D. (2024): Novel Energy-Saving Strategies in Apple Storage: A Review. Sustainability. (3): p. 1052. Online: https://doi.org/10.3390/su16031052 1.0
- Rossi, S.; Gottardi, D.; Barbiroli, A.; Di Nunzio, M.; Siroli, L.; Braschi, G.; Schlüter, O.; Patrignani, F.; Lanciotti, R. (2024): Effect of Combined High-Pressure Homogenization and Biotechnological Processes on Chitin, Protein, and Antioxidant Activity of Cricket Powder-Based Ingredients. Foods. (3): p. 449. Online: https://doi.org/10.3390/foods13030449 1.0
- Razola-Díaz, M.; Sevenich, R.; Rossi Ribeiro, L.; Guerra-Hernández, E.; Schlüter, O.; Verardo, V. (2024): Combined effect of pulse electric field and probe ultrasound technologies for obtaining phenolic compounds from orange by-product. LWT-Food Science and Technology. : p. 115950. Online: https://doi.org/10.1016/j.lwt.2024.115950 1.0
- Guru, P.; Kumar, V.; Saha, D.; Kalnar, Y.; Nancy, M.; Singla, A. (2024): Phototactic response of angoumois grain moth Sitotroga cerealella (olivier) to visible spectrum: Attraction analysis and modelling using machine learning. Journal of Stored Products Research. (May 2024): p. 102295. Online: https://doi.org/10.1016/j.jspr.2024.102295 1.0
- Psarianos, M.; Fricke, A.; Altuntas, H.; Baldermann, S.; Schreiner, M.; Schlüter, O. (2024): Potential of house crickets Acheta domesticus L. (Orthoptera: Gryllidae) as a novel food source for integration in a co-cultivation system. Future Foods. (June 2024): p. 100332. Online: https://doi.org/10.1016/j.fufo.2024.100332 1.0
- Kalnar, Y.; Jalali, A.; Weltzien, C.; Mahajan, P. (2024): Mathematical model and electronic system for real-time O2 control in storage boxes: Development and validation under fluctuating temperatures. Biosystems Engineering. (June 2024): p. 67-79. Online: https://doi.org/10.1016/j.biosystemseng.2024.04.012 1.0
- Mwenya, J.; Saengrayap, R.; Arwatchananukul, S.; Aunsri, N.; Kamyod, C.; Jakkaew, P.; Kitazawa, H.; Mahajan, P.; Padee, S.; Prahsarn, C.; Chaiwong, S. (2024): Thermal insulation box design for maintaining cool temperature and the postharvest quality of okra. Scientia Horticulturae. (1 June 2024): p. 113230. Online: https://doi.org/10.1016/j.scienta.2024.113230 1.0
- Yang, Z.; Li, M.; East, A.; Zude-Sasse, M. (2024): Understanding changes of laser backscattering imaging parameters through the kiwifruit softening process using time series analysis. New Zealand Journal of Crop and Horticultural Science. : p. 1-25. Online: https://doi.org/10.1080/01140671.2024.2348139 1.0
- Mollazade, K.; Hashim, N.; Zude-Sasse, M. (2023): Towards a multispectral imaging system for spatial mapping of chemical composition in fresh-cut pineapple (Ananas comosus). Foods. (7): p. 3243. Online: https://doi.org/10.3390/foods12173243 1.0
Monografien nach Autorenschaft
- Rux, G. (2022): Fresh-cut apples: Aspects of respiration, sanitation and storage conditions affecting quality and volatile synthesis. Cuvillier Verlag, Göttingen, (978-3-7369-7564-4), 170 S. 1.0
- Keshri, N. (2022): Development of modular sensor system for real-time monitoring and controlling of storage environment of fresh produce. Dissertationsdatenbank TU Berlin, Berlin, 90 S. Online: https://doi.org/10.14279/depositonce-15253 1.0
- Franke, G. (2022): Entwicklung einer neuartigen Austrageinrichtung zur Steuerung der Verweilzeitverteilung in Schüttgutapparaten. Hochschulschriften Uni Magdeburg, Magdeburg, (URN: urn:nbn:de:gbv:ma9:1-1981185920-912531), 166 S. Online: https://doi.org/10.25673/89298 1.0
Monografien nach Herausgeberschaft
- Hadjiali, S.; Piofczyk, T.; Borah, C.; Durek, J.; Ojha, S.; Psarianos, M.; Rossi, G.; Schlüter, O. (2023): INSECTA 2023 International Conference. Book of Abstracts. Bornimer Agrartechnische Berichte, Heft 107. INSECTA 2023 International Conference. Leibniz-Institut für Agrartechnik und Bioökonomie, Potsdam, (ISSN 0947-7314), 143 S. Online: https://insecta-conference.com/wp-content/uploads/2023/09/INSECTA-2023-BOOK-of-ABSTRACT.pdf 1.0
