Course guide of Inorganic Chemistry (2041119)

Curso 2024/2025
Approval date: 26/06/2024

Grado (bachelor's degree)

Bachelor'S Degree in Pharmacy

Branch

Ciencias de la Salud

Module

Formación Básica

Subject

Química

Year of study

1

Semester

2

ECTS Credits

6

Course type

Core course

Teaching staff

Theory

  • Víctor Karim Abdelkader Fernández. Grupo: C
  • Francisco Jesús Carmona Fernández. Grupo: B
  • Pablo Garrido Barros. Grupo: F
  • Ricardo Navarrete Casas. Grupo: A
  • Gloria Belén Ramírez Rodríguez. Grupo: D
  • Inmaculada Velo Gala. Grupo: E

Practice

  • Víctor Karim Abdelkader Fernández Grupos: 11, 13, 15, 7 y 9
  • Francisco Jesús Carmona Fernández Grupos: 10, 12, 14 y 16
  • Carmen Rodríguez Maldonado Grupos: 1, 2 y 5
  • Pablo Salcedo Fernández Grupos: 10, 3 y 4

Timetable for tutorials

Víctor Karim Abdelkader Fernández

Email
  • Monday de 10:00 a 13:00 (Qi- Ciencias (Q2) Planta 1, Lab. Sólidos Porosos)
  • Friday de 09:00 a 12:00 (Qi- Ciencias (Q2) Planta 1, Lab. Sólidos Porosos)

Francisco Jesús Carmona Fernández

Email
  • First semester
    • Tuesday de 10:00 a 13:00 (Qi-Ciencias (Q2), Despacho 3)
    • Thursday de 10:00 a 13:00 (Qi-Ciencias (Q2), Despacho 3)
  • Second semester
    • Tuesday de 12:00 a 14:00 (Qi-Ciencias (Q2), Despacho 3)
    • Wednesday de 12:00 a 14:00 (Qi-Ciencias (Q2), Despacho 3)
    • Thursday de 12:00 a 14:00 (Qi-Ciencias (Q2), Despacho 3)

Pablo Garrido Barros

Email
  • Wednesday de 10:00 a 12:30 (Qi-Farmacia, Despacho 285)

Ricardo Navarrete Casas

Email
  • First semester
    • Monday de 12:30 a 14:30 (Qi-Farmacia,Despacho 287)
    • Tuesday de 12:30 a 14:30 (Qi-Farmacia,Despacho 287)
    • Thursday de 12:30 a 14:30 (Qi-Farmacia,Despacho 287)
  • Second semester
    • Tuesday de 11:30 a 13:30 (Qi-Farmacia,Despacho 287)
    • Wednesday de 11:30 a 13:30 (Qi-Farmacia,Despacho 287)
    • Thursday de 11:30 a 13:30 (Qi-Farmacia,Despacho 287)

Gloria Belén Ramírez Rodríguez

Email
  • Tuesday de 09:30 a 12:00 (Qi-Farmacia, Despacho 285)

Inmaculada Velo Gala

Email
  • Tuesday de 10:30 a 11:30 (Qi-Farmacia, Despacho 289)
  • Thursday de 10:30 a 12:00 (Qi-Farmacia, Despacho 289)

Carmen Rodríguez Maldonado

Email
  • Monday de 11:00 a 13:00 (Qi-Ciencias (Q1), Despacho 1)
  • Tuesday de 11:00 a 13:00 (Qi-Ciencias (Q1), Despacho 1)
  • Wednesday de 11:00 a 13:00 (Qi-Ciencias (Q1), Despacho 1)

Pablo Salcedo Fernández

Email
  • Tuesday de 08:30 a 11:00 (Qi-Ciencias (Q2), Despacho 10, Q.Gral)

Prerequisites of recommendations

  • It is highly recommended basic chemical knowledge, at least High School level.
  • It is highly recommended to have completed (and passed) the Course 'Basic Chemical Principles' (Principios Básicos de Química), which is also offered in the first year (first semester) within the degree in Pharmacy.

