BrainMap

Mrs. Naomi Tritean

CS III

Senior Scientific Researcher - Institutul National de Cercetare-Dezvoltare pentru Chimie si Petrochimie - ICECHIM Bucuresti

Researcher

Web of Science ResearcherID: https://publons.com/researcher/1674116/naomi-tritean/

Curriculum Vitae (15/01/2026)

Expertise & keywords

Foliar fertilizers with increased effectiveness Call name: P 2 - SP 2.1 - Proiect de transfer la operatorul economic
PN-III-P2-2.1-PTE-2021-0414 2022 - 2024

Role in this project:

Coordinating institution: AGSIRA SRL

Project partners: AGSIRA SRL (RO); Institutul National de Cercetare-Dezvoltare pentru Chimie si Petrochimie - ICECHIM Bucuresti (RO); INSTITUTUL NATIONAL DE CERCETARE-DEZVOLTARE PENTRU PEDOLOGIE, AGROCHIMIE SI PROTECTIA MEDIULUI - ICPA BUCURESTI (RO)

Affiliation:

Project website: https://agsira.ro/fertilizanti-foliari-cu-eficacitate-crescuta/

Abstract:

The aim of the project is to increase the competitiveness of the coordinating company, Agsira SRL, and of the farmers using high efficiency fertilizers proposed by the project, by assimilating a RDI result in the field of circular bioeconomy.

The high efficiency fertilizers proposed by this project are in the category of liquid fertilizers, which are applied as a treatment for the aerial parts of plants, by spraying. The novelty is that these fertilizers include brewer's yeast walls with multiple roles: formulation agent (surfactant, moisturizer and foliar adhesive), chelating for mineral oligo- and micro-nutrients and biostimulant for plants.

The objectives of the project are: (i) the development of a pilot plant for the production of high efficiency foliar fertilizers; (ii) validation of pilot technology for the production of high efficiency fertilizers in an industrial environment; (iii) demonstration of the functionality of the technology in the industrial environment by characterizing and testing high efficiency fertilizers.

The main innovative aspect is the use of yeast cell walls as a multifunctional ingredient, formulation agent (surfactant, moisturizer and foliar adhesive), chelating for oligo- and micro-nutrients and biostimulant for plants. Another innovative aspect is the use of a second generation biostimulant, which includes exo-signals for crop plants. Through the proposed project we intend to validate and demonstrate in the industrial environment the fertilizer manufacturing technology using this second generation of plant biostimulants, concentrated exo-signals from the category of elicitors produced from yeast cell wall, which are combined with mannoproteins, formulation agent and chelating.

Integrated use of the next generation plant biostimulants for an enhanced sustainability of field vegetable high residue farming systems Call name: EEA Grants - Proiecte Colaborative de Cercetare
RO-NO-2019-0540 2020 - 2024

Role in this project:

Coordinating institution: Institutul National de Cercetare-Dezvoltare pentru Chimie si Petrochimie - ICECHIM Bucuresti

Project partners: Institutul National de Cercetare-Dezvoltare pentru Chimie si Petrochimie - ICECHIM Bucuresti (RO); Norwegian Institute for Water Research (NO); INSTITUTUL DE CHIMIE MACROMOLECULARA "PETRU PONI" (RO); Norgenotech AS (NO); ENPRO SOCTECH COM SRL (RO); AMIA INTERNATIONAL IMPORT EXPORT S.R.L. (RO)

Affiliation:

Project website: https://icechim.ro/project/stim4plus-en/

Abstract:

