Publications:

Book Chapters:

  1. Badawy, M. E. I.; Rabea, E. I. (2016). Chemical Modification of Chitin and Chitosan for Their Potential Applications. In: Industrial applications of marine biopolymers. Sudha, P. N. (Editor). CRC Press, Talyor and Francis group, Boca Raton, London, New York. p. 117-175.
  2. Badawy, M. E. I.; Rabea, E. I. (2016). Chitosan and Its Derivatives as Active Ingredients Against Plant Pests and Diseases. In: Chitosan in the Preservation of Agricultural Commodities. Oxford: Academic Press; ISBN:978-0-12-802735-6. Copyright 2016 Elsevier Inc. Academic Press. p. 179-220.
  3. Badawy, M. E. I.; Rabea, E. I. (2017). Chitosan and its Modifications as Biologically Active Compounds in Different Applications. In: Advances in Physicochemical Properties of Biopolymers, Part 2. Martin Alberto Masuelli and Denis Renard (Editors) Bentham Publisher. P.1-108.

2023

  1. AGA Reyad, GIK Marei, MA Abbassy, EI Rabea, MEI Badawy (2023) Sustainable alternative for sorption of some insecticides from water and their detection by UV/Vis spectrophotometry International Journal of Modern Agriculture and Environment 3 (1), 29-48
  2. AGA Reyad, MA Abbassy, GIK Marei, MEI Badawy, EI Rabea (2023) Eco-friendly products for sorption of fenamiphos, imidacloprid, and oxamyl pesticides from water and their detection by UV/VIS spectrophotometry 06(01), 040–058.
  3. Azza G. A. Reyad,Moustafa A. Abbassy,Gehan I. Kh. Marei,Entsar I. Rabea &Mohamed E. I. BadawyRemoval of fenamiphos, imidacloprid, and oxamyl pesticides from water by microalgal Nannochloropsis oculata biomass and their determination by validated HPLC method
    Journal of Environmental Science and Health, Part B Volume 58, 2023 - Issue 4Pages 345-356 

2022

  1. El Ashry, E. H.; Awad, L. F.; Badawy, M. E. I.; Rabea, E. I.; Ibrahim, N. A.; Abd Al Moaty, M. N. (2022). Synthesis, antibacterial, antioxidant, and molecular docking studies of 6-methylpyrimidin-4 (3H)-one and oxo-1, 2, 4-triazolo [4, 3-a] pyrimidine derivatives. Journal of Molecular Structure. 131551
  2. MEI Badawy, MAM El-Nouby, PK Kimani, LW Lim, EI Rabea (2022). A review of the modern principles and applications of solid-phase extraction techniques in chromatographic analysis Analytical Sciences 1-31
  3. AGA Reyad, MA Abbassy, EI Rabea, M Bedawy (2022). Potential Removal of Some Insecticides from Water using Microalgae and their Determination by a Validated UV-Vis Spectrophotometric Method. Alexandria Science Exchange Journal 43 (4), 431-450.

2021

  1. MEI Badawy, EI Rabea, AR Eid, MM Badr, GIK Marei (2021). Structure and antimicrobial comparison between N-(benzyl) chitosan derivatives and N-(benzyl) chitosan tripolyphosphate nanoparticles against bacteria, fungi, and yeast. International Journal of Biological Macromolecules 186, 724-734
  2. SFE Mohsen, MA Abbassy, HK Abou-Taleb, EI Rabea (2021). Plant Lectins as Insecticidal Agents against Cotton Leafworm Spodoptera littoralis and Their Potential Applications in Crop Protection. The Natural Products Journal 11 (4), 569-582

2020

  1. Mohamed EI Badawy, Entsar I Rabea, Samir AM Abdelgaleil (2020). Studies on the EC50 of Natural Monoterpenes as Fungal Inhibitors with Quantitative Structure-Activity Relationships (QSARs) The Natural Products Journal 10 (1), 44-60.