Brief description of content (According to official validation report)

  • Inorganic Chemistry
  • Non-metallic elements, metals and its compounds
  • Pharmaceutical applications of inorganic elements and compounds

General and specific competences

General competences

  • CG01. Identificar, diseñar, obtener, analizar, controlar y producir fármacos y medicamentos, así como otros productos y materias primas de interés sanitario de uso humano o veterinario. 
  • CG03. Saber aplicar el método científico y adquirir habilidades en el manejo de la legislación, fuentes de información, bibliografía, elaboración de protocolos y demás aspectos que se consideran necesarios para el diseño y evaluación crítica de ensayos preclínicos y clínicos. 
  • CG10. Diseñar, aplicar y evaluar reactivos, métodos y técnicas analíticas clínicas, conociendo los fundamentos básicos de los análisis clínicos y las características y contenidos de los dictámenes de diagnóstico de laboratorio. 
  • CG12. Desarrollar análisis higiénico-sanitarios, especialmente los relacionados con los alimentos y medioambiente. 
  • CG13. Desarrollar habilidades de comunicación e información, tanto orales como escritas, para tratar con pacientes y usuarios del centro donde desempeñe su actividad profesional. Promover las capacidades de trabajo y colaboración en equipos multidisciplinares y las relacionadas con otros profesionales sanitarios. 
  • CG15. Reconocer las propias limitaciones y la necesidad de mantener y actualizar la competencia profesional, prestando especial importancia al autoaprendizaje de nuevos conocimientos basándose en la evidencia científica disponible. 
  • CG16. El trabajo de Fin de Grado está orientado a la evaluación de las competencias genéricas asociadas a la Titulación, por lo que incluye la totalidad de las citadas competencias. 

Specific competences

  • CE01. Identificar, diseñar, obtener, analizar y producir principios activos, fármacos y otros productos y materiales de interés sanitario 
  • CE02. Seleccionar las técnicas y procedimientos apropiados en el diseño, aplicación y evaluación de reactivos, métodos y técnicas analíticas. 
  • CE03. Llevar a cabo procesos de laboratorio estándar incluyendo el uso de equipos científicos de síntesis y análisis, instrumentación apropiada incluida. 
  • CE04. Estimar los riesgos asociados a la utilización de sustancias químicas y procesos de laboratorio. 
  • CE05. Conocer las características físico-químicas de las sustancias utilizadas para la fabricación de los medicamentos. 
  • CE06. Conocer y comprender las características de las reacciones en disolución, los diferentes estados de la materia y los principios de la termodinámica y su aplicación a las ciencias farmacéuticas. 
  • CE07. Conocer y comprender las propiedades características de los elementos y sus compuestos, así como su aplicación en el ámbito farmacéutico. 
  • CE09. Conocer el origen, naturaleza, diseño, obtención, análisis y control de medicamentos y productos sanitarios. 
  • CE10. Conocer los principios y procedimientos para la determinación analítica de compuestos: técnicas analíticas aplicadas al análisis de agua, alimentos y medio ambiente. 

Transversal competences

  • CT02. Capacidad de utilizar con desenvoltura las TICs 

Objectives (Expressed as expected learning outcomes)

  • Knowing the chemical elements and their compounds with special focus on those chemical aspects that are important in the pharmaceutical practice.
  • Knowing and understanding the role of chemical elements and their inorganic compounds in biological systems, both in normal and altered state.
  • Knowing the important role of the transition elements and coordination compounds in fundamental metabolic processes for life.

Detailed syllabus

Theory

Unit 1. Noble Gases and Chemistry of hydrogen.
Group 18 elements: molecular species; physical properties; chemical behavior (reactivity); collection methods; applications. Major compounds. Hydrogen introduction. Isotopes. Molecular hydrogen. Physical Properties. Chemical behavior. Preparation methods. Applications. Biological aspects. Major compounds. Hydrides.

Unit 2. Elements in Group 17.
Introduction. Isotopes. Molecular species. Physical Properties. Chemical behavior. Preparation methods. Applications. Biological aspects. Lead compounds: halides, oxides (binary oxides, oxyacids and oxysalts).

Unit 3. Group 16: Oxygen
Introduction. Molecular species. Physical Properties. Chemical behavior. Preparation methods. Applications. Biological aspects. Major compounds. The water and hydrogen peroxide. The water in the chemicals. Inorganic aspects of water treatment and water purification.

