@prefix dbo: .
@prefix dbr: .
dbr:Polyethylene_terephthalate dbo:wikiPageWikiLink dbr:Metalloid .
dbr:Intermetallic dbo:wikiPageWikiLink dbr:Metalloid .
dbr:Coordination_complex dbo:wikiPageWikiLink dbr:Metalloid .
dbr:Astatine dbo:wikiPageWikiLink dbr:Metalloid .
@prefix rdf: .
@prefix owl: .
dbr:Metalloid rdf:type owl:Thing .
@prefix yago: .
dbr:Metalloid rdf:type yago:Substance100019613 ,
yago:Matter100020827 ,
yago:Material114580897 ,
yago:Abstraction100002137 ,
yago:WikicatChemicalElementGroups ,
yago:WikicatChemicalElements ,
yago:PhysicalEntity100001930 ,
yago:MetallicElement114625458 ,
yago:WikicatSemiconductorMaterials ,
yago:WikicatMetals ,
yago:Part113809207 ,
yago:ChemicalElement114622893 ,
dbo:MilitaryUnit ,
yago:Relation100031921 ,
yago:Group100031264 .
@prefix rdfs: .
dbr:Metalloid rdfs:label "Semimetall"@ca ,
"\u041D\u0430\u043F\u0456\u0432\u043C\u0435\u0442\u0430\u043B\u0438"@uk ,
"Polokovy"@cs ,
"M\u00E9tallo\u00EFde"@fr ,
"Halbmetalle"@de ,
"Metallo\u00EFde"@nl ,
"\u0634\u0628\u0647 \u0641\u0644\u0632"@ar ,
"Semimetal"@es ,
"Metaloide"@eu ,
"Metaloido"@eo ,
"\uC900\uAE08\uC18D"@ko ,
"Metalloid"@en ,
"\u7C7B\u91D1\u5C5E"@zh ,
"Metaloid"@in ,
"\u041F\u043E\u043B\u0443\u043C\u0435\u0442\u0430\u043B\u043B\u044B"@ru ,
"\u534A\u91D1\u5C5E"@ja ,
"P\u00F3\u0142metale"@pl ,
"Metalloide"@it ,
"Semimetal"@pt ,
"Halvmetall"@sv ,
"Miotal\u00F3ideach"@ga ,
"\u039C\u03B5\u03C4\u03B1\u03BB\u03BB\u03BF\u03B5\u03B9\u03B4\u03AE"@el ;
rdfs:comment "Un metalloide \u00E8 un elemento chimico della tavola periodica che possiede propriet\u00E0 chimico-fisiche a cavallo fra i metalli e i non metalli. Nonostante non abbia una definizione specifica (tanto che non esiste un elenco univoco di elementi metalloidi), questo termine viene usato in chimica. Il termine semimetallo, talvolta usato come sinonimo di metalloide, indica pi\u00F9 propriamente in fisica un materiale dotato di bande elettroniche sovrapposte, collocandosi a met\u00E0 tra i metalli e i semiconduttori."@it ,
"Semimetal ou metaloide (termos considerados equivalentes, com predile\u00E7\u00E3o por semimetal) \u00E9 designa\u00E7\u00E3o cl\u00E1ssica e gen\u00E9rica de elementos qu\u00EDmicos que exibem tanto caracter\u00EDsticas de metais quanto de ametais, quer nas propriedades f\u00EDsicas, quer nas qu\u00EDmicas."@pt ,
"Els semimetalls s\u00F3n una de les tres categories principals d'elements qu\u00EDmics, juntament amb els metalls i els no-metalls. Tenen propietats qu\u00EDmiques interm\u00E8dies entre les dels uns i les dels altres. Els elements que tots els autors consideren semimetalls s\u00F3n sis: bor (B), silici (Si), germani (Ge), ars\u00E8nic (As), antimoni (Sb), tel\u00B7luri (Te). Segons diferents criteris algunes fonts tamb\u00E9 inclouen alguns dels seg\u00FCents: bismut (Bi), poloni (Po) i \u00E0stat (At). Semimetalls"@ca ,
"\u041D\u0430\u043F\u0456\u0432\u043C\u0435\u0442\u0430\u043B\u0438 \u0430\u0431\u043E \u043C\u0435\u0442\u0430\u043B\u043E\u0301\u0457\u0434\u0438 (\u0440\u043E\u0441. \u043C\u0435\u0442\u0430\u043B\u043B\u043E\u0438\u0434\u044B, \u0430\u043D\u0433\u043B. metalloids, \u043D\u0456\u043C. Metalloide n pl, Nichtmetalle n pl) \u2014 \u0435\u043B\u0435\u043C\u0435\u043D\u0442\u0438 \u043F\u0435\u0440\u0456\u043E\u0434\u0438\u0447\u043D\u043E\u0457 \u0442\u0430\u0431\u043B\u0438\u0446\u0456 \u0445\u0456\u043C\u0456\u0447\u043D\u0438\u0445 \u0435\u043B\u0435\u043C\u0435\u043D\u0442\u0456\u0432, \u043A\u0440\u0438\u0441\u0442\u0430\u043B\u0438 \u044F\u043A\u0438\u0445 \u043C\u0430\u044E\u0442\u044C \u0432\u043B\u0430\u0441\u0442\u0438\u0432\u043E\u0441\u0442\u0456, \u043F\u0440\u043E\u043C\u0456\u0436\u043D\u0456 \u043C\u0456\u0436 \u0432\u043B\u0430\u0441\u0442\u0438\u0432\u043E\u0441\u0442\u044F\u043C\u0438 \u043C\u0435\u0442\u0430\u043B\u0456\u0432 \u0456 \u0432\u043B\u0430\u0441\u0442\u0438\u0432\u043E\u0441\u0442\u044F\u043C\u0438 \u043D\u0430\u043F\u0456\u0432\u043F\u0440\u043E\u0432\u0456\u0434\u043D\u0438\u043A\u0456\u0432. \u041D\u0430\u043F\u0456\u0432\u043C\u0435\u0442\u0430\u043B\u0430\u043C\u0438 \u0432\u0432\u0430\u0436\u0430\u044E\u0442\u044C\u0441\u044F: \n* \u0411\u043E\u0440 (B) \n* \u0410\u0440\u0441\u0435\u043D (As) \n* \u0421\u0442\u0438\u0431\u0456\u0439 (\u0421\u0443\u0440\u043C\u0430) (Sb) \n* \u0422\u0435\u043B\u0443\u0440 (Te) \n* \u041F\u043E\u043B\u043E\u043D\u0456\u0439 (Po) \u0406\u043D\u043E\u0434\u0456 \u0434\u043E \u043D\u0430\u043F\u0456\u0432\u043C\u0435\u0442\u0430\u043B\u0456\u0432 \u0432\u0456\u0434\u043D\u043E\u0441\u044F\u0442\u044C \u0442\u0430\u043A\u043E\u0436 \u0433\u0435\u0440\u043C\u0430\u043D\u0456\u0439 \u0456 \u0433\u0440\u0430\u0444\u0456\u0442."@uk ,
"Un m\u00E9tallo\u00EFde est un \u00E9l\u00E9ment chimique dont les propri\u00E9t\u00E9s sont interm\u00E9diaires entre celles des m\u00E9taux et des non-m\u00E9taux[pas clair]ou sont une combinaison de ces propri\u00E9t\u00E9s. Dans la litt\u00E9rature scientifique, faute de d\u00E9finition standard des m\u00E9tallo\u00EFdes, la liste des \u00E9l\u00E9ments class\u00E9s dans cette famille varie selon les auteurs. \n* Bore 5B. \n* Silicium 14Si. \n* Germanium 32Ge. \n* Arsenic 33As. \n* Antimoine 51Sb. \n* Tellure 52Te."@fr ,
"D\u00FAile at\u00E1 idirmhe\u00E1nach idir na miotail is na neamh-mhiotail. Lu\u00EDonn siad i mbanda trasn\u00E1nach ar chl\u00E1r peiriadach na nd\u00FAl. Glactar le bor\u00F3n, sileacan, gearm\u00E1iniam, arsanaic, antam\u00F3in, teall\u00FAiriam, is pol\u00F3iniam mar mhiotal\u00F3idigh."@ga ,
"\u0623\u0634\u0628\u0627\u0647 \u0627\u0644\u0641\u0644\u0632\u0627\u062A (\u0627\u0644\u0623\u0635\u0644 \u0627\u0644\u0625\u063A\u0631\u064A\u0642\u064A \u0644\u0644\u0643\u0644\u0645\u0629 \u064A\u0639\u0646\u0649 \u0634\u0628\u064A\u0647 \u0627\u0644\u0641\u0644\u0632) \u0645\u062B\u0644 \u0627\u0644\u0641\u0644\u0632\u0627\u062A \u0648\u0627\u0644\u0644\u0627\u0641\u0644\u0632\u0627\u062A \u0647\u064A \u0625\u062D\u062F\u0649 \u0627\u0644\u0633\u0644\u0627\u0633\u0644 \u0627\u0644\u0643\u064A\u0645\u064A\u0627\u0626\u064A\u0629\u060C \u0648\u062A\u062A\u0645\u064A\u0632 \u0628\u062E\u0635\u0627\u0626\u0635 \u0645\u0639\u064A\u0646\u0629 \u0645\u0646 \u0646\u0627\u062D\u064A\u0629 \u0627\u0644\u062A\u0623\u064A\u0646 \u0648\u0627\u0644\u062A\u0631\u0627\u0628\u0637. \u062A\u062A\u0645\u064A\u0632 \u0623\u0634\u0628\u0627\u0647 \u0627\u0644\u0641\u0644\u0632\u0627\u062A \u0628\u062E\u0635\u0627\u0626\u0635 \u0645\u062A\u0648\u0633\u0637\u0629 \u0628\u064A\u0646 \u0627\u0644\u0641\u0644\u0632\u0627\u062A \u0648\u0627\u0644\u0644\u0627 \u0641\u0644\u0632\u0627\u062A\u060C \u0648\u0644\u0627 \u062A\u0648\u062C\u062F \u0637\u0631\u064A\u0642\u0629 \u0645\u062D\u062F\u062F\u0629 \u0644\u0644\u062A\u0641\u0631\u064A\u0642 \u0628\u064A\u0646 \u0623\u0634\u0628\u0627\u0647 \u0627\u0644\u0641\u0644\u0632\u0627\u062A \u0648\u0627\u0644\u0641\u0644\u0632\u0627\u062A \u0627\u0644\u062D\u0642\u064A\u0642\u064A\u0629\u060C \u0648\u0644\u0643\u0646\u0647\u0627 \u0639\u0645\u0648\u0645\u064B\u0627 \u062A\u0643\u0648\u0646 \u0634\u0628\u0647 \u0645\u0648\u0635\u0644\u0629 \u0623\u0643\u062B\u0631 \u0645\u0646 \u0643\u0648\u0646\u0647\u0627 \u0639\u0627\u0632\u0644\u0629. \u062A\u0642\u0639 \u0623\u0634\u0628\u0627\u0647 \u0627\u0644\u0641\u0644\u0632\u0627\u062A \u0641\u064A \u0627\u0644\u062C\u062F\u0648\u0644 \u0627\u0644\u062F\u0648\u0631\u064A \u0639\u0644\u0649 \u0647\u064A\u0626\u0629 \u062E\u0637 \u0645\u0627\u0626\u0644 \u0645\u0646 \u0627\u0644\u0628\u0648\u0631\u0648\u0646 \u0625\u0644\u0649 \u0627\u0644\u0628\u0648\u0644\u0648\u0646\u064A\u0648\u0645 \u0648\u062A\u0643\u0648\u0646 \u0627\u0644\u0639\u0646\u0627\u0635\u0631 \u0627\u0644\u0645\u0648\u062C\u0648\u062F\u0629 \u0641\u064A \u0623\u0639\u0644\u0649 \u064A\u0633\u0627\u0631 \u0627\u0644\u062E\u0637 \u0647\u064A \u0627\u0644\u0641\u0644\u0632\u0627\u062A\u060C \u0628\u064A\u0646\u0645\u0627 \u062A\u0642\u0639 \u0627\u0644\u0639\u0646\u0627\u0635\u0631 \u0627\u0644\u0645\u0648\u062C\u0648\u062F\u0629 \u0623\u0633\u0641\u0644 \u064A\u0645\u064A\u0646 \u0627\u0644\u062E\u0637 \u0636\u0645\u0646 \u0627\u0644\u0644\u0627\u0641\u0644\u0632\u0627\u062A. \u0644\u0627 \u062A\u0642\u062A\u0635\u0631 \u0623\u0634\u0628\u0627\u0647 \u0627\u0644\u0641\u0644\u0632\u0627\u062A \u0641\u0642\u0637 \u0639\u0644\u0649 \u0647\u0630\u0647 \u0627\u0644\u0639\u0646\u0627\u0635\u0631 \u0648\u0644\u0643\u0646\u0647\u0627 \u062A\u0648\u062C\u062F \u0623\u064A\u0636\u064B\u0627 \u0641\u064A \u0627\u0644\u0633\u0628\u0627\u0626\u0643 \u0648\u0627\u0644\u0645\u0631\u0643\u0628\u0627\u062A."@ar ,
"Die Halbmetalle sind Elemente und stehen im Periodensystem zwischen den Metallen und den Nichtmetallen. Sie k\u00F6nnen von der elektrischen Leitf\u00E4higkeit und vom Aussehen her weder den Metallen noch den Nichtmetallen zugeordnet werden. Alle Halbmetalle sind Feststoffe bei Normalbedingungen. Halbleiter ist ein \u00DCberbegriff und umfasst Halbmetalle und Verbindungshalbleiter gleicherma\u00DFen. Fr\u00FCher wurden Halbmetalle auch als Metalloide bezeichnet, wobei diese Bezeichnung auch f\u00FCr Nichtmetalle verwendet wurde."@de ,
"\u041C\u0435\u0442\u0430\u043B\u043B\u043E\u0301\u0438\u0434 \u0438\u043B\u0438 \u043F\u043E\u043B\u0443\u043C\u0435\u0442\u0430\u0301\u043B\u043B \u2014 \u044D\u0442\u043E \u0445\u0438\u043C\u0438\u0447\u0435\u0441\u043A\u0438\u0439 \u044D\u043B\u0435\u043C\u0435\u043D\u0442, \u043A\u043E\u0442\u043E\u0440\u044B\u0439 \u043F\u043E \u0441\u0432\u043E\u0438\u043C \u0441\u0432\u043E\u0439\u0441\u0442\u0432\u0430\u043C \u0437\u0430\u043D\u0438\u043C\u0430\u0435\u0442 \u043F\u0440\u043E\u043C\u0435\u0436\u0443\u0442\u043E\u0447\u043D\u043E\u0435 \u043F\u043E\u043B\u043E\u0436\u0435\u043D\u0438\u0435 \u043C\u0435\u0436\u0434\u0443 \u043C\u0435\u0442\u0430\u043B\u043B\u0430\u043C\u0438 \u0438 \u043D\u0435\u043C\u0435\u0442\u0430\u043B\u043B\u0430\u043C\u0438. \u041D\u0435 \u0441\u0443\u0449\u0435\u0441\u0442\u0432\u0443\u0435\u0442 \u0441\u0442\u0430\u043D\u0434\u0430\u0440\u0442\u043D\u043E\u0433\u043E \u043E\u043F\u0440\u0435\u0434\u0435\u043B\u0435\u043D\u0438\u044F \u043C\u0435\u0442\u0430\u043B\u043B\u043E\u0438\u0434\u043E\u0432 \u0438 \u043F\u043E\u043B\u043D\u043E\u0433\u043E \u0441\u043E\u0433\u043B\u0430\u0441\u0438\u044F \u043E\u0442\u043D\u043E\u0441\u0438\u0442\u0435\u043B\u044C\u043D\u043E \u0442\u043E\u0433\u043E, \u043A\u0430\u043A\u0438\u0435 \u044D\u043B\u0435\u043C\u0435\u043D\u0442\u044B \u043C\u043E\u0436\u043D\u043E \u0441\u0447\u0438\u0442\u0430\u0442\u044C \u0438\u043C\u0438. \u041D\u0435\u0441\u043C\u043E\u0442\u0440\u044F \u043D\u0430 \u043E\u0442\u0441\u0443\u0442\u0441\u0442\u0432\u0438\u0435 \u0441\u043F\u0435\u0446\u0438\u0444\u0438\u043A\u0438, \u044D\u0442\u043E\u0442 \u0442\u0435\u0440\u043C\u0438\u043D \u0432\u0441\u0435 \u0435\u0449\u0451 \u0438\u0441\u043F\u043E\u043B\u044C\u0437\u0443\u0435\u0442\u0441\u044F \u0432 \u043F\u0440\u043E\u0444\u0438\u043B\u044C\u043D\u043E\u0439 \u043B\u0438\u0442\u0435\u0440\u0430\u0442\u0443\u0440\u0435. \u042D\u043B\u0435\u043A\u0442\u0440\u0438\u0447\u0435\u0441\u043A\u0438\u0435 \u0441\u0432\u043E\u0439\u0441\u0442\u0432\u0430 \u043A\u0440\u0435\u043C\u043D\u0438\u044F \u0438 \u0433\u0435\u0440\u043C\u0430\u043D\u0438\u044F \u043F\u043E\u0437\u0432\u043E\u043B\u0438\u043B\u0438 \u0441\u043E\u0437\u0434\u0430\u0442\u044C \u043F\u043E\u043B\u0443\u043F\u0440\u043E\u0432\u043E\u0434\u043D\u0438\u043A\u043E\u0432\u0443\u044E \u043F\u0440\u043E\u043C\u044B\u0448\u043B\u0435\u043D\u043D\u043E\u0441\u0442\u044C \u0432 1950-\u0445 \u0433\u043E\u0434\u0430\u0445 \u0438 \u0440\u0430\u0437\u0440\u0430\u0431\u043E\u0442\u0430\u0442\u044C \u0442\u0432\u0435\u0440\u0434\u043E\u0442\u0435\u043B\u044C\u043D\u0443\u044E \u044D\u043B\u0435\u043A\u0442\u0440\u043E\u043D\u0438\u043A\u0443 \u0441 \u043D\u0430\u0447\u0430\u043B\u0430 1960-\u0445 \u0433\u043E\u0434\u043E\u0432."@ru ,
"A metalloid is a type of chemical element which has a preponderance of properties in between, or that are a mixture of, those of metals and nonmetals. There is no standard definition of a metalloid and no complete agreement on which elements are metalloids. Despite the lack of specificity, the term remains in use in the literature of chemistry. The electrical properties of silicon and germanium enabled the establishment of the semiconductor industry in the 1950s and the development of solid-state electronics from the early 1960s."@en ,
"La metaloidoj estas kemiaj elementoj de la perioda tabelo, kiuj havas trajtojn de amba\u016D metaloj kaj nemetaloj. La proprecoj de metaloidoj estas pli proksimaj al tiuj de semikondukta\u0135oj ol tujn de kondukta\u0135oj. La konataj metaloidoj estas: \n* Boro (B) \n* Silicio (Si) \n* Germaniumo (Ge) \n* Arseno (As) \n* Antimono (Sb) \n* Teluro (Te) \n* Polonio (Po) Novaj elementoj kiuj estu metaloidoj: \n* Astato (At) \n* Livermorio (Lv) \n* Teneso (Ts) En la perioda tabelo, la metaloidoj okazas de boro al polonio la\u016D diagonalo."@eo ,