The project addresses mainly the thematic area of Biotechnology, more exactly the key topic Biotechnology for agriculture, aquaculture, forestry and biomass production. The biotechnological solutions which STIM4+ project proposes to develop are intended to compensate the negative effects of the low-input, high-residue sustainable vegetable production systems. These proposed biotechnological solutions are related to the use of the next generation plant biostimulants. Plant biostimulants represent an emerging class of agricultural input, which protect plants against abiotic stress, enhance / benefits nutrients uptake and improve yield quality . The proposed plant biostimulants to be used for an enhanced sustainability of field vegetables grown in a high residue system are including into all classes / subclasses mentioned in the new EU Regulation 1009/2019. The multi-functional Trichoderma strains-based plant biostimulants (a microbial plant biostimulants) will be included into a glycodinameric, chitosan based bioactive (micro)hydrogel formulation. Decoration of microgels with anchor peptides will be used as a (micro)hydrogel tackifier on the plant residues. The bioactive hydrogel is based on an organic plant biostimulants (chitosan), which will be used to generate a biocompatible 3D porous structure, thermo- and pH-responsive and with a hydrophilic – hydrophobic segregation feature. This hydrophilic – hydrophobic segregation (micro)hydrogels will be used for embedding hydrophobic mimetic strigolactones. Propper application technologies of such smart formulated hydrophobic molecules will be developed, to exploit strigolactones both functions, as exo-signals for a better harnessing of beneficial microbiome and as cue for deleterious organisms (e.g. to induce suicidal germination of parasitic plants). The smart formulated bioproducts / agricultural inputs and the agricultural practices intended to exploit their specific features of such bioproducts are an example of biotechnologies for agriculture. The natural strigolactones mimics will be a part of the microbial standardized extract, which we intend to produce from microalgae culture and which is another example of organic plant biostimulant. This microbial standardized extract will include natural strigolactones, polyamines and betaines. Both strigolactones and polyamines are exo- and endo-signals. As exo-signals, both strigolactones and polyamines have been demonstrated to enhance mycorrhizae hyphal branching and root colonization. As endo-signals, both strigolactones and polyamines are involved in plant stress responses. Betaine also supports plant response to stress, especially to drought. Strigolactone mimics used for laboratory screening will be synthetized based on a rational bio-design. The inorganic plant biostimulants are represented by selenium, as zerovalent nano-selenium. A large body of evidence demonstrates that selenium acts as a plant biostimulant. Selenium protects plants against abiotic stress, especially drought, enhances / benefits nutrient uptake and improves edible yield quality. Nanoselenium (zerovalent) particles show a much lower environmental impact and an improved efficiency compared to other selenium species. Application of selenium nanoparticles reduces the risk of accumulation of polyamines in the edible yield. From a food safety point-of-view, accumulation of polyamines in vegetables grown into HV mulch could have some carcinogenic effects, because polyamines were found to support proliferation of various tumor cells.

The project is an interdisciplinary one and address also other key topics as Environmental impact and risk assessment of the modern, new and emerging technologies and products. Safety and environmental impact of the new developed products will be determined by a state-of-art 3R techniques, by Norway partners. The project contributes to the objectives and the priorities of the call. It supports research cooperation between Romania and Norway and consolidate a strategic partnership.

Better harnessing of Trichoderma biotechnological potential for biorefinery and as plant biostimulants by controlled development and biosynthesis Call name: P 4 - Proiecte de Cercetare Exploratorie, 2020
PN-III-P4-ID-PCE-2020-2780 2021 - 2023

Role in this project:

Coordinating institution: Institutul National de Cercetare-Dezvoltare pentru Chimie si Petrochimie - ICECHIM Bucuresti

Project partners: Institutul National de Cercetare-Dezvoltare pentru Chimie si Petrochimie - ICECHIM Bucuresti (RO)

Affiliation:

Project website: https://icechim.ro/total

Abstract:

Project TOTAL aims to investigate and integrate abiotic modulation and epigenetic control of Trichoderma strains within the context of Trichoderma interactions with biomass and living matter, for better harnessing of Trichoderma biotechnological potential. The specific objectives of the project are: (i) To establish and optimize the combined effects of light and nutrients on expression of proteins acting on plant cell walls and spore formation by Trichoderma strains; (ii) To optimize the deconstruction of plant cell walls by Trichoderma secreted proteins; (iii) To synergize the plant biostimulants effects of Trichoderma chlamydospores. The current approaches targeted the optimization of Trichoderma utilization either in agriculture or in biorefinery. The optimization of culture conditions have been in general focused either on improving sporulation to be used in biopesticides formulations or on the enzyme production for biomass deconstruction. Secondary products have been usually disregarded and discarded. An integrative technology to benefit from both advantages that Trichoderma offers has not been established. We plan to integrate the investigation of the fundamental aspects of Trichoderma development (light-, nutrient- and stress- mediated chlamydospore formation; cell signaling pathways; epigenetic effects) with its growth optimization for the use in both biomass valorization and plant biostimulant formulations.