Unit 4. Other elements in Group 16
Introduction. Molecular species. Allotropy and solid phases. Physical Properties. Chemical behavior. Preparation methods. Applications. Biological aspects. Major compounds: hydrides: general aspects. Binary oxides (carbon dioxide and sulfur trioxide); oxyacids (sulfuric acid); oxysalts and other compounds.

Unit 5. Group 15: Nitrogen
Introduction. Physical Properties. Chemical behavior. Preparation methods. Applications. Biological aspects. Major compounds: hydrides (general, ammonia and hydrazine); binary oxides; oxyacids; oxysalts (nitrates and nitrites).

Unit 6. Other elements in Group 15
Introduction. Molecular species. Allotropy and solid phases. Physical Properties. Chemical behavior. Preparation methods. Applications. Biological aspects. Major compounds: hydrides; halides; oxides; oxyacids (phosphoric acid); oxysalts (phosphate and polyphosphate).

Unit 7. Group 14: Carbon.
Introduction. Molecular species. Allotropy. Physical Properties. Chemical resistance (reactivity of molecular and atomic species). Preparation methods. Applications. Biological aspects. Major compounds: halides; binary oxides (carbon monoxide and carbon dioxide); oxyacids and oxysalts (carbonates and bicarbonates, silicates).

Unit 8. Other elements in Group 14.
Introduction. Molecular species. Allotropy. Physical Properties. Chemical resistance (reactivity of molecular and atomic species). Preparation methods. Applications. Biological aspects. Major compounds: hydrides; halides; oxides (silica); oxyacids and oxysalts (silicates).

Unit 9. Elements in Group 13.
Introduction. Molecular species and solid phases. Boro: B12 Unit. Metallic character of the other elements. Physical Properties. Chemical behavior. Preparation methods. Applications. Biological aspects. Major compounds: hydrides (boron hydrides); halides; binary oxides and hydroxides (oxides of boron and aluminum, aluminum hydroxide); oxyacids and oxysalts (borates).

Unit 10. S-block elements.
Introduction: Electronic configuration . Physical Properties . Chemical behavior. Preparation methods. Biological function of these elements in relation to their chemical properties. Importance of calcium in pharmaceutical preparations. Major compounds : hydrides ( ionic or saline hydrides ); halides ; oxides , peroxides , superoxides ; hydroxides ; coordination compounds and organometallic compounds. Interesting applications of these compounds.

Unit 11. D-block elements: First-row transition elements.
Introduction: Electronic configuration. Physical Properties. Chemical behavior. Preparation methods. Applications. Role in biological systems. Major compounds: hydrides; halides (simple and metal- metal); oxides (binary and mixed); hydroxides, oxyhydroxides, and hydroxy salts; oxyacids and oxyanions; sulfides , interstitial phases. Coordination compounds.

Unit 12. D-block elements: Second and third-row transition elements.
Introduction: Electronic configuration. Physical Properties. Chemical behavior. Preparation methods. Applications. Role in biological systems. Major compounds: hydrides; halides (simple and metal-metal); oxides (binary and mixed); hydroxides, oxyhydroxides, and hydroxy salts; oxyacids and oxyanions; sulfides, interstitial phases. Coordination compounds and biological systems.

Unit 13. F-block elements.
Introduction. Electronic configuration. Physical Properties. Characteristic chemical behavior related to their electronic configurations. Preparation methods. Applications. Major compounds. Coordination compounds. Biohealth applications of these compounds in particular gadolinium complexes used as NMR contrast

Practice

Practicum 1.

  • Preparation of a crystallization gel. Study of the chemical properties of the halogens: reactivity and study the variation of the oxidizing capacity. Solubility of halogens and polyiodide formation.

Practicum 2.

  • Study of the chemical properties of compounds formed by metallic elements belonging to the first transition series: chromium, cobalt and copper.

Practicum 3.

  • Study of the coordination complex: [Ni(en)3]SO4
  • Synthesis of the complex. Observation of the different reaction steps.
  • Crystallization of the compound.
  • Calculating the yield of the synthesized product.

Practicum 4.

  • Determination of the amount of nickel(II) in the complex tris(ethylenediamine)nickel(II) sulfate by a complexometric titration using the hexadentate ethylenediaminetetraacetate anion [EDTA(4 -)].

Practicum 5.