"P\u00F3\u0142metale (metaloidy) \u2013 pierwiastki chemiczne, kt\u00F3re maj\u0105 w\u0142asno\u015Bci po\u015Brednie mi\u0119dzy metalami i niemetalami. Zalicza si\u0119 do nich antymon, arsen, bizmut, bor, german, krzem, selen, tellur i polon, oraz czasami tak\u017Ce glin i astat, a w niekt\u00F3rych opracowaniach tak\u017Ce w\u0119giel, maj\u0105cy najwy\u017Csz\u0105 temperatur\u0119 topnienia z dotychczas poznanych pierwiastk\u00F3w, oraz fosfor (tworz\u0105cy odmian\u0119 czarn\u0105 o w\u0142a\u015Bciwo\u015Bciach fizycznych przypominaj\u0105cych metal). Zaliczanie polonu i astatu do p\u00F3\u0142metali jest krytykowane jako b\u0142\u0119dne, gdy\u017C polon wykazuje typowe w\u0142a\u015Bciwo\u015Bci metalu, a astat \u2013 niemetalu."@pl ,
"Metaloide terminoa (grezieraz: metallon = metal eta eidos= pareko) kimikan erabiltzen da elementu kimikoak sailkatzen direnean. Propietate fisiko eta kimikoak erabiliz, taula periodikoko ia elementu guztiak sailka daitezke metal edo ez-metal gisa. Hala ere, badaude tarteko propietateak dituzten elementu gutxi batzuk, metaloide izenarekin ezagutzen direnak. Ez dago terminoaren definizio hertsirik; zenbait ezaugarriren agerpena hartzen da kontuan elementu bat metaloidetzat hartzeko: Metaloideen multzoan, oro har, ondoko elementu hauek sartzen dira:"@eu ,
"Metaloid adalah jenis unsur kimia yang memiliki lebih banyak di antara, atau yang merupakan campuran, logam dan nonlogam. Tidak ada definisi standar mengenai metaloid dan tidak ada kesepakatan lengkap tentang unsur-unsur mana yang merupakan metaloid. Meskipun kurangnya kekhususan, istilah ini tetap digunakan dalam literatur kimia. Sifat listrik silikon dan germanium memungkinkan pembentukan pada 1950-an dan pengembangan dari awal 1960-an."@in ,
"\uC900\uAE08\uC18D(metalloid, \u6E96\u91D1\u5C6C)\uC740 \uAE08\uC18D\uACFC \uBE44\uAE08\uC18D\uC758 \uC911\uAC04 \uC131\uC9C8\uC744 \uAC00\uC9C4 \uD654\uD559 \uC6D0\uC18C\uC758 \uACC4\uC5F4\uC774\uB2E4. \uC815\uC758 \uC790\uCCB4\uAC00 \uBAA8\uD638\uD558\uBA70, \uBA85\uD655\uD55C \uC815\uC758\uB098 \uBD84\uB958 \uAE30\uC900\uC740 \uB530\uB85C \uC5C6\uC73C\uBA70, \uB2E4\uC591\uD55C \uBC29\uBC95\uC73C\uB85C \uBD84\uB958\uAC00 \uB418\uACE0 \uC788\uB2E4. \uC77C\uBC18\uC801\uC73C\uB85C \uBD95\uC18C, \uADDC\uC18C, \uC800\uB9C8\uB284, \uBE44\uC18C, \uC548\uD2F0\uBAA8\uB2C8, \uD154\uB8E8\uB968\uC758 \uC5EC\uC12F \uC6D0\uC18C\uB97C \uC900\uAE08\uC18D\uC73C\uB85C \uBD84\uB958\uD558\uBA70, \uACBD\uC6B0\uC5D0 \uB530\uB77C \uD0C4\uC18C\uB098 \uC54C\uB8E8\uBBF8\uB284, \uC140\uB808\uB284, \uD3F4\uB85C\uB284, \uC544\uC2A4\uD0C0\uD2F4\uB3C4 \uC900\uAE08\uC18D\uC5D0 \uB123\uAE30\uB3C4 \uD55C\uB2E4. \uC8FC\uAE30\uC728\uD45C\uC5D0\uC11C\uB294 p-\uAD6C\uC5ED\uC744 \uB530\uB77C \uB300\uAC01\uC120\uC73C\uB85C \uBC30\uCE58\uB41C\uB2E4. \uC77C\uBD80 \uC8FC\uAE30\uC728\uD45C\uC5D0\uC11C\uB294 \uC6D0\uC18C\uB97C \uAE08\uC18D\uACFC \uBE44\uAE08\uC18D\uC758 \uB458\uB85C \uBD84\uB958\uD558\uBA70, \uC774 \uB458\uC758 \uACBD\uACC4\uC120\uC5D0 \uC811\uD55C \uC6D0\uC18C\uB97C \uC900\uAE08\uC18D\uC73C\uB85C \uBD84\uB958\uD558\uAE30\uB3C4 \uD55C\uB2E4.\uAE30\uBCF8\uC801\uC73C\uB85C\uB294 \uBD95\uC18C, \uADDC\uC18C, \uC800\uB9C8\uB284, \uBE44\uC18C, \uC548\uD2F0\uBAA8\uB2C8, \uD154\uB8E8\uB968 \uC774 \uC5EC\uC12F \uC6D0\uC18C\uB9CC \uC900\uAE08\uC18D\uC73C\uB85C \uD45C\uAE30\uD55C\uB2E4."@ko ,
"De metallo\u00EFden of semi-metalen vormen een groep elementen die qua eigenschappen tussen de metalen en niet-metalen in zitten. In het periodiek systeem zijn zij te vinden op de diagonaal van het P-blok van linksboven boor naar rechtsonder astaat. De reden daarvoor is dat de elektronegativiteit juist langs de andere diagonaal toeneemt. De metallo\u00EFden vormen dus een groep elementen met alle ongeveer dezelfde elektronegativiteit. Zij vormen de overgang van metallisch en reducerend gedrag (lage elektronegativiteit, extreem voorbeeld: cesium) naar niet-metaal en oxiderend gedrag (extreem voorbeeld: fluor)."@nl ,
"Polokovy tvo\u0159\u00ED spole\u010Dn\u011B s kovy a nekovy t\u0159i hlavn\u00ED skupiny chemick\u00FDch prvk\u016F. Rozd\u011Blen\u00ED je prov\u00E1d\u011Bno s ohledem na vazebn\u00E9 a ioniza\u010Dn\u00ED vlastnosti prvk\u016F. Je velmi obt\u00ED\u017En\u00E9 definovat polokovy. N\u00E1sleduj\u00EDc\u00ED charakteristiky se \u010Dasto p\u0159isuzuj\u00ED polokov\u016Fm: 1. \n* polokovy obvykle tvo\u0159\u00ED amfotern\u00ED oxidy 2. \n* polokovy se obvykle chovaj\u00ED jako polovodi\u010De (B, Si, Ge)"@cs ,
"En halvmetall \u00E4r ett grund\u00E4mne p\u00E5 gr\u00E4nsen mellan de rena metallerna och icke-metallerna, b\u00E5de vad g\u00E4ller egenskaper och placering i det periodiska systemet."@sv ,
"\u039F \u03CC\u03C1\u03BF\u03C2 \u03BC\u03B5\u03C4\u03B1\u03BB\u03BB\u03BF\u03B5\u03B9\u03B4\u03AE \u03B1\u03C6\u03BF\u03C1\u03AC \u03C7\u03B1\u03C1\u03B1\u03BA\u03C4\u03B7\u03C1\u03B9\u03C3\u03BC\u03CC \u03C7\u03B7\u03BC\u03B9\u03BA\u03CE\u03BD \u03C3\u03C4\u03BF\u03B9\u03C7\u03B5\u03AF\u03C9\u03BD, \u03C0\u03BF\u03C5 \u03AC\u03BB\u03BB\u03BF\u03C4\u03B5 \u03C3\u03C5\u03BC\u03C0\u03B5\u03C1\u03B9\u03C6\u03AD\u03C1\u03BF\u03BD\u03C4\u03B1\u03B9 \u03C9\u03C2 \u03BC\u03AD\u03C4\u03B1\u03BB\u03BB\u03B1 \u03BA\u03B1\u03B9 \u03AC\u03BB\u03BB\u03BF\u03C4\u03B5 \u03C9\u03C2 \u03B1\u03BC\u03AD\u03C4\u03B1\u03BB\u03BB\u03B1. \u03A3\u03B5 \u03BF\u03C1\u03B9\u03C3\u03BC\u03AD\u03BD\u03B5\u03C2 \u03C0\u03B5\u03C1\u03B9\u03C0\u03C4\u03CE\u03C3\u03B5\u03B9\u03C2 \u03C7\u03B7\u03BC\u03B9\u03BA\u03CE\u03BD \u03C3\u03C4\u03BF\u03B9\u03C7\u03B5\u03AF\u03C9\u03BD \u03B5\u03AF\u03BD\u03B1\u03B9 \u03B4\u03CD\u03C3\u03BA\u03BF\u03BB\u03B7 \u03B7 \u03BA\u03B1\u03C4\u03AC\u03C4\u03B1\u03BE\u03AE \u03C4\u03BF\u03C5\u03C2 \u03C3\u03B5 \u03BC\u03AD\u03C4\u03B1\u03BB\u03BB\u03B1 \u03AE \u03B1\u03BC\u03AD\u03C4\u03B1\u03BB\u03BB\u03B1. \u03A5\u03C0\u03AC\u03C1\u03C7\u03BF\u03C5\u03BD \u03B4\u03B7\u03BB\u03B1\u03B4\u03AE \u03C3\u03C4\u03BF\u03B9\u03C7\u03B5\u03AF\u03B1 \u03C0\u03BF\u03C5 \u03BC\u03BF\u03B9\u03AC\u03B6\u03BF\u03C5\u03BD \u03BC\u03B5 \u03BC\u03AD\u03C4\u03B1\u03BB\u03BB\u03B1 \u03BC\u03B5 \u03BA\u03AC\u03C0\u03BF\u03B9\u03B5\u03C2 \u03CC\u03BC\u03C9\u03C2 \u03B4\u03B9\u03B1\u03C6\u03BF\u03C1\u03BF\u03C0\u03BF\u03B9\u03AE\u03C3\u03B5\u03B9\u03C2 \u03C4\u03C9\u03BD \u03B2\u03B1\u03C3\u03B9\u03BA\u03CE\u03BD \u03C7\u03B1\u03C1\u03B1\u03BA\u03C4\u03B7\u03C1\u03B9\u03C3\u03C4\u03B9\u03BA\u03CE\u03BD \u03C4\u03BF\u03C5\u03C2, \u03CC\u03C0\u03C9\u03C2 \u03C0.\u03C7. \u03B8\u03C1\u03C5\u03BC\u03BC\u03B1\u03C4\u03AF\u03B6\u03BF\u03BD\u03C4\u03B1\u03B9 \u03B5\u03CD\u03BA\u03BF\u03BB\u03B1 (\u03B5\u03CD\u03B8\u03C1\u03B1\u03C3\u03C4\u03B1) \u03BA\u03B1\u03B9 \u03C0\u03B1\u03C1\u03BF\u03C5\u03C3\u03B9\u03AC\u03B6\u03BF\u03BD\u03C4\u03B1\u03B9 \u03C9\u03C2 \u03BA\u03B1\u03BA\u03BF\u03AF \u03B1\u03B3\u03C9\u03B3\u03BF\u03AF \u03C4\u03BF\u03C5 \u03B7\u03BB\u03B5\u03BA\u03C4\u03C1\u03B9\u03C3\u03BC\u03BF\u03CD. \u0391\u03C5\u03C4\u03AC \u03C4\u03B1 \u03C3\u03C4\u03BF\u03B9\u03C7\u03B5\u03AF\u03B1 \u03BB\u03AD\u03B3\u03BF\u03BD\u03C4\u03B1\u03B9 \u00AB\u03BC\u03B5\u03C4\u03B1\u03BB\u03BB\u03BF\u03B5\u03B9\u03B4\u03AE\u00BB \u03BA\u03B1\u03B9 \u03B1\u03C0\u03BF\u03C4\u03B5\u03BB\u03BF\u03CD\u03BD \u03B9\u03B4\u03B9\u03B1\u03AF\u03C4\u03B5\u03C1\u03B7 \u03BA\u03B1\u03C4\u03B7\u03B3\u03BF\u03C1\u03AF\u03B1 \u03C4\u03C9\u03BD \u03C7\u03B7\u03BC\u03B9\u03BA\u03CE\u03BD \u03C3\u03C4\u03BF\u03B9\u03C7\u03B5\u03AF\u03C9\u03BD \u03C3\u03C4\u03B7\u03BD \u03BF\u03C0\u03BF\u03AF\u03B1 \u03C0\u03B5\u03C1\u03B9\u03BB\u03B1\u03BC\u03B2\u03AC\u03BD\u03BF\u03BD\u03C4\u03B1\u03B9 \u03C4\u03BF \u03B3\u03B5\u03C1\u03BC\u03AC\u03BD\u03B9\u03BF, \u03C4\u03BF \u03C0\u03C5\u03C1\u03AF\u03C4\u03B9\u03BF \u03BA.\u03AC."@el ,