2019

  1. MA Samy, MA Abbassy, EE Hafez, EI Rabea, DG Aseel (2019). Biosynthesis and Characterization of Silver Nanoparticles Produced by Plant Extracts and Its Antimicrobial ActivitySouth Asian Journal of Research in Microbiology, 1-14
  2. GI Marei, EI Rabea, MEI Badawy (2019). In Vitro Antimicrobial and Antioxidant Activities of Monoterpenes against some Food-Borne PathogensJournal of Plant Protection and Pathology 10 (1), 87-94.
  3. E Rabea, G Marei, M Badawy (2019). Ultrasonic Emulsification and Characterizations of Bio-based Nanoemulsion Formulations Containing Citral with Their  ntimicrobial ActivityEgyptian Society of Biological Sciences
  4. MEI Badawy, GIK Marei, EI Rabea, NEM Taktak (2019). Antimicrobial and antioxidant activities of hydrocarbon and oxygenated monoterpenes against some foodborne pathogens through in vitro and in silico studiesPesticide Biochemistry and Physiology
  5. GIK Marei, YMM Mohammed, EI Rabea, MEI Badawy (2019). Isolation, characterisation and efficacy of the bacterial strain Lysinibacillus sphaericus YMM in biodegradation of malathion insecticide in liquid mediaInternational Journal of Environmental Studies 76 (4), 616-633.
  6. El Sayed H El Ashry, El Sayed Ramadan, Mohammed R Amer, Yeldez El Kilany, Mohamed EI Badawy, Entsar I Rabea (2019). Synthesis and Antioxidant Activity of Novel 5-amino-2-alkyl/glycosylthio-1,3,4-thiadiazoles: Regioselective Alkylation and Glycosylation of the 5-amino-1,3,4-thiadiazole-2-thiol Scaffold . Current Organic Synthesis, Volume 16, Number 5, 2019, pp. 801-809(9).

2018

  1. MEI Badawy, EI Rabea (2018). Current Applications in Food Preservation Based on Marine BiopolymersPolymers for Food Applications, 609-650
  2. MEI Badawy, EI Rabea (2018). Chitosan-Based Edible Membranes for Food PackagingBio-based Materials for Food Packaging, 237-267
  3. GIK Marei, EI Rabea, MEI Badawy (2018). Preparation and characterizations of chitosan/citral nanoemulsions and their antimicrobial activityApplied Food Biotechnology 5 (2), 69-78
  4. SFE Mohsen, MA Abbassy, EI Rabea, HK Abou-Taleb (2018). Isolation and Antifungal Activity of Plant Lectins against some Plant Pathogenic FungiAlexandria Science Exchange Journal 39 (January-March), 161-167

2017

  1. Badawy, M. E. I.; Rabea, E. I. (2017). Synthesis and Characterization of N-(maleoyl) chitosan at Different Degrees of Substitution with Antibacterial Activity.Journal of Polymer Materials.34, 1, 249-259.
  2. Badawy, M. E. I.; Rabea, E. I.; El-Nouby, M. A. M.; Ismail, R. I. A.; Taktak, N. E. M. (2017). Strawberry shelf life, composition, and enzymes activity in response to edible chitosan coatings. International Journal of Fruit Science. 17, 2, 117-136.
  3. Rabea, E. I.; Badawy, M. E. I.; El-Aswad, A. F. (2017). Biochemical characterization and kinetics of carboxylesterase isolated from rabbit liver and lung in order to application in the detoxification of environmental pollutants.Current Enzyme Inhibition. 13: 1-11.

