FIESTASO

Temari

$Difracció Elàstica$

Power Points

Inici sessió - Identificació UB - Universitat de Barcelona

Per poder autenticar-vos és necessari introduir correctament la targeta amb el certificat digital. Premeu "Continua" quan l'hàgiu introduïda.(Temporalment el navegador Internet Explorer no està suportat)

https://campusvirtual.ub.edu/course/view.php?id=90594#section-3

Presentació

¡NOU!__M2_T1__unitat_1__intro_curs__fes_presentacio__tardor_2024.pdf

2850.6KB

unitat 1 FES presentació Primavera 2023-2024-CV-1.pdf

3657.6KB

Cristal·lografia

PP Crist Versió 1

7339.8KB

PowerPoint Cristal·lografia

5987.8KB

Resum cristal·lografia

unitat 2 apunts fes tardor 2016.pdf

678.2KB

GIFs

BCC

Diamant

FCC

Diagrames interactius 3D

Llistat de webs útils

‣

Altres (JSmol)

Simple cubic: Interactive 3D Structure

The simplest cubic lattice is shown in interactive 3D for advanced school chemistry and undergraduate chemistry education hosted by University of Liverpool

https://www.chemtube3d.com/simple-cubic-lattice/

Body-centred cubic - bcc: Interactive 3D Structure

Interactive 3D chemistry animations of reaction mechanisms and 3D models of chemical structures for students studying University courses and advanced school chemistry hosted by University of Liverpool

https://www.chemtube3d.com/_bccfinal/

CrCp2

https://www.chemtube3d.com/crcp2/

TOTS

3D crystal models

You can see much more examples at: "Crystal Structure Tutorials" has a ton of resources on crystal formations that might be useful (thanks to Donna Kennan) "Materials Science. Introduction to Concepts" by Simon Toh and Teaching and Education in Crystallography.

https://www.ibiblio.org/e-notes/Cryst/Cryst.htm

SCC

BCC

Exercicis de cristal·lografia

Exercise problems 3: Crystal structure

In a crystal, atoms are arranged in straight rows in a three-dimensional periodic pattern. A small part of the crystal that can be repeated to form the entire crystal is called a unit cell.

http://lampx.tugraz.at/~hadley/ss1/problems/problems_crystal.php

Cristal·lografia computacional

Ca.R.Ine Crystallography

Application fields: Materials science; Modelling; Powder; Scattering; Teaching; Topology, symmetry

https://www.iucr.org/resources/other-directories/software/ca.r.ine-crystallography

Aviam si la següent torna a anar un dia

www.dawgsdk.org

http://www.dawgsdk.org/crystal/en/library/fcc#0002

Altres apunts i PowerPoints

Crystal Structure Review

A review of some of the important crystal structures in metals: face-centered cubic FCC (or cubic close packed CCP), body centered cubic BCC, and hexagonal close packed HCP structures. Interstitial sites are identified and explained. Close-packed planes and directions are also identified and the relationships between them discussed.

https://www.youtube.com/watch?v=iPb8vRtroLU

lecturenotes-classroom-assignment-and-submission.s3.ap-south-1.amazonaws.com

https://lecturenotes-classroom-assignment-and-submission.s3.ap-south-1.amazonaws.com/8ohbfa-4079369bd1-l2.pdf

atecentral.net

https://atecentral.net/downloads/9013/scme_webinar_slides_mems201_062812.pdf

ac.fiu.edu

https://ac.fiu.edu/wp-content/uploads/2017/08/Callister_ch03-2_ZC.pdf

Bibliografia

Oficial

~~Kittel, Charles.~~ ~~Introducción a la física del estado sólido. 3a ed. Barcelona: Reverté, 1993~~

~~Ashcroft, Neil W.; Mermin, N. David.~~ ~~Solid state physics. Philadelphia: Saunders College, 1988~~

~~Gómez Antón, Ana.~~ ~~Física del estado sólido. Madrid: Universidad Nacional de Educación a Distancia, 1993.~~

~~Christman, J. Richard.~~ ~~Fundamentals of solid state physics. New York: Wiley, 1988~~

~~Piqueras de Noriega, Javier; Rojo, Juan Manuel.~~ ~~Problemas de Introducción a la física del estado sólido. Madrid: Alhambra, 1979~~