"\u534A\u91D1\u5C5E\uFF08\u306F\u3093\u304D\u3093\u305E\u304F\u3001\u82F1: metalloid\uFF09\u3068\u306F\u3001\u5143\u7D20\u306E\u5206\u985E\u306B\u304A\u3044\u3066\u91D1\u5C5E\u3068\u975E\u91D1\u5C5E\u306E\u4E2D\u9593\u306E\u6027\u8CEA\u3092\u793A\u3059\u7269\u8CEA\u306E\u3053\u3068\u3067\u3042\u308B\u3002\u305D\u306E\u5B9A\u7FA9\u306F\u66D6\u6627\u3067\u3042\u308A\u3001\u6C7A\u5B9A\u7684\u306A\u5B9A\u7FA9\u3084\u5206\u985E\u57FA\u6E96\u306F\u5B58\u5728\u305B\u305A\u3001\u69D8\u3005\u306A\u65B9\u6CD5\u306B\u3088\u3063\u3066\u5206\u985E\u304C\u8A66\u307F\u3089\u308C\u3066\u3044\u308B\u3002 \u4E00\u822C\u7684\u306B\u306F\u30DB\u30A6\u7D20\u3001\u30B1\u30A4\u7D20\u3001\u30B2\u30EB\u30DE\u30CB\u30A6\u30E0\u3001\u30D2\u7D20\u3001\u30A2\u30F3\u30C1\u30E2\u30F3\u3001\u30C6\u30EB\u30EB\u306E6\u5143\u7D20\u304C\u534A\u91D1\u5C5E\u3068\u3055\u308C\u3001\u30BB\u30EC\u30F3\u3001\u30DD\u30ED\u30CB\u30A6\u30E0\u3001\u30A2\u30B9\u30BF\u30C1\u30F3\u306E3\u5143\u7D20\u304C\u3057\u3070\u3057\u3070\u52A0\u3048\u3089\u308C\u308B\u3002\u70AD\u7D20\u3084\u30EA\u30F3\u306A\u3069\u306F\u901A\u5E38\u534A\u91D1\u5C5E\u3068\u306F\u3055\u308C\u306A\u3044\u3082\u306E\u306E\u3001\u305D\u306E\u540C\u7D20\u4F53\u306B\u306F\u30B0\u30E9\u30D5\u30A1\u30A4\u30C8\u3084\u9ED2\u30EA\u30F3\u306E\u3088\u3046\u306A\u534A\u91D1\u5C5E\u6027\u3092\u6709\u3057\u3066\u3044\u308B\u3082\u306E\u304C\u5B58\u5728\u3059\u308B\u3002\u3053\u308C\u3089\u306E\u534A\u91D1\u5C5E\u5143\u7D20\u306F\u5468\u671F\u8868\u4E0A\u306B\u304A\u3044\u3066\u3001\u304A\u304A\u3088\u305D\u30DB\u30A6\u7D20\u304B\u3089\u30DD\u30ED\u30CB\u30A6\u30E0\u307E\u3067\u3092\u7E4B\u3050\u30E9\u30A4\u30F3\u4E0A\u306B\u73FE\u308C\u308B\u304C\u3001\u305D\u306E\u5883\u754C\u7DDA\u306E\u5F15\u304D\u65B9\u306B\u3082\u307E\u305F\u591A\u304F\u306E\u8B70\u8AD6\u304C\u3042\u308B\u3002 \u534A\u91D1\u5C5E\u306B\u7279\u5FB4\u7684\u306A\u6027\u8CEA\u3068\u3057\u3066\u306F\u8106\u6027\u3001\u534A\u5C0E\u4F53\u6027\u3001\u91D1\u5C5E\u5149\u6CA2\u3001\u9178\u5316\u7269\u306E\u793A\u3059\u4E21\u6027\u306A\u3069\u304C\u6319\u3052\u3089\u308C\u3001\u534A\u91D1\u5C5E\u306E\u30A4\u30AA\u30F3\u5316\u30A8\u30CD\u30EB\u30AE\u30FC\u3084\u96FB\u6C17\u9670\u6027\u5EA6\u306E\u5024\u306F\u4E00\u5B9A\u306E\u7BC4\u56F2\u306B\u53CE\u307E\u308B\u3002\u534A\u91D1\u5C5E\u306E\u5358\u4F53\u3082\u3057\u304F\u306F\u305D\u306E\u5316\u5408\u7269\u306F\u3001\u30AC\u30E9\u30B9\u3084\u534A\u5C0E\u4F53\u3001\u5408\u91D1\u306E\u69CB\u6210\u5143\u7D20\u3068\u3057\u3066\u5E83\u304F\u5229\u7528\u3055\u308C\u3066\u3044\u308B\u3002"@ja ,
"Junto con los metales y los no metales, los semimetales (tambi\u00E9n conocidos como metaloides) comprenden una de las tres categor\u00EDas de elementos qu\u00EDmicos siguiendo una clasificaci\u00F3n de acuerdo con las propiedades de enlace e ionizaci\u00F3n.\u200B Se caracterizan por presentar un comportamiento intermedio entre los metales y los no metales, compartiendo caracter\u00EDsticas de ambos. Por norma general y en la mayor\u00EDa de los casos, tienden a reaccionar qu\u00EDmicamente 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 f\u00E1cilmente. 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 un\u00EDv"@es ,
"\u7C7B\u91D1\u5C5E\uFF08\u82F1\u8A9E\uFF1AMetalloid\uFF09\u662F\u4E00\u4E2A\u7528\u6765\u5206\u7C7B\u5316\u5B66\u5143\u7D20\u7684\u5316\u5B66\u540D\u8BCD\u3002\u57FA\u4E8E\u5B83\u4EEC\u7684\u7269\u7406\u8207\u5316\u5B66\u7279\u6027\uFF0C\u51E0\u4E4E\u6240\u6709\u5143\u7D20\u5468\u671F\u8868\u4E0A\u7684\u5316\u5B66\u5143\u7D20\u90FD\u53EF\u88AB\u5206\u7C7B\u4E3A\u91D1\u5C5E\u6216\u975E\u91D1\u5C5E\uFF1B\u4F46\u4E5F\u6709\u4E00\u4E9B\u7279\u6027\u4ECB\u4E8E\u91D1\u5C5E\u4E0E\u975E\u91D1\u5C5E\u4E4B\u95F4\u7684\u5143\u7D20\uFF0C\u79F0\u4E3A\u7C7B\u91D1\u5C5E\u3002\u787C\u3001\u7845\u3001\u9517\u3001\u7837\u3001\u9511\u3001\u78B2\u7B49\u516D\u7A2E\u5143\u7D20\u4E00\u822C\u88AB\u89C6\u4E3A\u7C7B\u91D1\u5C5E\uFF0C\u91D9\u548C\u7808\u6709\u6642\u4EA6\u88AB\u6B78\u65BC\u6B64\u985E\u3002\u300C\u7C7B\u91D1\u5C5E\u300D\u4E00\u8BCD\u5E76\u6CA1\u6709\u660E\u786E\u7684\u5B9A\u4E49\uFF0C\u4F46\u7C7B\u91D1\u5C5E\u4E00\u822C\u88AB\u8BA4\u4E3A\u62E5\u6709\u4EE5\u4E0B\u7279\u6027\uFF1A \n* \u7C7B\u91D1\u5C5E\u901A\u5E38\u4EA7\u751F\u4E24\u6027\u7684\u6C27\u5316\u7269\uFF1B \n* \u7C7B\u91D1\u5C5E\u901A\u5E38\u662F\u534A\u5BFC\u4F53\uFF08\u4F8B\u5982\u787C\u3001\u7845\u3001\u9517\u548C\u7837\uFF09\u6216\u534A\u91D1\u5C5E\uFF08\u4F8B\u5982\u9511\u3001\u78B2\u3001\u91D9\u548C\u7808\uFF09\u3002 \u7C7B\u91D1\u5C5E\u7684\u5916\u89C0\u591A\u534A\u985E\u4F3C\u91D1\u5C6C\uFF0C\u4F46\u53EA\u662F\u5F31\u7684\u96FB\u5C0E\u9AD4\u3002\u5728\u5316\u5B78\u7279\u6027\u4E0A\uFF0C\u6BD4\u8F03\u50CF\u5F31\u7684\u975E\u91D1\u5C6C\uFF0C\u53EF\u4EE5\u548C\u91D1\u5C6C\u5F62\u6210\u5408\u91D1\u3002\u5927\u90E8\u4EFD\u7C7B\u91D1\u5C5E\u7684\u7269\u7406\u7279\u6027\u53CA\u5316\u5B78\u7279\u6027\u90FD\u4ECB\u65BC\u91D1\u5C5E\u548C\u975E\u91D1\u5C5E\u4E4B\u9593\u3002\u7C7B\u91D1\u5C5E\u6750\u8CEA\u5BB9\u6613\u8106\u88C2\uFF0C\u4E0D\u9069\u5408\u61C9\u7528\u5728\u7D50\u69CB\u4E0A\uFF0C\u7C7B\u91D1\u5C5E\u53CA\u5176\u5316\u5408\u7269\u5E38\u7528\u5728\u5408\u91D1\u3001\u5851\u81A0\u963B\u71C3\u5291\u3001\u73BB\u7483\u3001\u5149\u5132\u5B58\u8A2D\u5099\u53CA\u534A\u5C0E\u9AD4\u3002\u7845\u548C\u937A\u7684\u96FB\u5B50\u7279\u6027\u5E36\u4F86\u4E861950\u5E74\u4EE3\u534A\u5C0E\u9AD4\u7522\u696D\u4EE5\u53CA1960\u5E74\u4EE3\u56FA\u6001\u7535\u5B50\u5668\u4EF6\u7684\u767C\u5C55\u3002"@zh ;
rdfs:seeAlso dbr:Lists_of_metalloids .
@prefix foaf: .
dbr:Metalloid foaf:depiction ,
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@prefix dcterms: .
@prefix dbc: .