2016

  1. Badawy, M. E. I.; Rabea, E. I. (2016). Chitosan and Its Derivatives as Active Ingredients against Plant Pests and Diseases. In: Chitosan in the Preservation of Agricultural Commodities. Oxford: Academic Press; ISBN: 978-0-12-802735-6. Copyright 2016 Elsevier Inc. Academic Press. p. 179-220.
  2. Badawy, M. E. I.; Rabea, E. I., Nehad E. M. Taktak, Mahmoud A. M. El Nouby.(2016). Production and properties of different molecular weights of chitosan from marine shrimp shells. Journal of Chitin and Chitosan Science. 4: 46-54.
  3. Badawy, M. E. I.; Rabea, E. I. (2016). Chitosan and its Modifications as Biologically Active Compounds in Different Applications. In: Advances in Physicochemical Properties of Biopolymers. Martin Alberto Masuelli and Denis Renard (Editors) Bentham Publisher. Accepted and In Press.
  4. Badawy, M. E. I.; Rabea, E. I. (2016). Antibacterial activity and QSAR modeling of natural monoterpenes against plant pathogens. Journal of Computational Methods in Molecular Design. 6 (3):31-46.
  5. Badawy, M. E. I.; Rabea, E. I. (2016). Synthesis and antimicrobial activity of N-(6-carboxyl cyclohex-3-ene carbonyl) chitosan with different degrees of substitution. International Journal of Carbohydrate Chemistry. Volume 2016, Article ID 6046232, 10 pages.
  6. Badawy, M. E. I.; Rabea, E. I.; El-Nouby, M. A. M. (2016). Preparation, physicochemical characterizations, and the antioxidant activity of the biopolymer films based on modified chitosan with starch, gelatin, and plasticizers. Journal of Polymer Materials. 33: 17-32.
  7. Badawy, M. E. I.; Rabea, E. I.; Taktak, N. E. M.; El-Nouby, M. A. M. (2016). The Antibacterial Activity of Chitosan Products Blended with Monoterpenes and Their Biofilms against Plant Pathogenic Bacteria. Scientifica. Volume 2016, Article ID 1796256, 10 pages.

2015

  1. Badawy, M. E. I.; Entsar I. Rabea,Nehad E. M. Taktak, Mahmoud A. M. El-Nouby. (2015).In vitro antimicrobial activities of different molecular weights chitosan enriched with natural monoterpenes and their films against plant pathogenic bacteria. Global Journal of Agriculture and Food Safety Sciences. 3: 284-302.
  2. Badawy, M. E. I.; Nasr, H. M.; Rabea, E. I. (2015). Toxicity and biochemical changes in the honeybee Apis mellifera exposed to four insecticides under laboratory conditions. Apidologie. 46 (2): 177-193.
  3. Mohamed E. I. Badawy, Entsar I. Rabea,Rania I. A. Ismail. (2015). Antimicrobial activity of different molecular weight chitosans produced from shrimp shells against different plant pathogens. Current Bioactive Compounds. 11 (4): 264-273.
  4. Rabea, E. I.;Badawy, M. E. I.;Rania I. A. Ismail. (2015). In-Vitro Antimicrobial and Quantitative Structure Activity Relationship (QSAR) of Natural Monoterpenes against Plant Pathogenic Bacteria. Global Journal of Agriculture and Food Safety Sciences. 2 (3): pp. 111-130.
  5. Rabea, E. I.; Nasr, H. M.; Badawy, M. E. I.; El-Gendy, I. R. (2015). Toxicity of naturally occurring Bio-fly and chitosan compounds to control the Mediterranean fruit fly Ceratitis capitata (Wiedemann). Natural Product Research. 29: 460-465.
  6. MA Abbassy, MS Hamed, EI Rabea, HM Nasr (2015). Nematicidal activity of plant extracts against root-knot nematode, Meloidogyne incognita egg masses and its side effect to honeybee (Apis meliffera L.) Global Journal of Agriculture and Food Safety Sciences 2, 131-155

