Semimetal
13 | 14 | 15 | 16 | 17 | |
---|---|---|---|---|---|
2 | B Boro |
C Carbono |
N Nitrógeno |
O Oxígeno |
F Flúor |
3 | Al Aluminio |
Si Silicio |
P Fósforo |
S Azufre |
Cl Cloro |
4 | Ga Galio |
Ge Germanio |
As Arsénico |
Se Selenio |
Br Bromo |
5 | In Indio |
Sn Estaño |
Sb Antimonio |
Te Telurio |
I Iodo |
6 | Tl Talio |
Pb Plomo |
Bi Bismuto |
Po Polonio |
At Astato |
Como con los metales y los no metales, los semimetales (también conocidos como metaloides) comprenden una de las tres categorías de elementos químicos siguiendo una clasificación de acuerdo con las propiedades de enlace e ionización.[1] Se caracterizan por presentar un comportamiento intermedio entre los metales y los no metales, compartiendo características de ambos. Por norma general y en la mayoría de los casos, tienden a reaccionar químicamente con no metales, aunque hay ciertos compuestos formados por metal y semimetal como por ejemplo el boruro de magnesio. Pueden ser tanto brillantes como opacos, y su forma puede cambiar fácilmente. Generalmente, los metaloides son mejores conductores de calor y de electricidad que los no metales, pero no tanto como los metales. No hay una forma unívoca de distinguir los metaloides de los metales verdaderos, pero generalmente se diferencian en que los metaloides son semiconductores antes que conductores. A diferencia de los metales, los cuales al aumentar la temperatura disminuye su conductividad eléctrica, en los semimetales aumentar la temperatura supone lo contrario, aumenta su conductividad eléctrica. Los no metales son opacos y de varios colores. Suelen ser utilizados en ocasiones para formar aleaciones. Pueden ser anfóteros o levemente ácidos.
Son considerados metaloides los siguientes elementos:
Dentro de la tabla periódica los metaloides se encuentran en línea diagonal desde el boro al ástato (este último no está incluido). Los elementos que se encuentran encima a la derecha son no metales, y los que se encuentran debajo a la izquierda son metales.
Todos estos elementos poseen tres electrones de valencia o más en su última órbita (B 3, Si 4, Ge 4, As 5, Sb 5, Te 6, Po 6). El silicio, por ejemplo, es un metaloide ampliamente utilizado en la fabricación de elementos semiconductores para la industria electrónica, como rectificadores, diodos, transistores, circuitos integrados y microprocesadores.
Definiciones
[editar]Basado en el juicio
[editar]Un metaloide es un elemento que posee una preponderancia de propiedades intermedias, o que son una mezcla de las de los metales y los no metales, y que, por tanto, es difícil de clasificar como metal o como no metal. Se trata de una definición genérica que se basa en los atributos de los metaloides que se citan sistemáticamente en la literatura
Siguen las definiciones y los extractos de diferentes autores, que ilustran aspectos de la definición genérica:
- "En química un metaloide es un elemento con propiedades intermedias entre las de los metales y las de los no metales"[2]
- "Entre los metales y los no metales de la tabla periódica encontramos elementos ... [que] comparten algunas de las propiedades características tanto de los metales como de los no metales, lo que hace difícil situarlos en cualquiera de estas dos categorías principales"[3]
- "Los químicos a veces utilizan el nombre de metaloide ... para estos elementos que son difíciles de clasificar de una manera u otra"[4]
- "Dado que los rasgos que distinguen a los metales de los no metales son bombomclat cualitativa, algunos elementos no caen inequívocamente en ninguna de las dos categorías. Estos elementos ... se llaman metaloides ..."[5]
Más ampliamente, los metaloides han sido denominados como:
- "elementos que ... son una especie de cruce entre metales y no metales";[6] o
- "elementos extraños intermedios".[7]
La dificultad de categorización es un atributo clave. La mayoría de los elementos tienen una mezcla de propiedades metálicas y no metálicas,[8] y pueden clasificarse en función de qué conjunto de propiedades sea más pronunciado.[9]
El oro, por ejemplo, tiene propiedades mixtas pero sigue siendo reconocido como el "rey de los metales". Además del comportamiento metálico (como la alta conductividad eléctrica, y la formación de cationes), el oro muestra un comportamiento no metálico:
- Tiene el más alto potencial de electrodo
- Tiene la tercera mayor energía de ionización entre los metales (después del zinc y el mercurio)
- Posee la mayor afinidad de electrón