dbr:Metalloid dcterms:subject dbc:Periodic_table ,
dbc:Metals ,
dbc:Metalloids ;
dbo:abstract "Un metalloide \u00E8 un elemento chimico della tavola periodica che possiede propriet\u00E0 chimico-fisiche a cavallo fra i metalli e i non metalli. Nonostante non abbia una definizione specifica (tanto che non esiste un elenco univoco di elementi metalloidi), questo termine viene usato in chimica. Il termine semimetallo, talvolta usato come sinonimo di metalloide, indica pi\u00F9 propriamente in fisica un materiale dotato di bande elettroniche sovrapposte, collocandosi a met\u00E0 tra i metalli e i semiconduttori."@it ,
"\uC900\uAE08\uC18D(metalloid, \u6E96\u91D1\u5C6C)\uC740 \uAE08\uC18D\uACFC \uBE44\uAE08\uC18D\uC758 \uC911\uAC04 \uC131\uC9C8\uC744 \uAC00\uC9C4 \uD654\uD559 \uC6D0\uC18C\uC758 \uACC4\uC5F4\uC774\uB2E4. \uC815\uC758 \uC790\uCCB4\uAC00 \uBAA8\uD638\uD558\uBA70, \uBA85\uD655\uD55C \uC815\uC758\uB098 \uBD84\uB958 \uAE30\uC900\uC740 \uB530\uB85C \uC5C6\uC73C\uBA70, \uB2E4\uC591\uD55C \uBC29\uBC95\uC73C\uB85C \uBD84\uB958\uAC00 \uB418\uACE0 \uC788\uB2E4. \uC77C\uBC18\uC801\uC73C\uB85C \uBD95\uC18C, \uADDC\uC18C, \uC800\uB9C8\uB284, \uBE44\uC18C, \uC548\uD2F0\uBAA8\uB2C8, \uD154\uB8E8\uB968\uC758 \uC5EC\uC12F \uC6D0\uC18C\uB97C \uC900\uAE08\uC18D\uC73C\uB85C \uBD84\uB958\uD558\uBA70, \uACBD\uC6B0\uC5D0 \uB530\uB77C \uD0C4\uC18C\uB098 \uC54C\uB8E8\uBBF8\uB284, \uC140\uB808\uB284, \uD3F4\uB85C\uB284, \uC544\uC2A4\uD0C0\uD2F4\uB3C4 \uC900\uAE08\uC18D\uC5D0 \uB123\uAE30\uB3C4 \uD55C\uB2E4. \uC8FC\uAE30\uC728\uD45C\uC5D0\uC11C\uB294 p-\uAD6C\uC5ED\uC744 \uB530\uB77C \uB300\uAC01\uC120\uC73C\uB85C \uBC30\uCE58\uB41C\uB2E4. \uC77C\uBD80 \uC8FC\uAE30\uC728\uD45C\uC5D0\uC11C\uB294 \uC6D0\uC18C\uB97C \uAE08\uC18D\uACFC \uBE44\uAE08\uC18D\uC758 \uB458\uB85C \uBD84\uB958\uD558\uBA70, \uC774 \uB458\uC758 \uACBD\uACC4\uC120\uC5D0 \uC811\uD55C \uC6D0\uC18C\uB97C \uC900\uAE08\uC18D\uC73C\uB85C \uBD84\uB958\uD558\uAE30\uB3C4 \uD55C\uB2E4.\uAE30\uBCF8\uC801\uC73C\uB85C\uB294 \uBD95\uC18C, \uADDC\uC18C, \uC800\uB9C8\uB284, \uBE44\uC18C, \uC548\uD2F0\uBAA8\uB2C8, \uD154\uB8E8\uB968 \uC774 \uC5EC\uC12F \uC6D0\uC18C\uB9CC \uC900\uAE08\uC18D\uC73C\uB85C \uD45C\uAE30\uD55C\uB2E4."@ko ,
"\u534A\u91D1\u5C5E\uFF08\u306F\u3093\u304D\u3093\u305E\u304F\u3001\u82F1: metalloid\uFF09\u3068\u306F\u3001\u5143\u7D20\u306E\u5206\u985E\u306B\u304A\u3044\u3066\u91D1\u5C5E\u3068\u975E\u91D1\u5C5E\u306E\u4E2D\u9593\u306E\u6027\u8CEA\u3092\u793A\u3059\u7269\u8CEA\u306E\u3053\u3068\u3067\u3042\u308B\u3002\u305D\u306E\u5B9A\u7FA9\u306F\u66D6\u6627\u3067\u3042\u308A\u3001\u6C7A\u5B9A\u7684\u306A\u5B9A\u7FA9\u3084\u5206\u985E\u57FA\u6E96\u306F\u5B58\u5728\u305B\u305A\u3001\u69D8\u3005\u306A\u65B9\u6CD5\u306B\u3088\u3063\u3066\u5206\u985E\u304C\u8A66\u307F\u3089\u308C\u3066\u3044\u308B\u3002 \u4E00\u822C\u7684\u306B\u306F\u30DB\u30A6\u7D20\u3001\u30B1\u30A4\u7D20\u3001\u30B2\u30EB\u30DE\u30CB\u30A6\u30E0\u3001\u30D2\u7D20\u3001\u30A2\u30F3\u30C1\u30E2\u30F3\u3001\u30C6\u30EB\u30EB\u306E6\u5143\u7D20\u304C\u534A\u91D1\u5C5E\u3068\u3055\u308C\u3001\u30BB\u30EC\u30F3\u3001\u30DD\u30ED\u30CB\u30A6\u30E0\u3001\u30A2\u30B9\u30BF\u30C1\u30F3\u306E3\u5143\u7D20\u304C\u3057\u3070\u3057\u3070\u52A0\u3048\u3089\u308C\u308B\u3002\u70AD\u7D20\u3084\u30EA\u30F3\u306A\u3069\u306F\u901A\u5E38\u534A\u91D1\u5C5E\u3068\u306F\u3055\u308C\u306A\u3044\u3082\u306E\u306E\u3001\u305D\u306E\u540C\u7D20\u4F53\u306B\u306F\u30B0\u30E9\u30D5\u30A1\u30A4\u30C8\u3084\u9ED2\u30EA\u30F3\u306E\u3088\u3046\u306A\u534A\u91D1\u5C5E\u6027\u3092\u6709\u3057\u3066\u3044\u308B\u3082\u306E\u304C\u5B58\u5728\u3059\u308B\u3002\u3053\u308C\u3089\u306E\u534A\u91D1\u5C5E\u5143\u7D20\u306F\u5468\u671F\u8868\u4E0A\u306B\u304A\u3044\u3066\u3001\u304A\u304A\u3088\u305D\u30DB\u30A6\u7D20\u304B\u3089\u30DD\u30ED\u30CB\u30A6\u30E0\u307E\u3067\u3092\u7E4B\u3050\u30E9\u30A4\u30F3\u4E0A\u306B\u73FE\u308C\u308B\u304C\u3001\u305D\u306E\u5883\u754C\u7DDA\u306E\u5F15\u304D\u65B9\u306B\u3082\u307E\u305F\u591A\u304F\u306E\u8B70\u8AD6\u304C\u3042\u308B\u3002 \u534A\u91D1\u5C5E\u306B\u7279\u5FB4\u7684\u306A\u6027\u8CEA\u3068\u3057\u3066\u306F\u8106\u6027\u3001\u534A\u5C0E\u4F53\u6027\u3001\u91D1\u5C5E\u5149\u6CA2\u3001\u9178\u5316\u7269\u306E\u793A\u3059\u4E21\u6027\u306A\u3069\u304C\u6319\u3052\u3089\u308C\u3001\u534A\u91D1\u5C5E\u306E\u30A4\u30AA\u30F3\u5316\u30A8\u30CD\u30EB\u30AE\u30FC\u3084\u96FB\u6C17\u9670\u6027\u5EA6\u306E\u5024\u306F\u4E00\u5B9A\u306E\u7BC4\u56F2\u306B\u53CE\u307E\u308B\u3002\u534A\u91D1\u5C5E\u306E\u5358\u4F53\u3082\u3057\u304F\u306F\u305D\u306E\u5316\u5408\u7269\u306F\u3001\u30AC\u30E9\u30B9\u3084\u534A\u5C0E\u4F53\u3001\u5408\u91D1\u306E\u69CB\u6210\u5143\u7D20\u3068\u3057\u3066\u5E83\u304F\u5229\u7528\u3055\u308C\u3066\u3044\u308B\u3002"@ja ,
"Die Halbmetalle sind Elemente und stehen im Periodensystem zwischen den Metallen und den Nichtmetallen. Sie k\u00F6nnen von der elektrischen Leitf\u00E4higkeit und vom Aussehen her weder den Metallen noch den Nichtmetallen zugeordnet werden. Alle Halbmetalle sind Feststoffe bei Normalbedingungen. Halbleiter ist ein \u00DCberbegriff und umfasst Halbmetalle und Verbindungshalbleiter gleicherma\u00DFen. Fr\u00FCher wurden Halbmetalle auch als Metalloide bezeichnet, wobei diese Bezeichnung auch f\u00FCr Nichtmetalle verwendet wurde."@de ,
"La metaloidoj estas kemiaj elementoj de la perioda tabelo, kiuj havas trajtojn de amba\u016D metaloj kaj nemetaloj. La proprecoj de metaloidoj estas pli proksimaj al tiuj de semikondukta\u0135oj ol tujn de kondukta\u0135oj. La konataj metaloidoj estas: \n* Boro (B) \n* Silicio (Si) \n* Germaniumo (Ge) \n* Arseno (As) \n* Antimono (Sb) \n* Teluro (Te) \n* Polonio (Po) Novaj elementoj kiuj estu metaloidoj: \n* Astato (At) \n* Livermorio (Lv) \n* Teneso (Ts) En la perioda tabelo, la metaloidoj okazas de boro al polonio la\u016D diagonalo."@eo ,
"Semimetal ou metaloide (termos considerados equivalentes, com predile\u00E7\u00E3o por semimetal) \u00E9 designa\u00E7\u00E3o cl\u00E1ssica e gen\u00E9rica de elementos qu\u00EDmicos que exibem tanto caracter\u00EDsticas de metais quanto de ametais, quer nas propriedades f\u00EDsicas, quer nas qu\u00EDmicas."@pt ,
"Metaloid adalah jenis unsur kimia yang memiliki lebih banyak di antara, atau yang merupakan campuran, logam dan nonlogam. Tidak ada definisi standar mengenai metaloid dan tidak ada kesepakatan lengkap tentang unsur-unsur mana yang merupakan metaloid. Meskipun kurangnya kekhususan, istilah ini tetap digunakan dalam literatur kimia. Enam metaloid yang umum dikenal adalah boron, silikon, germanium, arsen, antimon, dan telurium. Lima unsur lebih jarang diklasifikasikan: karbon, aluminium, selenium, polonium, dan astatin. Pada tabel periodik standar, kesebelas unsur tersebut berada di daerah diagonal blok-p yang memanjang dari boron di kiri atas hingga astatin di kanan bawah. Beberapa tabel periodik memasukkan , dan metaloid dapat ditemukan dekat dengan garis ini. Metaloid khas memiliki penampilan logam, tetapi rapuh dan hanya konduktor listrik yang wajar. Secara kimia, mereka sebagian besar berperilaku sebagai nonlogam. Mereka dapat membentuk paduan dengan logam. Sebagian besar sifat fisik dan kimianya yang lain bersifat antara. Metaloid biasanya terlalu rapuh untuk memiliki kegunaan struktural. Mereka dan senyawanya digunakan dalam paduan, agen biologis, katalis, penghambat nyala, kaca, dan optoelektronika, , semikonduktor, serta elektronika. Sifat listrik silikon dan germanium memungkinkan pembentukan pada 1950-an dan pengembangan dari awal 1960-an. Istilah metaloid awalnya mengacu pada nonlogam. Maknanya yang lebih baru, sebagai kategori unsur dengan sifat menengah atau hibrida, menyebar luas pada tahun 1940\u20131960. Metaloid kadang-kadang disebut semilogam, sebuah praktik yang tidak dianjurkan, karena istilah memiliki arti yang berbeda dalam fisika daripada kimia. Dalam fisika, istilah ini mengacu pada jenis tertentu dari struktur pita elektronik suatu zat. Dalam konteks ini, hanya arsen dan antimon yang merupakan semilogam, dan umumnya dikenal sebagai metaloid."@in ,