2014

  1. Moustafa A. Abbassy, Mamdouh A. Marzouk, Entsar I. Rabea, and Amany D. Abd-Elnabi(2014). Insecticidal and Fungicidal Activity of Ulva lactuca Linnaeus (Chlorophyta) Extracts and their Fractions. Annual Research & Review in Biology, - Volume 4 (13), 2252.
  2. Abbassy, M.A.; Rabea, E.I.; Marzouk, M.A. and Abd-Elnabi, A.D. (2014). Insecticidal and Developmental Inhibitory Properties of Some Plant Extracts on Culex Pipiens and Spodoptera Littoralis. International Journal of Agriculture Innovations and Research, Volume 2, Issue 4, 571-575.
  3. Badawy, M.E.I.; Rabea, E.I., Taktak, N.E.M. (2014). Antimicrobial and inhibitory enzyme activity of N-(benzyl) and quaternary N-(benzyl) chitosan derivatives on plant pathogens. Carbohydrate Polymers, 111, 670–682.
  4. Rabea, E.I.; Badawy, M.E.I. (2014). Antimicrobial activity of biopolymer chitosans and monoterpenes against the honeybee pathogens Paenibacillus larvae and Ascosphaera apis. Journal of Chitin and Chitosan Science. 2: 306-310.
  5. El-Gendy, I.R.; Nasr, H.M.; Badawy, M.E.I.; Rabea, E.I.(2014). Toxic and biochemical effects for certain natural compounds on the peach fruit fly, Bactrocera zonata (Diptera, Tephritidae). American Journal of Biochemistry and Molecular Biology. 4: 112-121.
  6. Rabea, E.I.(2014).In Vitro Assessment of Antimicrobial Property of O-(phenoxyacetic) Chitosan Compounds on Plant Pathogens
    Journal of Chitin and Chitosan Science. 2, 293-298.
  7. Badawy, M.E.I.; Rabea, E.I. (2014). Synthesis and antifungal property of N-(aryl) and quaternary N-(aryl) chitosan derivatives against Botrytis cinerea. Cellulose. 21: 3121-3137.

2013

  1. Badawy, M.E.I.; Rabea, E.I. (2013). Preparation and antimicrobial activity of O-(benzoyl) chitosan derivatives against some plant pathogens. African Journal of Microbiology Research, 7(20), 2259-2268.
  2. Badawy, M.E.I.; Rabea, E.I. (2013). Synthesis and structure–activity relationship of N-(cinnamyl) chitosan analogs as antimicrobial agents. International Journal of Biological Macromolecules. 57, 185-192.

2012

  1. Rabea, E.I.; Badawy, M.E.I. (2012). Inhibitory effects on microbial growth of Botrytis cinerea and Erwinia carotovora on potato using of a biopolymer chitosan at different molecular weights. Archives of phytopathology and plant protection. 45 (16), 1939-1949.
  2. Badawy, M.E.I.; Rabea, E.I. (2012). Characterization and antimicrobial activity of water-soluble N-(4-carboxybutyroyl) chitosans against some plant pathogenic bacteria and fungi. Carbohydrate Polymers87, 250- 256.

2011

  1.  Badawy, M.E.I.; Rabea, E.I. (2011). A biopolymer chitosan and its derivatives as promising antimicrobial agents against plant pathogens and their applications in crop protection. International Journal of Carbohydrate Chemistry. Volume 2011, Article ID 460381, 29 pages.
  2. Badawy, M.E.I.; Rabea, E.I.; Nasr, H.M. (2011). Efficacy ofthree insect growth regulators on growth and development of the Egyptian cotton leafworm Spodoptera littoralis (Boisd.). Alexandria Journal of Agricultural Research. 56: (1), 109-123.

2010

  1. Rabea, E.I.(2010). Preparation of water-soluble O-(succinyl) chitosan derivatives and their antimicrobial activity against some plant pathogens. Journal of Pest Control and Environmental Science.18: 51-68. 
  2. Rabea, E.I.and Steurbaut, W. (2010). Chemically Modified Chitosans as Antimicrobial Agents against Some Plant Pathogenic Bacteria and Fungi. Plant Protection Science.46 (4): 149-158.
  3. Rabea, E.I.; Nasr, H.M.; Badawy, M.E.I. (2010). Toxic effect and biochemical study of chlorfluazuron, oxymatrine and spinosad on honey bees (Apis mellifera). Archives of Environmental Contamination and Toxicology. 58, 722–732.
  4. Nasr, H.M.; Badawy, M.E.I.; Rabea, E.I.  (2010). Toxicity and biochemical study of two insect growth regulators, buprofezin and pyriproxyfen, on cotton leafworm Spodoptera littoralis. Pesticide Biochemistry and Physiology. 98 (2010) 198-205.
  5. Nasr, H.M.; Badawy, M.E.I.; Rabea, E.I. (2010). Comparative Laboratory Assessment of Insecticidal Activity of Buprofezin and Pyriproxyfen against Cotton Leafworm Spodoptera littoralis. Alexandria Journal of Agricultural Research. 55: (2), 89-99.