Biogenic nano-system for targeted delivery of bioactive ingredients on dysbiosis biofilm involved in gingivitis and periodontitis Call name: P 2 - SP 2.1 - Proiect experimental - demonstrativ
PN-III-P2-2.1-PED-2019-4527 2020 - 2022

Role in this project:

Coordinating institution: Institutul National de Cercetare-Dezvoltare pentru Chimie si Petrochimie - ICECHIM Bucuresti

Project partners: Institutul National de Cercetare-Dezvoltare pentru Chimie si Petrochimie - ICECHIM Bucuresti (RO)

Affiliation: Institutul National de Cercetare-Dezvoltare pentru Chimie si Petrochimie - ICECHIM Bucuresti (RO)

Project website: https://icechim.ro/project/bionanogum-en/

Abstract:

BioNanoGum project proposal aims to develop an innovative biogenic nano-system for resolution of dysbiosis oral biofilms and inflammation involved in gingivitis and periodontitis, based on an innovative bacterial nanocellulose - fungal (nano)chitosan stimuli-responsive hydrogel, biogenic selenium nanoparticles (bioSeNPs), and hollow pollen shells filled with biogenic silica nanoparticles (bioSiOxNPs). Gingivitis and periodontitis affect more than 30% of globe population and can lead to teeth loss, but also other complications and severe diseases (Alzheimer, diabetes, autoimmune diseases). SeNPs, silicic acid released from SiOxNPs, and chitosan nano-structures determine (frank) resolution of dysbiosis biofilms and inflammation. However, there are also several drawbacks such as a very narrow physiological window (in the case of Se), or induced inflammation through a MAMPs similar mechanism, mediated by the Toll-like receptors (in the case of SiOxNPs). New formulations are needed in order to reduce risks of negative effects and to optimize the beneficial effects. BioNanoGum will use compounds acting complementary to SeNPs, which will lead to the reduction of Se dose. The pollen shells, obtained by Kombucha fermentation, will be used as encapsulation carriers for SiOxNPs, which allows bearing benefits from the anti-inflammatory, anti-bacterial and wound-healing effects of the silicic acid slowly released from bioSiOxNPs. The biogenic nano-system will deliver different components into a complementary manner and will act both on the resolution of pathogenic biofilms and on that of inflammation. BioNanoGum involves the niche between biotechnology and nanotechnology with health applications. This niche market has a significant growing potential, because it addresses several of the main health problems in the European Union and worldwide, from the beginning of the 21st century : an ageing population, with an increased incidence of non-communicable / chronic disease.

Biorefining of the side streams resulted from cyprinids commercialization Call name: P 2 - SP 2.1 - Proiect de transfer la operatorul economic
PN-III-P2-2.1-PTE-2019-0181 2020 - 2022

Role in this project:

Coordinating institution: MEDICA FARMIMPEX S.R.L.

Project partners: MEDICA FARMIMPEX S.R.L. (RO); INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU STIINTE BIOLOGICE (RO); Institutul National de Cercetare-Dezvoltare pentru Chimie si Petrochimie - ICECHIM Bucuresti (RO)

Affiliation: Institutul National de Cercetare-Dezvoltare pentru Chimie si Petrochimie - ICECHIM Bucuresti (RO)

Project website: http://info.pro-natura.ro/colstim/

Abstract:

The aim of the project is to increase the competitivness of the coordinating company Medica Farmimpex and of the economic agents beneficiaries of the products obtained by the project, by assimilating some CDI results and by strengthening the partnership with research units in the fild of Bioeconomy-Biotechnology.