"Junto con los metales y los no metales, los semimetales (tambi\u00E9n conocidos como metaloides) comprenden una de las tres categor\u00EDas de elementos qu\u00EDmicos siguiendo una clasificaci\u00F3n de acuerdo con las propiedades de enlace e ionizaci\u00F3n.\u200B Se caracterizan por presentar un comportamiento intermedio entre los metales y los no metales, compartiendo caracter\u00EDsticas de ambos. Por norma general y en la mayor\u00EDa de los casos, tienden a reaccionar qu\u00EDmicamente 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 f\u00E1cilmente. 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 un\u00EDvoca 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 el\u00E9ctrica, en los semimetales aumentar la temperatura supone lo contrario, aumenta su conductividad el\u00E9ctrica. Los no metales son opacos y de varios colores. Suelen ser utilizados en ocasiones para formar aleaciones. Pueden ser anf\u00F3teros o levemente \u00E1cidos. Son considerados metaloides los siguientes elementos: \n* Boro (B) \n* Silicio (Si) \n* Germanio (Ge) \n* Ars\u00E9nico (As) \n* Telurio (Te) \n* Polonio (Po) \n* Antimonio (Sb) Dentro de la tabla peri\u00F3dica los metaloides se encuentran en l\u00EDnea diagonal desde el boro al \u00E1stato (este \u00FAltimo no est\u00E1 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 m\u00E1s en su \u00FAltima \u00F3rbita (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 fabricaci\u00F3n de elementos semiconductores para la industria electr\u00F3nica, como rectificadores, diodos, transistores, circuitos integrados y microprocesadores."@es ,
"De metallo\u00EFden of semi-metalen vormen een groep elementen die qua eigenschappen tussen de metalen en niet-metalen in zitten. In het periodiek systeem zijn zij te vinden op de diagonaal van het P-blok van linksboven boor naar rechtsonder astaat. De reden daarvoor is dat de elektronegativiteit juist langs de andere diagonaal toeneemt. De metallo\u00EFden vormen dus een groep elementen met alle ongeveer dezelfde elektronegativiteit. Zij vormen de overgang van metallisch en reducerend gedrag (lage elektronegativiteit, extreem voorbeeld: cesium) naar niet-metaal en oxiderend gedrag (extreem voorbeeld: fluor). Veel van de metallo\u00EFden zijn halfgeleiders of halfmetalen en veel van hun oxiden zijn amfoteer. Sommige van de verbindingen met metallo\u00EFden zijn metallisch, halfgeleidend of isolerend, afhankelijk van de andere elementen die in de verbinding betrokken zijn. De metallo\u00EFden zijn belangrijke elementen voor de moderne elektronica, denk hierbij aan IC's van silicium of galliumarsenide."@nl ,
"P\u00F3\u0142metale (metaloidy) \u2013 pierwiastki chemiczne, kt\u00F3re maj\u0105 w\u0142asno\u015Bci po\u015Brednie mi\u0119dzy metalami i niemetalami. Zalicza si\u0119 do nich antymon, arsen, bizmut, bor, german, krzem, selen, tellur i polon, oraz czasami tak\u017Ce glin i astat, a w niekt\u00F3rych opracowaniach tak\u017Ce w\u0119giel, maj\u0105cy najwy\u017Csz\u0105 temperatur\u0119 topnienia z dotychczas poznanych pierwiastk\u00F3w, oraz fosfor (tworz\u0105cy odmian\u0119 czarn\u0105 o w\u0142a\u015Bciwo\u015Bciach fizycznych przypominaj\u0105cych metal). P\u00F3\u0142metale maj\u0105 szereg fizycznych cech metali, jak po\u0142yskliwa powierzchnia w stanie sta\u0142ym i wysokie temperatury topnienia. Chocia\u017C maj\u0105 one du\u017Co gorsze przewodnictwo elektryczne i cieplne od typowych metali, to jednak wy\u017Csze od typowych niemetali, st\u0105d te\u017C s\u0105 stosowane w materia\u0142ach p\u00F3\u0142przewodnikowych. Ich w\u0142asno\u015Bci chemiczne s\u0105 tak\u017Ce po\u015Brednie: z jednej strony wykazuj\u0105 szereg cech niemetali, np. tworz\u0105 do\u015B\u0107 silne kwasy nieorganiczne, a z drugiej \u2013 posiadaj\u0105 szereg cech typowych metali: maj\u0105 wi\u0119ksz\u0105 tendencj\u0119 do tworzenia zasad ni\u017C kwas\u00F3w i s\u0105 zdolne do tworzenia zwi\u0105zk\u00F3w kompleksowych o podobnym stopniu z\u0142o\u017Cono\u015Bci geometrycznej, jak w przypadku metali przej\u015Bciowych. Zaliczanie polonu i astatu do p\u00F3\u0142metali jest krytykowane jako b\u0142\u0119dne, gdy\u017C polon wykazuje typowe w\u0142a\u015Bciwo\u015Bci metalu, a astat \u2013 niemetalu."@pl ,
"Un m\u00E9tallo\u00EFde est un \u00E9l\u00E9ment chimique dont les propri\u00E9t\u00E9s sont interm\u00E9diaires entre celles des m\u00E9taux et des non-m\u00E9taux[pas clair]ou sont une combinaison de ces propri\u00E9t\u00E9s. Dans la litt\u00E9rature scientifique, faute de d\u00E9finition standard des m\u00E9tallo\u00EFdes, la liste des \u00E9l\u00E9ments class\u00E9s dans cette famille varie selon les auteurs. Les six \u00E9l\u00E9ments g\u00E9n\u00E9ralement reconnus comme m\u00E9tallo\u00EFdes sont le bore 5B, le silicium 14Si, le germanium 32Ge, l'arsenic 33As, l'antimoine 51Sb et le tellure 52Te. Cinq autres sont moins fr\u00E9quemment class\u00E9s parmi les m\u00E9tallo\u00EFdes : le carbone 6C, l'aluminium 13Al, le s\u00E9l\u00E9nium 34Se, le polonium 84Po et l'astate 85At. Ce dernier, historiquement rang\u00E9 parmi les halog\u00E8nes dans le prolongement des autres \u00E9l\u00E9ments du 17e groupe, tend cependant \u00E0 \u00EAtre davantage consid\u00E9r\u00E9 comme un m\u00E9tallo\u00EFde \u00E0 mesure que ses propri\u00E9t\u00E9s chimiques sont mieux caract\u00E9ris\u00E9es. Dans un tableau p\u00E9riodique standard, ils se r\u00E9partissent en diagonale dans le bloc p le long de l'ancienne ligne de d\u00E9marcation entre m\u00E9taux et non-m\u00E9taux repr\u00E9sent\u00E9e sur les tableaux p\u00E9riodiques de la premi\u00E8re moiti\u00E9 du XXe si\u00E8cle. Les m\u00E9tallo\u00EFdes pr\u00E9sentent un aspect m\u00E9tallique mais sont fragiles et m\u00E9diocres conducteurs de l'\u00E9lectricit\u00E9. Leurs propri\u00E9t\u00E9s chimiques sont essentiellement celles de non-m\u00E9taux. Ils peuvent former des alliages avec les m\u00E9taux. Ils pr\u00E9sentent g\u00E9n\u00E9ralement une r\u00E9sistance m\u00E9canique trop faible pour pouvoir \u00EAtre utilis\u00E9s dans des applications structurelles, et sont g\u00E9n\u00E9ralement utilis\u00E9s \u00E0 travers leurs alliages, comme catalyseurs, en ignifugation, dans la fabrication de verres, les lecteurs de disques optiques, l'opto\u00E9lectronique, la pyrotechnie, les semiconducteurs et l'\u00E9lectronique. Ce sont les propri\u00E9t\u00E9s du germanium et du silicium qui ont permis l'\u00E9mergence de l'industrie des semiconducteurs dans les ann\u00E9es 1950 et le d\u00E9veloppement de l'\u00E9lectronique \u00E0 l'\u00E9tat solide au d\u00E9but des ann\u00E9es 1960. \n* Bore 5B. \n* Silicium 14Si. \n* Germanium 32Ge. \n* Arsenic 33As. \n* Antimoine 51Sb. \n* Tellure 52Te."@fr ,
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\u0437\u043D\u0430\u0447\u0435\u043D\u0438\u0435 \u0432 \u0444\u0438\u0437\u0438\u043A\u0435 \u0438 \u0432 \u0445\u0438\u043C\u0438\u0438. \u0412 \u0444\u0438\u0437\u0438\u043A\u0435 \u0442\u0435\u0440\u043C\u0438\u043D \u043E\u0442\u043D\u043E\u0441\u0438\u0442\u0441\u044F \u043A \u043E\u043F\u0440\u0435\u0434\u0435\u043B\u0451\u043D\u043D\u043E\u043C\u0443 \u0442\u0438\u043F\u0443 \u044D\u043B\u0435\u043A\u0442\u0440\u043E\u043D\u043D\u043E\u0439 \u0437\u043E\u043D\u043D\u043E\u0439 \u0441\u0442\u0440\u0443\u043A\u0442\u0443\u0440\u044B \u0432\u0435\u0449\u0435\u0441\u0442\u0432\u0430. \u0412 \u044D\u0442\u043E\u043C \u043A\u043E\u043D\u0442\u0435\u043A\u0441\u0442\u0435 \u0442\u043E\u043B\u044C\u043A\u043E \u043C\u044B\u0448\u044C\u044F\u043A \u0438 \u0441\u0443\u0440\u044C\u043C\u0430 \u044F\u0432\u043B\u044F\u044E\u0442\u0441\u044F \u043F\u043E\u043B\u0443\u043C\u0435\u0442\u0430\u043B\u043B\u0430\u043C\u0438 \u0438 \u043E\u0431\u044B\u0447\u043D\u043E \u0441\u0447\u0438\u0442\u0430\u044E\u0442\u0441\u044F \u043C\u0435\u0442\u0430\u043B\u043B\u043E\u0438\u0434\u0430\u043C\u0438."@ru ,
"Polokovy tvo\u0159\u00ED spole\u010Dn\u011B s kovy a nekovy t\u0159i hlavn\u00ED skupiny chemick\u00FDch prvk\u016F. Rozd\u011Blen\u00ED je prov\u00E1d\u011Bno s ohledem na vazebn\u00E9 a ioniza\u010Dn\u00ED vlastnosti prvk\u016F. Je velmi obt\u00ED\u017En\u00E9 definovat polokovy. N\u00E1sleduj\u00EDc\u00ED charakteristiky se \u010Dasto p\u0159isuzuj\u00ED polokov\u016Fm: 1. \n* polokovy obvykle tvo\u0159\u00ED amfotern\u00ED oxidy 2. \n* polokovy se obvykle chovaj\u00ED jako polovodi\u010De (B, Si, Ge)"@cs ,
"Els semimetalls s\u00F3n una de les tres categories principals d'elements qu\u00EDmics, juntament amb els metalls i els no-metalls. Tenen propietats qu\u00EDmiques interm\u00E8dies entre les dels uns i les dels altres. Els elements que tots els autors consideren semimetalls s\u00F3n sis: bor (B), silici (Si), germani (Ge), ars\u00E8nic (As), antimoni (Sb), tel\u00B7luri (Te). Segons diferents criteris algunes fonts tamb\u00E9 inclouen alguns dels seg\u00FCents: bismut (Bi), poloni (Po) i \u00E0stat (At). Semimetalls Malgrat la seva aparen\u00E7a met\u00E0l\u00B7lica, la difer\u00E8ncia principal amb els metalls \u00E9s que tendeixen a ser semiconductors en lloc de conductors el\u00E8ctrics. En la taula peri\u00F2dica se situen en diagonal des de la part superior esquerra (grup 13) a la inferior dreta en el bloc p, fent de frontera entre els metalls i no-metalls. Des de mitjans del segle xx els han anomenat \u00ABmetal\u00B7loides\u00BB (\u00ABmetall\u00BB m\u00E9s la terminaci\u00F3 -oide, que ve del grec \u03B5\u1F36\u03B4\u03BF\u03C2, e\u00EEdos, 'forma', 'aparen\u00E7a'), per\u00F2 \u00E9s una denominaci\u00F3 ambigua perqu\u00E8 abans es denominava amb aquest terme als no-metalls. La Uni\u00F3 Internacional de Qu\u00EDmica Pura i Aplicada (IUPAC) el 1971 desaconsell\u00E0 el seu \u00FAs i substituir-lo pel terme \u00ABsemimetalls\u00BB, amb el prefix llat\u00ED semi-, que significa 'no completament, quasi'."@ca ,