2009

  1. Rabea, E.I.(2009). Comparative Toxicity of Five Pesticides against Tetranychus urticae(Koch), Myzus persicae (Sulzer) andAphis nerii (Boyer de Fonscolombe). Journal of Alexandria Science Exchange. 30:412-418.
  2. Rabea, E.I.; Badawy, M.E.I.; Steurbaut, W.; Stevens, C.V. (2009). In vitro assessment of N-(benzyl) chitosan derivatives against some plant pathogenic bacteria and fungi. European Polymer Journal. 45:237-245.
  3. Badawy, M.E.I. and Rabea, E.I. (2009). Potential of the biopolymer chitosan with different molecular weights to control postharvest gray mold of tomato fruit.Postharvest Biology and Technology. 51: 110-117.

2008

  1. Rabea, E.I.and Badawy, M.E.I. (2008). Chitosan as a potential natural compound to induced defence responses in the leaves of Kidney bean plant (Phaseolus vulgaris L.) against gray mould caused by Botrytis cinera. In: BioVisionAlexandria Conference. New life sciences: From promises to practice. Bibliotheca Alexandrina, Alexandria, Egypt, 12-16 April 2008. pp. 82.
  2. Badawy, M.E.I. and Rabea, E.I. (2008). Enhancement of seed vigour in wheat (Triticum aestivum) and barley (Hordeum vulgare) following treatment with a bioactive chitosan polymer. In: BioVisionAlexandria Conference. New life sciences: From promises to practice. Bibliotheca Alexandrina, Alexandria, Egypt, 12-16 April 2008. pp. 96.

2006

  1. Rabea, E.I.; Badawy, M.E.I.; Rogge, T.M.; Stevens, C.V.; Steurbaut, W.; Höfte, M.; Smagghe, G. (2006). Enhancement of fungicidal and insecticidal activity by reductive alkylation of chitosan.Pest Management Science. 62:890–897.
  2. Badawy, M.E.I.; Ahmed, S.M. and Rabea, E.I. (2006). Bactericidal and fungicidal activities of different molecular weight chitosan samples. Journal of Pest Control and Environmental Science.14: 19-34.
  3. Badawy, M.E.I.; Rabea, E.I. (2006). Chitosan as a new bioactive polymer: Synthesis of new water-soluble chitosan derivatives with different degree of substitutions. The Egyptian Science Magazine. 3: 14-20.