  • Systemic and non-systemic antacids
  • Hydroxides as non-systemic antacids.
  • Calculating the percentage of magnesium hydroxide within the commercial drug through reverse titration.

Bibliography

Basic reading list

  • C. Housecroft, A. G. Sharpe, “Química Inorgánica (2ª Edición, 2006) & “Inorganic Chemistry” (4th Edition, 2012), Ed. Pearson, Prentice Hall.
  • M. Weller, T. Overton, J. Rourke, F. Armstrong, “Inorganic Chemistry” (7th Edition), Ed. Oxford University Press, 2018.
  • N. N. Greenwood, A. Earnshaw, “Chemistry of the Elements” (2nd Edition), Ed. Butterworth-Heinemann, 1997.
  • D. F. Shriver, P. W. Atkins, J. Rourke, “Inorganic Chemistry” (5th Edition), Oxford University Press, 2009.
  • W. Henderson, “Main Group Chemistry”, Tutorial Chemistry Texts, Vol. 3, Royal Society of Chemistry, 2000.
  • L. Beyer, V. Fernández-Herrero “Química Inorgánica” Editorial Ariel Ciencia, Barcelona, 2000.
  • C. Valenzuela Calahorro, “Química General e Inorgánica para estudiantes de Farmacia”, Ed. Universidad de Granada, 2002.
  • W. R. Peterson, “Nomenclatura de las sustancias químicas” (4ª Edición), Ed. Reverté, 2016.

Complementary reading

  • B. W. Pfennig, “Principles of Inorganic Chemistry” (1st Edition), Ed. John Wiley & Sons, 2015.
  • R. H. Petrucci, W. S. Harwood, F. G. Herring, “General Chemistry” (11th Edition), Ed. Prentice-Hall, 2017.
  • R. Chang, K. A. Goldsby, “Chemistry” (12th Edition), Ed. Mc Graw Hill, 2017
  • J. Barrett, “Atomic Structure and Periodicity”. The Royal Society of Chemistry, 2002.
  • N. C. Norman, “Periodicity and the s- and p-block elements”, Ed. Oxford Chemistry. Primers-Series Zeneca- Oxford Science Publication, Vol. 51, 1997.
  • Katja A. Strohfeldt, “Essentials of inorganic chemistry: for students of pharmacy, pharmaceutical sciences and medicinal chemistry, Ed. John Wiley & Sons, 2015.

Recommended links

Teaching methods

  • MD01. Lección magistral/expositiva 
  • MD03. Resolución de problemas y estudio de casos prácticos 
  • MD04. Prácticas de laboratorio y/o clínicas y/o oficinas de Farmacia 
  • MD07. Seminarios 
  • MD09. Realización de trabajos en grupo 
  • MD10. Realización de trabajos individuales 
  • MD12. Tutorías 

Assessment methods (Instruments, criteria and percentages)

Ordinary assessment session

EVALUATION INSTRUMENTS

Besides the different complementary tasks developed throughout the Course (activities and/or tests), there will be three kinds of exams:

  • Mid-term exam (check the date on the official website 2024-06-05_Exa menes 2024-2025_Docencia_v.8.xlsx (ugr.es)): mandatory. One exam is carried out during the scheduled classes unless an alternative date is agreed with the students. This exam aims to (a) get students familiar with exams; (b) encourage continuous learning process in students; (c) prepare students for the final exam. This exam will NOT exclude content from the final exam.
  • Practicum Exam: mandatory. Once the practical sessions are finished, a written exam about the Practicum will be performed. This exam will be scheduled by the teachers involved in the Practical Course and communicated to students accordingly.
  • Final exam, at the end of the Course (check the date on the official website 2024-06-05_Exa menes 2024-2025_Docencia_v.8.xlsx (ugr.es)): mandatory. Each teacher will provide the rules of the exam prior to it. In any case, it can include:
    • MULTIPLE CHOICE QUESTIONS
    • THEORY QUESTIONS, SHORT OR LONG VERSION
    • INORGANIC CHEMISTRY NOMENCLATURE
    • PERIODIC TABLE