- Su electronegativida de 2.54 es la mayor entre los metales y supera a a la de algunos semimetales (hidrógeno 2.2; fósforo 2.19; y radón 2.2)
- Forma el anión auridio Au−, donde en este caso actúa como un halógeno
- A veces presenta una tendencia, denominada "aurofilicidad", a vincularse consigo mismo.[10]
Sobre su naturaleza de halógeno ver Belpassi et al.,[11] quién indica que en ellos áuridos MAu (M = Li–Cs) el oro "se comporta como un halógeno, intermedio entre el Br y el I"; sobre aurofilicidad ver Schmidbaur and Schier.[12]
Solo los elementos en o cerca de los márgenes, que carecen de una preponderancia suficientemente clara de propiedades metálicas o no metálicas, se clasifican como metaloides..[13]
El boro, silicio, germanio, arsénico, antimonio y teluro normalmente son identificados como metaloides.[14][n 1]
Otros autores se han basado, por ejemplo, en la conductancia atómica[n 2][18] o número de coordinación global.[19]
Jones, al escribir sobre el papel de la clasificación en la ciencia, observó que "[las clases] generalmente se definen por más de dos atributos".[20] Masterton and Slowinski[21] utilizaron tres criterios para describir los seis elementos comúnmente reconocidos como metaloides: los metaloides tienen energías de ionización alrededor de 200 kcal/mol (837 kJ/mol) y valores de electronegatividad cercanos a 2,0. También dijeron que los metaloides son típicamente semiconductores, aunque el antimonio y el arsénico (semimetales desde una perspectiva física) tienen conductividades eléctricas que se acercan a las de los metales. Se sospecha que el selenio y el polonio no están en este esquema, mientras que el estatus de la astatina es incierto.[n 3]
En este contexto, Vernon propuso que un metaloide es un elemento químico que, en su estado estándar, tiene (a) la estructura de banda electrónica de un semiconductor o un semimetal; y (b) un primer potencial de ionización intermedio "(digamos 750-1.000 kJ/mol)"; y (c) una electronegatividad intermedia (1,9-2,2).[24]
Notas
[editar]- ↑ Como la relación se basa en argumentos clásicos[15] no da cabida al hallazgo de que el polonio, que tiene un valor de ~0,95, adopta una estructura metálica (en lugar de covalente) cristalina, por motivos relativista.[16] Even so it offers a first order rationalization for the occurrence of metallic character amongst the elements.[17]
- ↑ Atomic conductance is the electrical conductivity of one mole of a substance. It is equal to electrical conductivity divided by molar volume.[4]
- ↑ El selenio tiene una energía de ionización (IE) de 225 kcal/mol (941 kJ/mol) y a veces se describe como un semiconductor. Tiene una electronegatividad (EN) relativamente alta de 2,55. El polonio tiene un IE de 194 kcal/mol (812 kJ/mol) y una EN de 2,0, pero tiene una estructura de banda metálica.[22] La astatina tiene un IE de 215 kJ/mol (899 kJ/mol) y un EN de 2,2.[23] Su estructura de banda electrónica no se conoce con certeza.
Referencias
[editar]- ↑ Greenwood NN & Earnshaw A 2002, Chemistry of the Elements, 2nd ed., Butterworth-Heinemann, ISBN 0-7506-3365-4
- ↑ Cusack 1987, p. 360
- ↑ Kelter, Mosher & Scott 2009, p. 268
- ↑ a b Hill & Holman 2000, p. 41
- ↑ King 1979, p. 13
- ↑ Moore 2011, p. 81
- ↑ Gray 2010
- ↑ Hopkins & Bailar 1956, p. 458
- ↑ Glinka 1965, p. 77
- ↑ Wiberg 2001, p. 1279
- ↑ Belpassi et al. 2006, pp. 4543–44
- ↑ Schmidbaur & Schier 2008, pp. 1931–51
- ↑ Tyler Miller 1987, p. 59
- ↑ Goldsmith 1982, p. 526; Kotz, Treichel & Weaver 2009, p. 62; Bettelheim et al. 2010, p. 46
- ↑ Edwards 1999, p. 416
- ↑ Steurer 2007, p. 142; Pyykkö 2012, p. 56
- ↑ Edwards & Sienko 1983, p. 695
- ↑ Hill & Holman 2000, p. 160. They characterise metalloids (in part) on the basis that they are "poor conductors of electricity with atomic conductance usually less than 10−3 but greater than 10−5 ohm−1 cm−4".
- ↑ Bond 2005, p. 3: "One criterion for distinguishing semi-metals from true metals under normal conditions is that the bulk coordination number of the former is never greater than eight, while for metals it is usually twelve (or more, if for the body-centred cubic structure one counts next-nearest neighbours as well)."
- ↑ Jones 2010, p. 169
- ↑ Masterton & Slowinski 1977, p. 160 enumeran el B, Si, Ge, As, Sb y Te como metaloides, y comentan que el Po y el At se clasifican ordinariamente como metaloides, pero añaden que esto es arbitrario ya que se conoce muy poco sobre ellos.
- ↑ Kraig, Roundy & Cohen 2004, p. 412; Alloul 2010, p. 83
- ↑ Vernon 2013, p. 1704
- ↑ Vernon 2013, p. 1703
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