As result of this project it is expected to obtain high value-added products, trough an integrated extractive biotechnology, from the side streams of the commercialization of freshwater fish (cypridins).

Through the biotechnology that would be carried out at industrial level by the project coordinator, they will recover from the lateral flows of freshwater fish processing: collagen hydrolysate (nutraceuticals for human use) and gelatin like polypeptides (plant biostimulants). The remaining residue after the extraction of the peptides is processed into bone flour which is an essential nutritional supplement for feeding predatory fishes. Each of these products has a high use value associated with a significant market value.

The objectives of the project are: (i) to develope a pilot installation to obtain high valued products from the side streams of the fish commercialization; (ii) to validate the integrated technology in industrial environment; (iii) to demonstrate the functionality of the technology in the industrial environment by characterising and testing the obtained high added - value products.

The innovative character is given by the integrated concept of total capitalisation of the fish by-products. Another innovative aspect is the development of the quality assurance system, using NIR spectroscopic sensors coupled with a chemometric analysis.

The project parteners are INCDSB and INCD-ICHECHIM. INCDSB has the necessary expertise to transfer the technology for obtaining collagen hydrolysates. INCD-ICECHIM has the expertise to obtain and characterise the peptides as plants biostimulants.

Closing the bioeconomy value chains by manufacturing market demanded innovative bioproducts Call name: P 1 - SP 1.2 - Proiecte complexe realizate in consorții CDI
PN-III-P1-1.2-PCCDI-2017-0569 2018 - 2021

Role in this project:

Coordinating institution: Institutul National de Cercetare-Dezvoltare pentru Chimie si Petrochimie - ICECHIM Bucuresti

Project partners: Institutul National de Cercetare-Dezvoltare pentru Chimie si Petrochimie - ICECHIM Bucuresti (RO); INSTITUTUL DE CHIMIE MACROMOLECULARA "PETRU PONI" (RO); UNIVERSITATEA "DUNAREA DE JOS" (RO); INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU STIINTE BIOLOGICE (RO); UNIVERSITATEA AUREL VLAICU ARAD (RO)

Affiliation: Institutul National de Cercetare-Dezvoltare pentru Chimie si Petrochimie - ICECHIM Bucuresti (RO)

Project website: http://icechim-rezultate.ro/proiect.php?id=51&lang=ro

Abstract:

Agriculture and food industry in Romania generates large amounts of co/by-products, which are not used and turn into wastes, with negative impacts. The approach of the project PRO-SPER is to develop integrated processes, flexible and interconnected, to transform a number of agro-food by-products in bio-products, with market demand. This approach facilitates the achievement of project goals, complex-coordination and linking of the research organizations that are members of the Consortium, INCDCP-ICMPP, UDJ, ICECHIM, INCDSB and UAV, for improving their institutional performance in the field of nano-and bio-technologies of their application into bioeconomy.

The overall objective of the project PRO-SPER is to increase the impact of research and development activities and innovation of the RDI institutions, by developing and harnessing innovative technological solutions for bio-nano-processing of several by-products from the bioeconomy value chains, for recovering and/or formation of value-added components and their use in order to obtain products with high added value.

Expected results through the implementation of the project (21 new jobs, 23 national patent applications and international patent applications 6 EPO/WIPO; 10 technologies/new products resulting from the project, at a level of technological maturity to enable taking over by the operators, 5 services research and technological research services 10 cheques, 10 experiments cheques services

80 internship of young researchers from and within partner institutions, 50 visits for developing new techniques for working jointly in the Consortium, 30 training internships for new employees, 28scientific papers, 1 joint program CDI, in line with the development plan of institutional partners) have a significant impact on the capacity-building of the partners in the Consortium.

FILE DESCRIPTION	DOCUMENT
List of research grants as project coordinator or partner team leader
Significant R&D projects for enterprises, as project manager
R&D activities in enterprises
Peer-review activity for international programs/projects