2005

  1. Badawy, M.E.I. and Rabea, E.I. (2005). Synthesis of some N-benzylphosphoryl chitosan derivatives and their fungicidal and insecticidal activity. Journal of Pest Control and Environmental Science.13: 43-56.
  2. Rabea, E.I.; Badawy, M.E.I.; Rogge, T.M.; Stevens, C.V.; Smagghe, G.; Höfte, M.; Steurbaut, W. (2005). Insecticidal and fungicidal activity of new synthesized chitosan derivatives.Pest Management Science. 61: 951-960.
  3. Rabea, E.I.; Badawy, M.E.I.; Steurbaut, W.; Rogge, T.M.; Stevens, C.V.; Smagghe, G.; Höfte, M. (2005). Fungicidal effects of chitosan derivatives contaning an N-alkyl group on grey mould Botrytis cinerea and rice leaf blast Pyricularia grisea.Communications in Agricultural and Applied Biological Sciences.70: 219-223.
  4. Rabea, E.I.; Badawy, M.E.I.; Steurbaut, W.; Stevens, C.V.; Smagghe, G.; Rogge, T. M. (2005). Insecticidal and growth inhibition effects of chitosan derivatives containing an N-alkyl group on the cotton leafworm Spodoptera littoralis. Communications in Agricultural and Applied Biological Sciences. 70: 823-827. 
  5. Badawy, M.E.I.; Rabea, E.I.; Rogge, T.M.; Stevens, C.V.; Steurbaut, W.; Höfte, M.; Smagghe, G. (2005). Fungicidal and insecticidal activity of O-acyl chitosan derivatives. Polymer Bulletin. 54: 279-289.
  6. Badawy, M.E.I.; Rabea, E.I.; Steurbaut, W.; Rogge, T.M.; Stevens, C.V.; Smagghe, G. (2005). Insecticidal and growth inhibitory effects of new O-acyl chitosan derivatives on the cotton leafworm Spodoptera littoralis. Communications in Agricultural and Applied Biological Sciences. 70: 817-821.
  7. Badawy, M.E.I.; Rabea, E.I.; Steurbaut, W.; Rogge, T.M.; Stevens, C.V.; Smagghe, G.; Höfte, M. (2005). Fungicidal activity of some O-acyl chitosan derivatives against grey mould Botrytis cinerea and rice leaf blast Pyricularia grisea.Communications in Agricultural and Applied Biological Sciences. 70: 215-218.

2004

  1. Rabea, E.I.; Badawy, M.E.I.; Rogge, T.M.; Steurbaut, W.; Stevens, C.V.; Smagghe, G.; Höfte, M. (2004). Fungicidal activity of new N-alkyl and N-aryl chitosan derivatives. Communications in Agricultural and Applied Biological Sciences. 69: 789-792.
  2. Rabea, E.I.; Badawy, M.E.I.; Rogge, T.M.; Stevens, C.V.; Smagghe, G.; Höfte, M.; Steurbaut, W. (2004). Synthesis and biological activity of new N-alkyl and N-aryl chitosan derivatives against pest insects and fungi.  Advances in Chitin Science. 7: 231-239.
  3. Rabea, E.I.;Badawy, M.E.I.; Steurbaut, W.; Rogge, T.M.; Stevens, C. V.; Smagghe, G. (2004). Insect growth inhibition by N-benzyl chitosan derivatives in the cotton leafworm Spodoptera littoralis. Communications in Agricultural and Applied Biological Sciences. 69: 123-126. 
  4. Badawy, M.E.I.; Rabea, E.I.; Rogge, T.M.; Steurbaut, W.; Stevens, C.V.; Smagghe, G.; Höfte, M. (2004). Insecticidal and fungicidal activity of new N,O-acyl chitosan derivatives. Communications in Agricultural and Applied Biological Sciences. 69: 793-798.
  5. Badawy, M.E.I.; Rabea, E.I.; Rogge, T. M.; Stevens, C.V.; Smagghe, G.; Steurbaut, W.; Höfte, M. (2004). Synthesis and fungicidal activity of new N,O-acyl chitosan derivatives. Biomacromolecules 6. 5: 589-595.

2003

  1. Rabea, E.I.;Badawy, M.E.I.; Rogge, T.M.; Stevens, C.V.; Smagghe, G.; Hofte, M.; Steurbaut, W. (2003). Synthesis and biological activity of new chitosan derivatives against pest insects and fungi. Communications in Agricultural and Applied Biological Sciences.68: 135-138.
  2. Rabea, E. I.;Badawy, M. E. I.; Rogge, T. M.; Stevens, C. V.; Smagghe, G.; Höfte, M.; Steurbaut, W. (2003). Synthesis and biological activity of new N-alkyl and N-aryl chitosan derivatives against pest insects and fungi. In Proceedings of the 9th International Chitin-Chitosan Conference, Montreal, Québec, Canada, p104.
  3. Rabea, E. I.;Badawy, M. E. I.; Stevens, C. V.; Smagghe, G.; Steurbaut, W. (2003). Chitosan as antimicrobial agent: Applications and mode of action. Biomacromolecules. 4: 1457-1465.
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