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プロフィール詳細
プロジェクトを作成
★★★★★
☆☆☆☆☆
Dr. Mattia L.に依頼
Italy

PhD Polymer Chemist | Expert in Polymer Research, Materials Development, and Consulting

プロフィール概要
専門分野
サービス
Writing Technical Writing
Research Feasibility Study, Technology Scouting, Scientific and Technical Research, Systematic Literature Review
Consulting Go-to-Market Strategy Consulting, Scientific and Technical Consulting, Manufacturing Consulting
Data & AI Data Visualization, Data Processing
Product Development Formulation, Deformulation, Stability/Shelf Life Testing, Product Evaluation, Material Sourcing, Manufacturing, Packaging Design, Reverse Engineering
職務経験

Rijksuniversiteit Groningen

- 現在

Researcher

L.M.P.E.

10月 2023 - 現在

Scientific Staff, Other Support Staff, Externe medewerker

University of Groningen

4月 2024 - 10月 2024

学歴

PhD Chemistry

Rijksuniversiteit Groningen - RUG

5月 2018 - 10月 2022

Industrial chemistry

University of Bologna (Italy)

10月 2015 - 3月 2018

Industrial chemistry

University of Pisa (Italy)

9月 2011 - 6月 2015

認定資格
  • Effective LCA with SimaPro Desktop

    PRé Sustainability

    5月 2022 - 現在

  • Cambridge certificate of Proficiency in English - CPE

    Cambridge English

    6月 2010 - 現在

出版物
JOURNAL ARTICLE
Mattia Lenti, Daniele Parisi, Patrizio Raffa (2024). Starch benzoylation in supercritical CO2. A novel sustainable route towards biodegradable hydrophobic polymeric materials . Carbohydrate Polymer Technologies and Applications.
Starch benzoylation in supercritical CO2. A novel sustainable route towards biodegradable hydrophobic polymeric materials @article{7387956b8fef4cb09a921caca047accf, title = "Starch benzoylation in supercritical CO2. A novel sustainable route towards biodegradable hydrophobic polymeric materials", abstract = "Starch is one of the best candidates to replace non-renewable plastics thanks to its plentiful availability in nature, and low cost. Food industry produces large amount of starch-containing waste, which are not utilizable as nutrients, therefore have potential for non-food applications. However, some of the physicochemical characteristics of starch, such as low thermal stability and high hydrophilicity are undesirable for many applications. Supercritical CO2 is an attractive alternative media for the chemical modification of starch due to its unique tuneable properties, non-toxicity and reduced cost. In this study we performed the benzoylation of starch using vinyl benzoate via a base-catalysed transesterification reaction in supercritical CO2 employing different reaction conditions (temperature, pressure, reaction time, reagents feed) obtaining a wide range of degrees of substitution (0.01-3.00), as determined via elemental analysis and NMR. The modified starches were fully characterized (FT-IR, TGA, DSC, SEM, contact angle, rheology), revealing an overall increased hydrophobicity and improved thermal stability while retaining most of their biodegradability potential. To the best of our knowledge, this is the first report of benzoylation of starch in supercritical CO2 (scCO2), paving the way for the industrial application of this novel solvent in the hydrophobization of starches.", keywords = "Bioplastics, Esterification, Hydrophobic starch, Starch, Supercritical CO, Sustainable polymers", author = "Mattia Lenti and Daniele Parisi and Patrizio Raffa", note = "Publisher Copyright: {\textcopyright} 2024 The Authors", year = "2024", month = jun, doi = "10.1016/j.carpta.2024.100483", language = "English", volume = "7", journal = "Carbohydrate Polymer Technologies and Applications", issn = "2666-8939", } . Carbohydrate Polymer Technologies and Applications.
Mattia Lenti, Lorenzo Polgar, Francesco Criscitiello, Machiel van Essen, Rodrigo Araya-Hermosilla, Nicola Migliore, Patrizio Raffa, Francesco Picchioni, Andrea Pucci(2018). Thermoreversibly Cross-Linked EPM Rubber Nanocomposites with Carbon Nanotubes . Nanomaterials. 8. (2). Microsoft.AspNetCore.Mvc.Localization.LocalizedHtmlString 58. {MDPI} {AG}