Oussama Baaloudj

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Oussama Baaloudj
Baaloudj at the National Polytechnic School in 2018
Native name	بعلوج اسامة
Born	1994 ِCheria, Tebessa, Algeria
Nationality	Algerian
Other names	Amar
Citizenship	Algeria
Education	PhD, Engineer and Masters
Occupation	Researcher (Pharmaceutical Process Engineering)
Organization	University Of Science And Technology Houari Boumediene
Known for	Research
Height	1.93 m
Website
baaloudj.weebly.com

Oussama BAALOUDJ (Arabic: أسامة بعلوج) is known in the scientific media as the "most inventive PhD student in USTHB..^[1]" for obtaining a large number of scientific papers (23 articles in 04/02/2022^[2]). BAALOUDJ is an Algerian researcher in pharmaceutical process engineering. He was born in 1994 in Cheria, Algerian state of Tebessa. He began his primary and intermediate studies and High School in his hometown. After obtaining his baccalaureate degree in 2013, he joined the National Polytechnic School, from which he graduated with a degree in deep studies in pharmaceutical process engineering in 2018. Then he succeeded in the PhD competition of the Houari Boumediene University of Science and Technology (USTHB), where he obtained a PhD's degree in pharmaceutical process engineering as always^[3]

Biography

Oussama BAALOUDJ is a PhD researcher^[4] with an h-index of 9 and a part-time member of the Mechanical Engineering and Process Engineering Faculty at Houari Boumédiène University of Science and Technology^[5][6]. Baaloudj does research in Chemical and Pharmaceutical Engineering^[7]. His doctoral research investigates the elimination of antibiotics in wastewater by advanced oxidation processes and Artificial neural network modelling^[8]. He takes a multidisciplinary approach that encompasses the fields of Modelling, photocatalysis and pharmaceutical processes.^[9]. His scientific interests are also focused on the field of pharmaceutical science, analysis and water treatment, materials synthesis, photocatalysis and materials for environmental protection and energy production^[10]

Baaloudj doctoral studies allowed him to successfully implement this dual skill and his experience in pharmaceutical development^[11], which allowed him to acquire a lot of information in the field of galenic formulation and process validation (tech-transfer), this by participating in several R&D projects. He also learned through numerous pieces of training several skills, including writing, communication, management and marketing as well as quality control methods (Physico-chemical and microbiological)^[12]

List of publications

·       High efficient Cefixime removal from water by the sillenite Bi₁₂TiO₂₀: Photocatalytic mechanism and degradation pathway (First name)^[13];

DOI: 10.1016/j.jclepro.2021.129934

Journal of Cleaner Production

Impact factor: 9.29 (Category A+).

·       Simultaneous removal of antibiotics and inactivation of antibiotic-resistant bacteria by photocatalysis: A review (First name)

DOI: 10.1016/j.jwpe.2021.102089

Journal of Water Process Engineering

·       Application of Bi₁₂ZnO₂₀ Sillenite as an Efficient Photocatalyst for Wastewater Treatment: Removal of Both Organic and Inorganic Compounds (First name)^[14]

DOI: 10.3390/ma14185409

Materials

·       A comparative study of ceramic nanoparticles synthesized for antibiotic removal (First name)

DOI: 10.1007/s11356-020-11616-z

Environmental Science and Pollution Research

·       Artificial neural network modeling of Cefixime photodegradation by synthesized CoBi₂O₄ nanoparticles (First name)

DOI: 10.1007/s11356-020-11716-w

Environmental Science and Pollution Research

·       Facile synthesis, structural and optical characterizations of Bi₁₂ZnO₂₀ sillenite crystals: Application for Cefuroxime removal from wastewater (First name)^[15]

DOI: 10.1016/j.matlet.2021.130658

Materials Letters

·       Synthesis and Characterization of ZnBi₂O₄ Nanoparticles: Photocatalytic Performance for Antibiotic Removal under Different Light Sources (First name)

DOI: 10.3390/app11093975

Applied science

·       Structural and electrochemical characterizations of Bi₁₂CoO₂₀ sillenite crystals: degradation and reduction of organic and inorganic pollutants (Second name)

DOI: 10.1007/s10854-021-06194-w

Journal of Materials Science: Materials in Electronics

·       Facile electrodeposition of ZnO on a graphitic substrate for photocatalytic application: degradation of antibiotics in a continuous stirred-tank reactor (Second name)

DOI: 10.1007/s10008-021-05045-2

Journal of Solid-State Electrochemistry

·       Photocatalytic reduction of Cr(VI) onto the spinel CaFe₂O₄ nanoparticles (Third name)

DOI: 10.1016/j.ijleo.2020.165610

Optik journal

·       Enhanced photocatalytic reduction of Cr(VI) by the novel hetero-system BaFe₂O₄/SnO₂ (Third name)

DOI: 10.1016/j.jpcs.2021.110315

Journal of Physics and Chemistry of Solids

·       Review on inactivation of airborne viruses using non-thermal plasma technologies: from MS2 to coronavirus (Third name)^[16]

DOI: 10.1007/s11356-021-17486-3

Journal of Environmental Science and Pollution Research

·       Advanced wastewater treatment process using algal photo-bioreactor associated with dissolved-air flotation system: A pilot-scale demonstration (Third name)

DOI: 10.1016/j.jwpe.2022.102565

Journal of Water Process Engineering

·       Enhanced photodegradation of acid orange 61 by the novel hetero-junction CoFe₂O₄/AgCl (November 2021) (Forth name)

DOI: 10.1016/j.optmat.2021.111576

Optical Materials

·       A Review of the Use of Semiconductors as Catalysts in the Photocatalytic Inactivation of Microorganisms (Forth name)