EVALUATION AND QUALIFICATION CRITERIA

  1. It is mandatory to carry out the Practicum Course to pass the subject within the ordinary call.
  2. The final grade will be calculated according to the percentages detailed as follows. The evaluation will be based on different items in which students must demonstrate a uniform and balanced understanding of all the subjects, according to the following percentages:
  • Mid-term exam: 15% grade.
  • Practicum Exam (written): 15% grade.
  • Final exam: 65% grade. A minimum qualification of 4/10 is required in the final exam to apply the percentage calculations
  • Class attendance: 5% grade

Extraordinary assessment session

EVALUATION INSTRUMENTS

Besides the different complementary tasks assigned by the teacher, there will be two kinds of exams:

  • Practicum Exam: mandatory. A written or practical exam for the assessment of the learning objectives of the Practicum will be performed. The teacher will communicate the nature of the exam (written or practical) in advance to the student. If the exam is written, it will be carried out along with the Theoretical exam. Otherwise, a date, close to the final exam, will be agreed to perform the practical exam in the laboratories of the Inorganic Chemistry department at the Faculty of Pharmacy.
  • Theoretical exam (check the date on the official website 2024-06-05_Exa menes 2024-2025_Docencia_v.8.xlsx (ugr.es)): mandatory. Each teacher will provide the rules of the exam prior to it. In any case, it can include:
    • MULTIPLE CHOICE QUESTIONS
    • THEORY QUESTIONS, SHORT OR LONG VERSION
    • INORGANIC CHEMISTRY NOMENCLATURE
    • PERIODIC TABLE

EVALUATION AND QUALIFICATION CRITERIA

  1. The final grade will be calculated according to the percentages detailed as follows. The evaluation will be based on different items in which students must demonstrate a uniform and balanced understanding of all the subjects, according to the following percentages:
  • Practicum Exam (written or practical): 15% grade.
  • Theoretical exam - test: 40% grade.
  • Theoretical exam - long theory questions: 45% grade.

Unless another thing is indicated by the student, the qualifications from the practicum exam will be kept from the ordinary evaluation. Nonetheless, the student can always renounce his/her previous qualification and ask for a new practicum exam. In such case, the student must write an email via PRADO to the professor indicating such claim in a maximum of 5 days after the qualification is uploaded in his official records, which the student explicitely refusing the previous one.

Single final assessment

Those students who, according to those reasons specified at the University of Granada regulation (see Normativa de Evaluación y de Calificación de los Estudiantes de la Universidad de Granada), cannot attend regularly to the classes, and therefore cannot follow the continuous assessment plan, they can ask for a final single final assessment. This request must be addressed to the Head of the Department within the first two weeks of the subject, explaining their motivation. For further information, please visit Texto consolidado de la "Normativa de evaluación y de calificación de los estudiantes de la Universidad de Granada" | Universidad de Granada (ugr.es))

This assessment consists of a single academic event, the same day as the ordinary and extraordinary calls. Students should show a balanced knowledge of the subject and the acquisition of the competencies described in the Learning Guide to pass the Inorganic Chemistry Course. In this Single final assessment, two exams will be carried out:

  • Theoretical exam: 85% of the final grade
  • Practicum Exam (written or practical): 15% of the final grade

The teacher will communicate the nature of the Practicum exam (written or practical) in advance to the student. If the exam is written, it will be carried out along with the Theoretical exam. Otherwise, a date, close to the final exam, will be agreed to perform the practical exam in the laboratories of the Inorganic Chemistry department at the Faculty of Pharmacy.

Additional information

  • Students with Specific Educational Support Needs (SEN)

Following the recommendations of the CRUE and the Secretariat for Inclusion and Diversity of the University of Granada, acquisition and evaluation systems of the competencies set out in this learning guide shall be applied in accordance with the principle of "design for all", making it easier to learn and demonstrate knowledge according to the needs and functional diversity of students. The teaching methodology and assessment will be adapted to students with specific educational support needs, in accordance with Article 11 of the Regulations for the Evaluation and Grading of Students of the University of Granada, published in the "Boletín Oficial" of the University of Granada nº 112, 9th November 2016.

  • Inclusion and Diversity at UGR

For students with disabilities or other specific educational support needs, the tutoring system should be adapted to their needs, according to the recommendations of the University's Inclusion Unit, proceeding with the Department and Faculty to establish appropriate protocols to ensure that tutorials are carried out in accessible places. Likewise, at the request of the teacher, additional support might be requested to the competent unit of the University in case of special methodological procedures are needed.