- Durek, J.; Schlüter, O.; Hadjiali, S.; Piofczyk, T.; Goldhahn, S.; Ojha, S.; Schlüter, O. (2022): INSECTA 2022 International Conference. Book of Abstracts. Bornimer Agrartechnische Berichte, Heft 106. INSECTA 2022 International Conference. Leibniz-Institut für Agrartechnik und Bioökonomie, Potsdam, (ISSN 0947-7314), 126 S. Online: https://opus4.kobv.de/opus4-slbp/frontdoor/index/index/docId/17254 1.0
- Piofczyk, T.; Hadjiali, S.; Goldhahn, S.; Durek, J.; Ojha, S.; Schlüter, O. (2021): INSECTA 2021 International Conference. Book of Abstracts. Bornimer Agrartechnische Berichte, Heft 105. INSECTA 2021 International Conference. Leibniz-Institut für Agrartechnik und Bioökonomie, Potsdam, (ISSN 0947-7314), 112 S. Online: https://www.atb-potsdam.de/fileadmin/generell/BABs/BAB-105_Insecta_2021.pdf 1.0
Beiträge zu Sammelwerken
- Keshri, N.; Truppel, I.; Herppich, W.; Geyer, M.; Mahajan, P. (2024): In situ real-time measurement of respiration rate of fresh produce using a newly developed modular respirometer. In: Hertog, M.; Pols, S.; Nicolaï, B.(eds.): XIII International Controlled and Modified Atmosphere Research Conference - CAMA2021. XVIIIth International Controlled and Modified Atmosphere Research Conference - CAMA 2021. ISHS, (9789462613850; 0567-7572), p. 309-314. Online: https://doi.org/10.17660/ActaHortic.2024.1386.42 1.0
- Jalali, A.; Linke, M.; Geyer, M.; Mahajan, P. (2024): Dynamic modelling and monitoring the shelf life of fresh horticultural produce. In: Hertog, M.; Pols, S.; Nicolaï, B.(eds.): XIII International Controlled and Modified Atmosphere Research Conference - CAMA2021. XVIIIth International Controlled and Modified Atmosphere Research Conference - CAMA 2021. ISHS, (9789462613850; 0567-7572), p. 339-348. Online: https://doi.org/10.17660/ActaHortic.2024.1386.46 1.0
- Pathak, N.; Toncheva, A.; Hemberg, A.; Laoutid, F.; Mahajan, P. (2024): Evaluation of ethylene scavengers for potential application in fresh produce packaging. In: Hertog, M.; Pols, S.; Nicolaï, B.(eds.): XIII International Controlled and Modified Atmosphere Research Conference - CAMA2021. XVIIIth International Controlled and Modified Atmosphere Research Conference - CAMA 2021. ISHS, (9789462613850; 0567-7572), p. 349-356. Online: https://doi.org/10.17660/ActaHortic.2024.1386.47 1.0
- Rossi Ribeiro, L.; Soares Magalhães, I.; Artigiani Lima Tribst, A.; de Castro Leite Júnior, B. (2023): Chapter 7 - Effects of high-pressure processing on enzyme activity in milk and dairy products. In: Leite Júnior, B.; Tribst, A.(eds.): Effect of High-Pressure Technologies on Enzymes - Science and Applications. . Elsevier, (9780323983860; 9780323985826), p. 169-193. Online: https://doi.org/10.1016/B978-0-323-98386-0.00009-9 1.0
- Hebishy, E.; Gonçalves dos Santos Aguilar, J.; Rossi Ribeiro, L.; Amador-Espejo, G.; Trujillo, A. (2023): Chapter 8 - Effects of high-pressure homogenization on enzyme activity in milk and dairy products. In: Leite Júnior, B.; Tribst, A.(eds.): Effect of High-Pressure Technologies on Enzymes - Science and Applications. . Elsevier, (9780323983860; 9780323985826), p. 195-240. Online: https://doi.org/10.1016/B978-0-323-98386-0.00010-5 1.0
- Mellmann, J. (2023): Körnerkonservierung. In: Frerichs, L.(eds.): Jahrbuch Agrartechnik 2022, Band 34. . Institut für Mobile Maschinen und Nutzfahrzeuge, Braunschweig, p. 1-9. Online: http://dx.doi.org/10.24355/dbbs.084-202301130836-0 1.0
- Kalnar, Y.; Mahajan, P. (2023): Sensors for Fresh Produce Supply Chain. In: Encyclopedia of Smart Agriculture Technologies. . Springer Nature, Cham, (978-3-030-89123-7), p. 1-7. Online: https://doi.org/10.1007/978-3-030-89123-7_288-1 1.0
- Mahajan, P. (2023): Real-Time Measurement of Respiration Rate of Fresh Produce. In: Encyclopedia of Smart Agriculture Technologies. . Springer Nature, Cham, (978-3-030-89123-7), p. 1-6. Online: https://doi.org/10.1007/978-3-030-89123-7_287-1 1.0