DOI: 10.3390/catal11121498

Journal of Catalysts

·       Superior removal of dyes by mesoporous MgO/g-C₃N₄ fabricated through ultrasound method: Adsorption mechanism and process modeling (Fifth name)

DOI: 10.1016/j.envres.2021.112543

Journal of Environmental Research

·       Photocatalytic performances of ZnCr₂O₄ nanoparticles for cephalosporins removal: Structural, optical and electrochemical properties (Last name)

DOI: 10.1016/j.optmat.2021.111035

Optical Materials

·       Characterization of CoCr₂O₄ semiconductor: A prominent photocatalyst in the degradation of basic blue 41 from wastewater (Last name)

DOI: 10.1016/j.optmat.2021.111819

Optical Materials

·       Removal of Cefixime from aqueous solutions via proxy electrocoagulation: modeling and optimization by response surface methodology (Last name)

DOI: 10.1007/s11144-021-02055-z

Reaction Kinetics, Mechanisms and Catalysis

·       Artificial neural network modeling of the hexavalent uranium sorption onto chemically activated bentonite (Last name)

DOI: 10.1007/s11144-021-02055-z

Reaction Kinetics, Mechanisms and Catalysis

·       Structural and Optical Properties of Bi₁₂NiO₁₉ Sillenite Crystals: Application for the Removal of Basic Blue 41 from Wastewater (Last name)

DOI: 10.3390/photochem1030020

Photochem

Personal Website

Website

References

1. ↑ "USTHB website". https://www.usthb.dz/storage/app/media/uploaded-files/resultat-du-concours-dacces-aux-formations-doctorales-au-titre-de-lannee-universitaire-2018-2019.pdf. 
2. ↑ "scholar.google". https://scholar.google.co.uk/scholar?as_q=&num=10&btnG=Search+Scholar&as_epq=&as_oq=&as_eq=&as_occt=any&as_sauthors=%22Oussama+Baaloudj%22&as_publication=&as_ylo=&as_yhi=&as_allsubj=all&hl=en. 
3. ↑ "Portail national de signalement des thèses". https://www.pnst.cerist.dz/recherche.php?ti=&mc=&au=&dr=&ct=&eb=1622&dm=0&ln=&tp=0&nb=10&dp=0&an=0&pg=146. 
4. ↑ "scholar.google". https://scholar.google.com/citations?user=MOBiWqwAAAAJ&hl=fr. 
5. ↑ "signalhire". https://www.signalhire.com/companies/universite-des-sciences-et-de-la-technologie-houari-boumediene/employees. 
6. ↑ "usthb.academia". https://usthb.academia.edu/baaloudjoussama. 
7. ↑ "twitter". https://twitter.com/baaloudj10. 
8. ↑ "hal.umontpellier". https://hal.umontpellier.fr/UNIV-RENNES/browse/author-structure/?sort=index&letter=B. 
9. ↑ "interesjournals". https://www.interesjournals.org/articles/artificial-neural-network-modeling-of-the-elimination-of-antibiotics-in-the-wastewater-by-advanced-processes-of-oxidatio.pdf. 
10. ↑ "researchgate". https://www.researchgate.net/profile/Oussama-Baaloudj. 
11. ↑ "orcid". https://orcid.org/0000-0002-7019-8433. 
12. ↑ "linkedin". https://www.linkedin.com/in/baaloudj-oussama/?originalSubdomain=dz. 
13. ↑ Baaloudj, Oussama; Nasrallah, Noureddine; Bouallouche, Rachida; Kenfoud, Hamza; Khezami, Lotfi; Assadi, Aymen Amin (2022-01-01). "High efficient Cefixime removal from water by the sillenite Bi12TiO20: Photocatalytic mechanism and degradation pathway" (in en). Journal of Cleaner Production 330: 129934. doi:10.1016/j.jclepro.2021.129934. ISSN 0959-6526. https://www.sciencedirect.com/science/article/pii/S0959652621041032. 
14. ↑ Baaloudj, Oussama; Nasrallah, Noureddine; Kenfoud, Hamza; Algethami, Faisal; Modwi, Abueliz; Guesmi, Ahlem; Assadi, Aymen Amine; Khezami, Lotfi (2021-01-01). "Application of Bi12ZnO20 Sillenite as an Efficient Photocatalyst for Wastewater Treatment: Removal of Both Organic and Inorganic Compounds" (in en). Materials 14 (18): 5409. Bibcode 2021Mate...14.5409B. doi:10.3390/ma14185409. PMC 8470746. PMID 34576631. 
15. ↑ Baaloudj, Oussama; Nasrallah, Noureddine; Assadi, Aymen Amin (2021-12-01). "Facile synthesis, structural and optical characterizations of Bi12ZnO20 sillenite crystals: Application for Cefuroxime removal from wastewater" (in en). Materials Letters 304: 130658. doi:10.1016/j.matlet.2021.130658. ISSN 0167-577X. https://www.sciencedirect.com/science/article/pii/S0167577X21013550. 
16. ↑ Assadi, Imen; Guesmi, Ahlem; Baaloudj, Oussama; Zeghioud, Hichem; Elfalleh, Walid; Benhammadi, Naoufel; Khezami, Lotfi; Assadi, Aymen Amine (2022-01-01). "Review on inactivation of airborne viruses using non-thermal plasma technologies: from MS2 to coronavirus" (in en). Environmental Science and Pollution Research 29 (4): 4880–4892. doi:10.1007/s11356-021-17486-3. ISSN 1614-7499. PMC 8601095. PMID 34796437. https://doi.org/10.1007/s11356-021-17486-3.