Sustainable Chemistry
Education objectives
The PhD Programme in Sustainable Chemistry aims to offer a graduate training that brings together expertise in Chemistry, Biochemistry, Chemical Engineering, Pharmaceutical Sciences and Biomedical Sciences and initiate students in the following characteristics:
- Ability to systematically understand in new situations or contexts multidisciplinary and comprehensive in the various fields of Sustainable Chemistry;
- Skills and abilities to integrate knowledge, including a close connection and interdependence between basic science and technology, so characteristic of Sustainable Chemistry;
- Ability to conceive, design and develop scientific research in Sustainable Chemistry identifying appropriate research methods to solve complex problems and no single solution in new situations or contexts that require use of multidisciplinary knowledge;
- Having performed a substantial body of original research and competitive, in accordance with the requirements and standards accepted internationally, at least part of that investigation must have been published or accepted for publication in specialized journals system with independent evaluators;
- Being able to critically analyze the results, evaluate and synthesise new and complex situations developing solutions and making decisions in situations of limited or incomplete information, and assessing their suitability;
- Being able to communicate their knowledge in Sustainable Chemistry, and reasoning and conclusions, the experts and practitioners, in a clear and unambiguous;
- Being able by using its knowledge and / or research findings, to exemplify the link between knowledge and technology and to reflect on the relevance of both social progress, cultural or technological.
Employability
The degree of Doctor of Sustainable Chemistry will enable the access to a career in teaching or research in Chemistry, Chemical Engineering, Pharmaceutical Sciences or Biomedical Sciences. Given the training received in the PhD program that involves multidisciplinary knowledge in related areas of chemistry, Doctors in Sustainable Chemistry are entitled to perform functions of research and development in the above areas with special awareness of the technology transfer and the industrial innovation.
General characterization
DGES code
906
Cicle
PhD (3rd Cycle)
Degree
Doutor
Access to other programs
Available soon
Coordinator
Ana Isabel Nobre Martins Aguiar de Oliveira Ricardo
Opening date
October
Vacancies
Available soon
Fees
Available soon
Schedule
It depends on the working method of each training course. The working time for the classes will be agreed with each PhD student, or when there are more than 10 students in each year, it will be agreed with all students of the programme.
Teaching language
Available soon
Degree pre-requisites
Duration: 4 years
Credits: 240 ECTS
Mandatory scientifc areas
Scientific Area | Acronym | ECTS | |
Mandatory | Optional | ||
Chemistry | Q | 200 | - |
Chemical Engineering | EQ | 3 | - |
Management | G | 5 | - |
Chemistry / Chemical Engineering / Biotechnology / Biochemistry / Materials Sciences and Engineering / Environment Sciences and Engineering | Q / EQ / Bt / Bq / CEM / CEA | - | 12 |
TOTAL | 228 | 12 |
Conditions of admittance
Available soon
Evaluation rules
Available soon
Structure
1.º Semester | ||
---|---|---|
Code | Name | ECTS |
11352 | Communication Skills and Elements of Ethics and Deontology | 2.0 |
11350 | Product Design and Sustainable Materials | 2.0 |
11349 | Introduction to Sustainable Chemistry | 2.0 |
11351 | Molecular and Macromolecular Characterization Techniques | 4.0 |
11353 | Sustainable Technologies and Processes | 2.0 |
1.º Semester - Opção 1 | ||
---|---|---|
Code | Name | ECTS |
Options | ||
11600 | Structural Analysis D | 4.0 |
11597 | Biocatalysis | 4.0 |
11595 | Biodegradation and Bioremediation | 4.0 |
11593 | Industrial Biotechnology | 4.0 |
11591 | Design of New Catalysts | 4.0 |
11602 | In Silico Strategies for Green Chemistry | 4.0 |
11360 | Light and Energy Conversion | 4.0 |
11592 | Quantum Mechanics and Spectroscopy | 4.0 |
11598 | Green Separation Methods | 4.0 |
11359 | New Synthetic Strategies | 4.0 |
11599 | Chemical Biology | 4.0 |
11594 | Material Resources and Renew able Energy | 4.0 |
11596 | Food Safety | 4.0 |
11361 | Solventes Alternativos e Processos Sustentáveis | 4.0 |
11601 | Environmental Toxicology | 4.0 |
1.º Semester - Opção 2 | ||
---|---|---|
Code | Name | ECTS |
Options | ||
11600 | Structural Analysis D | 4.0 |
11597 | Biocatalysis | 4.0 |
11595 | Biodegradation and Bioremediation | 4.0 |
11593 | Industrial Biotechnology | 4.0 |
11591 | Design of New Catalysts | 4.0 |
11602 | In Silico Strategies for Green Chemistry | 4.0 |
11360 | Light and Energy Conversion | 4.0 |
11592 | Quantum Mechanics and Spectroscopy | 4.0 |
11598 | Green Separation Methods | 4.0 |
11359 | New Synthetic Strategies | 4.0 |
11599 | Chemical Biology | 4.0 |
11594 | Material Resources and Renew able Energy | 4.0 |
11596 | Food Safety | 4.0 |
11361 | Solventes Alternativos e Processos Sustentáveis | 4.0 |
11601 | Environmental Toxicology | 4.0 |
1.º Semester - Opção 3 | ||
---|---|---|
Code | Name | ECTS |
Options | ||
11600 | Structural Analysis D | 4.0 |
11597 | Biocatalysis | 4.0 |
11595 | Biodegradation and Bioremediation | 4.0 |
11593 | Industrial Biotechnology | 4.0 |
11591 | Design of New Catalysts | 4.0 |
11602 | In Silico Strategies for Green Chemistry | 4.0 |
11360 | Light and Energy Conversion | 4.0 |
11592 | Quantum Mechanics and Spectroscopy | 4.0 |
11598 | Green Separation Methods | 4.0 |
11359 | New Synthetic Strategies | 4.0 |
11599 | Chemical Biology | 4.0 |
11594 | Material Resources and Renew able Energy | 4.0 |
11596 | Food Safety | 4.0 |
11361 | Solventes Alternativos e Processos Sustentáveis | 4.0 |
11601 | Environmental Toxicology | 4.0 |
2.º Semester | ||
---|---|---|
Code | Name | ECTS |
11356 | Entrepreneurship Skills | 3.0 |
11357 | Research Laboratory Project | 12.0 |
11355 | Thesis Project | 12.0 |
11354 | Seminar | 3.0 |
11298 | Advanced Topics | 6.0 |
2.º Year | ||
---|---|---|
Code | Name | ECTS |
11358 | Thesis in Sustainable chemistry | 180.0 |