~~Goldsmid, H. Julian (ed.),~~ ~~Problemas de física del estado sólido. Barcelona: Reverté, 1975~~

~~Cazaux, Jacques.~~ ~~Initiation à la physique du solide: exercices commentés avec rappels de cours. 3è ed. rev. et corr. París: Masson, 1996~~

~~Mihály, László; Martin, Michael C.,~~ ~~Solid state physics: problems and solutions. New York: Wiley, 1996~~

~~Meléndez Martínez, Juan José.~~ ~~Física del estado sólido. Cáceres: Universidad de Extremadura. Servicio de Publicaciones, 2012~~

~~Han, Fuxiang.~~ ~~Problems in solid state physics with solutions. New Jersey: World Scientific, 2012~~

~~Ferrari, Valeria.~~ ~~Sólidos. Un enfoque conceptual.~~ ~~Barcelona: Reverté, 2022.~~

Grosso, Giuseppe; Pastori Parravicini, Giuseppe. Solid state physics. San Diego: Academic Press, 2000

Solid State Physics - Giuseppe Grosso & Giuseppe Pastori Parravicini (2013).pdf

10933.4KB

No oficial

Understanding solid state physics, problems and solutions - Jacques Cazaux.pdf

7005.3KB

Imatges

Exàmens

Parcials

24 d’octubre (dijous)

21 novembre (dijous)

12 de desembre (dijous)

Final

8 de gener (crec)

Altres

Part de física de la matèria condensada (gran nombre d’elements que interaccionen de manera forta). Concretament dins de la “Hard matter” i dins els “Sòlids cristalins

Diagrama



graph TD
		%% Colors %%
		
		classDef blue fill:#2374f7,stroke:#000,stroke-width:2px,color:#fff
		
		classDef pink fill:#eb3dd6,stroke:#000,stroke-width:2px,color:#fff
		
		classDef orange fill:#fc822b,stroke:#000,stroke-width:2px,color:#fff
		
		classDef red fill:#ed2633,stroke:#000,stroke-width:2px,color:#fff
		
		classDef green fill:#16b522,stroke:#000,stroke-width:2px,color:#fff
		
		%% Diagram %%
    A["Condensed Matter Systems"]:::blue --> B["Hard Matter"]:::pink
    A --> C["Soft Matter"]
    
    B --> D["Crystalline Solids (Metals, Insulators, Semiconductors)"]:::red
    B --> E["Non-Crystalline Solids"]
    
    D --> F["Crystalline Solids + Defects (point, dislocations, surfaces, and interfaces)"]
    
    E --> G["Quasicrystals"]
    E --> H["Amorphous Solids (Glass)"]
    E --> I["Polymer Solids (Glass and Rubber)"]

I encara més concretament


graph TD

		%% Colors %%
		classDef blue fill:#2374f7,stroke:#000,stroke-width:2px,color:#fff
		
		classDef pink fill:#eb3dd6,stroke:#000,stroke-width:2px,color:#fff
		
		classDef orange fill:#fc822b,stroke:#000,stroke-width:2px,color:#fff
		
		classDef red fill:#ed2633,stroke:#000,stroke-width:2px,color:#fff
		
		classDef green fill:#16b522,stroke:#000,stroke-width:2px,color:#fff
		
		%% Diagram %%
    A["Physics of the Solid State"]:::blue --> B["Semiconductor Properties"]:::red
    A --> C["Magnetic Properties"]
    A --> D["Solid State Electronics"]
    A --> E["Crystal Lattice"]:::red
    A --> F["Metals"]:::red
    A --> G["Electrical Properties"]
    A --> H["Band Theory of Solids"]
    A --> I["Superconductivity"]
    
    B --> J["Solid State Electronics"]
    
    E --> K["Lattice Vibrations"]:::red
    E --> L["Fermi Energy"]:::red
    
    K --> M["Specific Heat"]
    L --> N["Electron Density"]:::red
    
    G --> O["Dielectric Media"]
    G --> P["Piezoelectric Effect"]
    
    C --> Q["Ferromagnetism"]
    C --> R["Paramagnetism"]
    C --> S["Diamagnetism"]