- Pathak, N.; Rosenow, P.; Reinelt, M.; Mahajan, P. (2023): Ethylene concentration inside tomato packages with a commercial ethylene scavenger. In: Teixeira, G.; Charles, F.(eds.): XXXI International Horticultural Congress (IHC2022): International Symposium on Postharvest Technologies to Reduce Food Losses. 31th International Horticultural Congress (IHC 2022). ISHS, Angers, France, (0567-7572; 2406-6168; 978-94-62613-63-8), p. 161-166. Online: https://doi.org/10.17660/ActaHortic.2023.1364.21 1.0
- Praeger, U.; Linke, M.; Neuwald, D.; Geyer, M. (2023): Water vapour condensation periods on fruit surfaces during CA storage of apples. In: Teixeira, G.; Charles, F.(eds.): XXXI International Horticultural Congress (IHC2022): International Symposium on Postharvest Technologies to Reduce Food Losses. 31th International Horticultural Congress (IHC 2022). ISHS, Angers, France, (0567-7572; 2406-6168; 978-94-62613-63-8), p. 63-70. Online: https://doi.org/10.17660/ActaHortic.2023.1364.8 1.0
Vorträge und Poster
- Hoffmann, T.; Sonawane, A.; Jedermann, R.; Praeger, U.; Neuwald, D.; Linke, M.; Barkov, V.; Atzmueller, M.; Sturm, B.; Mahajan, P. (2024): A data-driven approach for fresh produce preservation inside cold room. 1.0
- Hoffmann, T. (2024): Integrating digital twin technology for sustainable management of fresh produce in postharvest facilities. 1.0
- Kalnar, Y.; Jalali, A.; Sonawane, A.; Weltzien, C.; Mahajan, P. (2024): Temperature Responsive Dynamic O2 Control in Fresh Produce Modified Atmosphere Transport container. 1.0
- Schlüter, O. (2024): Innovative concepts for future agrifood systems: Cultivation of alternative biomaterials and nonthermal processing. 1.0
- Schlüter, O. (2024): Current developments in the application of cold plasma for food processing. 1.0
- Arefi, A.; Raut, S.; Nurkhoeriyati, T.; Ndisya, J.; Hensel, O.; Sturm, B. (2023): Is multispectral imaging a potential alternative to hyperspectral imaging to monitor the drying process of foodstuff?. 1.0
- Hoffmann, T.; Praeger, U.; Sturm, B.; Mahajan, P. (2023): Impact of Air Velocity on the Cooling Process of Apple: Thermal and Energy Efficiency Analysis. 1.0
- Berg, G. (2023): (Wann) Machen Probiotika Sinn?. 1.0
- Schemminger, J.; Raut, S.; Sturm, B.; Defraeye, T. (2023): A digital shadow to reveal the thermal effect of the drying tray during convective drying of carrot slices. 1.0
- Pathak, N.; Mahajan, P. (2023): Modelling ethylene scavenging for fresh produce. 1.0
Sonstige Artikel
- Geyer, M.; Salama, K. (2023): Nachhaltiges Entsorgen von Spargelfolie. Spargel & Erdbeer Profi. p. 32-34. 1.0
- Geyer, M.; Salama, K. (2023): Aspergefolie duurzaam gepoetst door machine. Groenten & Fruit. p. 20-22. 1.0
- Raut, S.; Kirchhofer, P.; Hensel, O.; Sturm, B. (2023): Verbesserung der Ernähungssituation in Westafrika. Das Projekt UPGRADE Plus. Ernährung im Fokus - BLE. p. 67-70. Online: https://www.bzfe.de/ernaehrung-im-fokus/aus-der-aktuellen-ausgabe/ 1.0
- Parmar, A.; Raut, S.; Shee, A.; Sturm, B. (2023): Measuring food loss and waste - instruments, challenges and global perspectives. RURAL 21. The international journal for rural development. p. 10-11. Online: https://www.rural21.com/fileadmin/downloads/2023/en-04/Rural21_4_2023_full.pdf 1.0
- Penzel, M.; Zude-Sasse, M. (2021): Weniger ist manchmal mehr (I) - Forschungsergebnisse zur Fruchtertragskapazität. Besseres Obst. p. 14-17. Online: https://www.besseres-obst.at/fachartikel/produktion/2021/weniger-ist-manchmal-mehr.html 1.0
- Zude-Sasse, M. (2021): Steinzellen in Conference Birnen. Besseres Obst. p. 29-29. Online: https://www.besseres-obst.at/fachartikel/produktion/2021/steinzellen-in--conference--birnen.html 1.0
- Saha, K.; Zude-Sasse, M. (2021): Nutzung von LiDAR-Systemen zur Bestimmung der Laubwand im Obstbau. Besseres Obst. p. 14-15. Online: https://www.besseres-obst.at/fachartikel/technik/2021/nutzung-von-lidar-systemen-zur-bestimmung-der-laubwand-im-obstba.html 1.0