"Metaloide terminoa (grezieraz: metallon = metal eta eidos= pareko) kimikan erabiltzen da elementu kimikoak sailkatzen direnean. Propietate fisiko eta kimikoak erabiliz, taula periodikoko ia elementu guztiak sailka daitezke metal edo ez-metal gisa. Hala ere, badaude tarteko propietateak dituzten elementu gutxi batzuk, metaloide izenarekin ezagutzen direnak. Ez dago terminoaren definizio hertsirik; zenbait ezaugarriren agerpena hartzen da kontuan elementu bat metaloidetzat hartzeko: \n* normalean oxido anfoterikoak eratzen dituzte. \n* normalean erdieroale gisa jokatzen dute (B, Si, Ge) erdimetalekin (esaterako, Sb-rekin). Metaloide eta erdieroale kontzeptuak ez dira nahastu behar. Metaloide esatean, zenbait elementuk taula periodikoaren testuinguruan dituzten propietateak adierazten dira. Erdieroale hitzak zenbait materialek (aleazioak, , etab. barne hartuz) dituzten propietate fisikoak adierazten ditu, eta bien artean ezaugarri komun gutxi batzuk besterik ez daude. Metaloideen multzoan, oro har, ondoko elementu hauek sartzen dira: \n* Boroa (B) \n* Silizioa (Si) \n* Germanioa (Ge) \n* Artsenikoa (As) \n* Antimonioa (Sb) \n* Telurioa (Te) \n* Polonioa (Po) Elementu hauen alotropoek portaera anitza erakusten dute: batzuk metalen antzekoagoak, beste batzuk metaloideagoak, edo baita ez-metalikoak ere. Esaterako, karbonoaren kasuan, bere alotropoa den diamantea ez-metalikoa da, argi eta garbi; grafitoak, berriz, eroankortasun elektriko txikia erakusten du, metaloideek bezala. Fosforoak, eztainuak, selenioak eta bismutoak ere mugako portaera erakusten duten alotropoak dauzkate. Taula periodikoaren itxura estandarrean, metaloideak borotik astatora doan lerro diagonalean ageri dira. Lerro honetako goi eskuinean dauden elementuak, lerrotik gero eta urrutiago, portaera ez-metalikoagoa daukate; behe ezkerreko elementuak, berriz, gero eta metalikoagoak dira. Metal txiroak ezkerrean eta azpian daude, eta ez-metalak eskuinean eta goian. Eskuineko zutabekoak halogenoak dira."@eu ,
"D\u00FAile at\u00E1 idirmhe\u00E1nach idir na miotail is na neamh-mhiotail. Lu\u00EDonn siad i mbanda trasn\u00E1nach ar chl\u00E1r peiriadach na nd\u00FAl. Glactar le bor\u00F3n, sileacan, gearm\u00E1iniam, arsanaic, antam\u00F3in, teall\u00FAiriam, is pol\u00F3iniam mar mhiotal\u00F3idigh."@ga ,
"A metalloid is a type of chemical element which has a preponderance of properties in between, or that are a mixture of, those of metals and nonmetals. There is no standard definition of a metalloid and no complete agreement on which elements are metalloids. Despite the lack of specificity, the term remains in use in the literature of chemistry. The six commonly recognised metalloids are boron, silicon, germanium, arsenic, antimony, and tellurium. Five elements are less frequently so classified: carbon, aluminium, selenium, polonium, and astatine. On a standard periodic table, all eleven elements are in a diagonal region of the p-block extending from boron at the upper left to astatine at lower right. Some periodic tables include a dividing line between metals and nonmetals, and the metalloids may be found close to this line. Typical metalloids have a metallic appearance, but they are brittle and only fair conductors of electricity. Chemically, they behave mostly as nonmetals. They can form alloys with metals. Most of their other physical properties and chemical properties are intermediate in nature. Metalloids are usually too brittle to have any structural uses. They and their compounds are used in alloys, biological agents, catalysts, flame retardants, glasses, optical storage and optoelectronics, pyrotechnics, semiconductors, and electronics. The electrical properties of silicon and germanium enabled the establishment of the semiconductor industry in the 1950s and the development of solid-state electronics from the early 1960s. The term metalloid originally referred to nonmetals. Its more recent meaning, as a category of elements with intermediate or hybrid properties, became widespread in 1940\u20131960. Metalloids are sometimes called semimetals, a practice that has been discouraged, as the term semimetal has a different meaning in physics than in chemistry. In physics, it refers to a specific kind of electronic band structure of a substance. In this context, only arsenic and antimony are semimetals, and commonly recognised as metalloids."@en ,
"En halvmetall \u00E4r ett grund\u00E4mne p\u00E5 gr\u00E4nsen mellan de rena metallerna och icke-metallerna, b\u00E5de vad g\u00E4ller egenskaper och placering i det periodiska systemet."@sv ,
"\u041D\u0430\u043F\u0456\u0432\u043C\u0435\u0442\u0430\u043B\u0438 \u0430\u0431\u043E \u043C\u0435\u0442\u0430\u043B\u043E\u0301\u0457\u0434\u0438 (\u0440\u043E\u0441. \u043C\u0435\u0442\u0430\u043B\u043B\u043E\u0438\u0434\u044B, \u0430\u043D\u0433\u043B. metalloids, \u043D\u0456\u043C. Metalloide n pl, Nichtmetalle n pl) \u2014 \u0435\u043B\u0435\u043C\u0435\u043D\u0442\u0438 \u043F\u0435\u0440\u0456\u043E\u0434\u0438\u0447\u043D\u043E\u0457 \u0442\u0430\u0431\u043B\u0438\u0446\u0456 \u0445\u0456\u043C\u0456\u0447\u043D\u0438\u0445 \u0435\u043B\u0435\u043C\u0435\u043D\u0442\u0456\u0432, \u043A\u0440\u0438\u0441\u0442\u0430\u043B\u0438 \u044F\u043A\u0438\u0445 \u043C\u0430\u044E\u0442\u044C \u0432\u043B\u0430\u0441\u0442\u0438\u0432\u043E\u0441\u0442\u0456, \u043F\u0440\u043E\u043C\u0456\u0436\u043D\u0456 \u043C\u0456\u0436 \u0432\u043B\u0430\u0441\u0442\u0438\u0432\u043E\u0441\u0442\u044F\u043C\u0438 \u043C\u0435\u0442\u0430\u043B\u0456\u0432 \u0456 \u0432\u043B\u0430\u0441\u0442\u0438\u0432\u043E\u0441\u0442\u044F\u043C\u0438 \u043D\u0430\u043F\u0456\u0432\u043F\u0440\u043E\u0432\u0456\u0434\u043D\u0438\u043A\u0456\u0432. \u0415\u043B\u0435\u043A\u0442\u0440\u043E\u043F\u0440\u043E\u0432\u0456\u0434\u043D\u0456\u0441\u0442\u044C \u043D\u0430\u043F\u0456\u0432\u043C\u0435\u0442\u0430\u043B\u0456\u0432 \u0441\u043A\u0456\u043D\u0447\u0435\u043D\u043D\u0430 \u043F\u0440\u0438 \u043D\u0438\u0437\u044C\u043A\u0438\u0445 \u0442\u0435\u043C\u043F\u0435\u0440\u0430\u0442\u0443\u0440\u0430\u0445, \u0447\u0438\u043C \u0432\u043E\u043D\u0438 \u0432\u0456\u0434\u0440\u0456\u0437\u043D\u044F\u044E\u0442\u044C\u0441\u044F \u0432\u0456\u0434 \u043D\u0430\u043F\u0456\u0432\u043F\u0440\u043E\u0432\u0456\u0434\u043D\u0438\u043A\u0456\u0432. \u041F\u0440\u043E\u0442\u0435 \u043F\u0440\u0438 \u043F\u0456\u0434\u0432\u0438\u0449\u0435\u043D\u043D\u0456 \u0442\u0435\u043C\u043F\u0435\u0440\u0430\u0442\u0443\u0440\u0438 \u0432\u043E\u043D\u0430 \u0437\u0440\u043E\u0441\u0442\u0430\u0454, \u0447\u0438\u043C \u0432\u0456\u0434\u0440\u0456\u0437\u043D\u044F\u0454\u0442\u044C\u0441\u044F \u0432\u0456\u0434 \u0435\u043B\u0435\u043A\u0442\u0440\u043E\u043F\u0440\u043E\u0432\u0456\u0434\u043D\u043E\u0441\u0442\u0456 \u043C\u0435\u0442\u0430\u043B\u0456\u0432. \u0422\u0430\u043A\u0430 \u043F\u043E\u0432\u0435\u0434\u0456\u043D\u043A\u0430 \u043F\u043E\u044F\u0441\u043D\u044E\u0454\u0442\u044C\u0441\u044F \u0442\u0438\u043C, \u0449\u043E \u0432 \u0437\u043E\u043D\u043D\u0456\u0439 \u0441\u0442\u0440\u0443\u043A\u0442\u0443\u0440\u0456 \u043D\u0430\u043F\u0456\u0432\u043C\u0435\u0442\u0430\u043B\u0456\u0432 \u043D\u0435\u043C\u0430\u0454 \u0437\u0430\u0431\u043E\u0440\u043E\u043D\u0435\u043D\u043E\u0457 \u0437\u043E\u043D\u0438. \u0420\u0456\u0432\u0435\u043D\u044C \u0424\u0435\u0440\u043C\u0456 \u043B\u0435\u0436\u0438\u0442\u044C \u0432 \u043E\u0431\u043B\u0430\u0441\u0442\u0456, \u0434\u0435 \u0441\u0443\u0441\u0456\u0434\u043D\u0456 \u0437\u043E\u043D\u0438 \u043F\u0435\u0440\u0435\u043A\u0440\u0438\u0432\u0430\u044E\u0442\u044C\u0441\u044F. \u0422\u043E\u043C\u0443 \u043D\u0430\u0432\u0456\u0442\u044C \u043F\u0440\u0438 \u043D\u0438\u0437\u044C\u043A\u0438\u0445 \u0442\u0435\u043C\u043F\u0435\u0440\u0430\u0442\u0443\u0440\u0430\u0445 \u0456\u0441\u043D\u0443\u0454 \u0441\u043A\u0456\u043D\u0447\u0435\u043D\u043D\u0430 \u043A\u043E\u043D\u0446\u0435\u043D\u0442\u0440\u0430\u0446\u0456\u044F \u0432\u0456\u043B\u044C\u043D\u0438\u0445 \u0435\u043B\u0435\u043A\u0442\u0440\u043E\u043D\u0456\u0432, \u044F\u043A\u0456 \u043C\u043E\u0436\u0443\u0442\u044C \u043F\u0435\u0440\u0435\u043D\u043E\u0441\u0438\u0442\u0438 \u0441\u0442\u0440\u0443\u043C. \u041F\u0440\u0438 \u043F\u0456\u0434\u0432\u0438\u0449\u0435\u043D\u043D\u0456 \u0442\u0435\u043C\u043F\u0435\u0440\u0430\u0442\u0443\u0440\u0438 \u0440\u0456\u0432\u0435\u043D\u044C \u0445\u0456\u043C\u0456\u0447\u043D\u043E\u0433\u043E \u043F\u043E\u0442\u0435\u043D\u0446\u0456\u0430\u043B\u0443 \u0435\u043B\u0435\u043A\u0442\u0440\u043E\u043D\u0456\u0432 \u0437\u043C\u0456\u0449\u0443\u0454\u0442\u044C\u0441\u044F \u0432 \u043E\u0431\u043B\u0430\u0441\u0442\u044C \u0435\u043D\u0435\u0440\u0433\u0456\u0439, \u0434\u0435 \u0433\u0443\u0441\u0442\u0438\u043D\u0430 \u0441\u0442\u0430\u043D\u0456\u0432 \u0432\u0438\u0449\u0430. \u0426\u0438\u043C \u043F\u043E\u044F\u0441\u043D\u044E\u0454\u0442\u044C\u0441\u044F \u0437\u0440\u043E\u0441\u0442\u0430\u043D\u043D\u044F \u043F\u0440\u043E\u0432\u0456\u0434\u043D\u043E\u0441\u0442\u0456 \u043F\u0440\u0438 \u0432\u0438\u0449\u0438\u0445 \u0442\u0435\u043C\u043F\u0435\u0440\u0430\u0442\u0443\u0440\u0430\u0445. \u041D\u0430\u043F\u0456\u0432\u043C\u0435\u0442\u0430\u043B\u0430\u043C\u0438 \u0432\u0432\u0430\u0436\u0430\u044E\u0442\u044C\u0441\u044F: \n* \u0411\u043E\u0440 (B) \n* \u0410\u0440\u0441\u0435\u043D (As) \n* \u0421\u0442\u0438\u0431\u0456\u0439 (\u0421\u0443\u0440\u043C\u0430) (Sb) \n* \u0422\u0435\u043B\u0443\u0440 (Te) \n* \u041F\u043E\u043B\u043E\u043D\u0456\u0439 (Po) \u0406\u043D\u043E\u0434\u0456 \u0434\u043E \u043D\u0430\u043F\u0456\u0432\u043C\u0435\u0442\u0430\u043B\u0456\u0432 \u0432\u0456\u0434\u043D\u043E\u0441\u044F\u0442\u044C \u0442\u0430\u043A\u043E\u0436 \u0433\u0435\u0440\u043C\u0430\u043D\u0456\u0439 \u0456 \u0433\u0440\u0430\u0444\u0456\u0442."@uk ;
dbo:wikiPageWikiLink dbr:Tellurite ,
,
dbr:Photodetector ,
dbr:Zinc ,
dbr:Cathode ,
dbr:Bisulfate ,
dbr:Boron_trifluoride ,
dbr:Aubrey_Trotman-Dickenson ,
dbr:Surge_protector ,
dbr:Borate ,
dbr:Lewis_acid ,
dbr:Soda_ash ,
dbr:Lead_arsenate ,
dbr:Topological_insulator ,
dbr:Organic_solvent ,
dbr:Lewis_base ,
dbr:Anion ,
dbr:Polonium_dioxide ,
dbr:Phase-change_material ,
dbr:Sodium-ion_battery ,
dbr:Cation ,
,
dbr:Basic_salt ,
dbr:Trigonal_crystal_system ,
dbr:Thermoelectric_materials ,
dbr:Crustal_abundance ,
dbr:Sulfur ,
dbr:Tellurium_Copper ,
dbr:Diborane ,
dbr:Astatine ,
dbr:Carbocation ,
dbr:Gallium_nitrate ,
dbr:Topological_quantum_computing ,
,
dbr:Glass_coloring_and_color_marking ,
dbr:Tellurium_dioxide ,
dbr:Tungsten ,
dbr:Fluorine ,
dbr:Sulfide ,
dbr:Chalcogen ,
dbr:Organoboron_chemistry ,
dbr:Chromium_trioxide ,
dbr:Francium ,
dbr:Coordination_number ,
dbr:Amphoterism ,
dbr:Type_metal ,
dbr:Lead_glass ,
dbr:Amorphous ,
dbr:Syphilis ,
dbr:Tellurium ,
dbr:Physical_property ,
dbr:Electronegativity ,
dbr:Enthalpy_of_vaporization ,
dbr:Deltahedron ,
dbr:Manganese ,
dbr:Hydrogen ,
dbr:Aluminium ,
dbr:Oxide ,
dbr:Organoarsenic_chemistry ,
dbr:Alloy ,
dbr:Carbonium_ion ,
dbr:Gallium ,
dbr:Silicon ,
dbr:Hydrogen_fluoride ,
dbr:Nonlinear_optics ,
dbr:Bismuth_telluride ,
dbr:Cap_gun ,
dbr:Chemistry ,
,
dbr:Cadmium_iodide ,
dbr:Diamagnetism ,
dbr:Mineralogy ,
dbr:Black_powder ,
dbr:Iron ,
,
dbr:Hydrated ,
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dbr:Antimony_sulfate ,
dbr:Nickel ,
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dbr:Ontology ,
dbr:Gold ,
dbr:Flame_retardant ,
dbr:Cadmium_arsenide ,
dbr:Intrinsic_semiconductor ,
dbr:Silicon_tetrafluoride ,
dbr:Indium ,
dbr:Thallium ,
dbr:Lead ,
dbr:Anhydride ,
dbr:Standard_state ,
dbr:Close-packed ,
dbr:Acute_promyelocytic_leukaemia ,
dbr:Alumina ,
dbr:Environmental_chemistry ,
dbr:Smoke_screen ,
dbr:World_War_I ,
dbr:Boron_trichloride ,
dbr:Extrinsic_semiconductor ,
dbr:Titanium ,
dbr:Vanadium ,
dbr:Laser_diode ,
dbr:Delocalized_electron ,
dbr:N-type_semiconductor ,
dbr:Monovalent_ion ,
dbr:Stibnite ,
dbr:Phosphoric_acid ,
dbr:Oleum ,
dbr:Interstitial_compound ,
dbr:GeSbTe ,
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dbr:Antimony_trioxide ,
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dbr:Chromium ,
dbr:Lithium-ion_batteries ,
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dbr:Borax ,
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dbr:Dopant ,
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dbr:Seborrhoeic_dermatitis ,
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dbr:Transition_metal ,
dbr:Boron_carbide ,
dbr:Glass_fibre ,
dbr:Dividing_line_between_metals_and_nonmetals ,
dbr:List_of_semiconductor_materials ,
,
dbr:Reducing_agent ,
dbr:AgInSbTe ,
dbr:Solar_cell ,
dbr:Glass ,
dbr:Chromium_dioxide ,
dbr:Caesium ,
dbr:Carbonic_acid ,
dbr:Hydrogen_sulfide ,
dbr:Karl_Herzfeld ,
dbr:Interhalogen_compound ,
dbr:Boron_trioxide ,
dbr:Optoelectronics ,
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dbr:Graphane ,
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dbr:Iodine ,
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dbr:Allotrope ,
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,
dbr:Noble_metal ,
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dbr:Perchloric_acid ,
dbr:Group_11_element ,
,
dbr:Greek_language ,
dbr:Perchlorate ,
dbr:Polonium ,
dbr:Silicate ,
dbr:Germanous_phosphate ,
dbr:Nonmetal ,
dbr:Electrolysis ,
dbr:Germanous_phosphite .
@prefix ns9: .
dbr:Metalloid dbo:wikiPageWikiLink ns9:first-order ,
dbr:Boric_acid ,
dbr:Electrolytic_reduction ,
dbr:Copper ,
dbr:Stannous_phosphite ,
dbr:Hydrochloric_acid ,
,
dbr:Material_property ,
,
dbr:Phosphorus ,
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,
dbr:Redox ,
dbr:Silicon_dioxide ,
,
dbr:Organophosphate ,
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dbr:Organotellurium_chemistry ,
dbr:Tinea_versicolor ,
dbr:Phosphate ,
,
dbr:Aurophilicity ,
dbr:Toxicology ,
dbr:Electrical_conductor ,
,
dbr:Arsenious_acid ,
dbr:MoO2 ,
dbr:Hexafluorosilicic_acid ,
dbr:Covalent_network ,
dbr:Methanide ,
dbr:AlSb ,
dbr:Silicosis ,
dbr:Germanous_iodide ,
dbr:MoO3 ,
dbr:GeO ,
dbr:Superheated ,
dbr:Germanium_dioxide ,
dbr:Pnictogen ,
dbr:Allred-Rochow_scale ,
dbr:Octet_rule ,
dbr:Sesquicarbide ,
,
dbr:Silatrane ,
,
dbr:Manganous_phosphate ,
,
,
,
dbr:Carbenium_ion ,
,
,
dbr:D_electron_count ,
dbr:Penta- ,
,
dbr:Post-transition_metal ,
,
,
,
dbr:Organogermanium_chemistry ,
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dbr:Cadmium ,
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dbr:Antimony_triacetate ,
,
dbr:Band_structure ,
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dbr:Hexachloroethane ,
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dbr:Polyethylene_terephthalate ,
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,
dbr:Electronic_band_structure ,
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dbr:Mixed_oxide ,
dbr:Sulfoxide ,
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,
dbr:Optical_disc ,
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dbr:Chalcogenide ,
dbr:American_Journal_of_Therapeutics ,
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,
dbr:Monoclinic_crystal_system ,
dbr:Arsenic_trisulfide ,
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,
dbr:Hydrohalic_acid ,
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dbr:Lists_of_metalloids ,
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,
dbr:Sodium_arsenate ,
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dbr:Arsenic_trioxide ,
dbr:Van_der_Waals_force ,
dbr:Inorganic_nonaqueous_solvent ,
dbr:Acetylide ,
dbr:Trisenox ,
dbr:Hexagonal_lattice ,
dbr:Germanium ,
dbr:Ionization_energy ,
dbr:P2O5 ,
,
dbr:Nuclear_charge ,
dbr:Phosgene ,
dbr:Reaction_intermediate ,
dbr:Graphite ,
dbr:Half-metal ,
dbr:Sulfur_dioxide ,
dbr:Cryolite ,
dbr:Activated_carbon ,
,
dbr:Antibiotics ,
dbr:Lithium-ion_battery ,
dbr:Silica ,
,
dbr:Lanthanide ,
dbr:Bonding_in_solids ,
dbr:Sodium_hydroxide ,
dbr:D-block ,
,
dbr:Acid ,
dbr:Carbon_black ,
dbr:Pewter ,
,
dbr:Aluminium_oxide ,
dbr:Phase-change_memory ,
dbr:Effective_nuclear_charge ,
dbr:Aluminium_hydroxide ,
dbr:Borosilicate_glass ,
dbr:Tellurium_tetrachloride ,
dbr:Germanane ,
dbr:Silicone ,
dbr:Silane ,
,
dbr:Sodium_arsenite ,
dbr:Nitric_acid ,
dbr:Silver ,
dbr:Organoantimony_chemistry ,
,
,
dbr:Dharendra_Yogi_Goswami ,
dbr:Hydrolysis ,
dbr:Carbon ,
dbr:Barium ,
dbr:Semiconductor ,
,
dbr:Silsesquioxane ,
dbr:Crystal ,
dbr:Halogenated_hydrocarbon ,
dbr:Salvo ,
dbr:Sodium_stibogluconate ,
dbr:Tellurous_acid ,
dbr:Sodium_lamp ,
dbr:Thermite ,
dbr:Non-stoichiometric_compound ,
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dbr:Actinide ,
dbr:Silica_sulfuric_acid ,
dbr:Peroxydisulfuryl_difluoride ,
dbr:Ytterbium ,
dbr:Tin ,
dbr:Neptunium ,
dbr:Selenous_acid ,
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dbr:Sulfur_trioxide ,
dbr:Molybdenum ,
dbr:Organometallic_chemistry ,
dbr:Solid-state_electronics ,
dbr:Chemical_element ,
dbr:Machinability ,
,
dbr:Melarsoprol ,
dbr:Thermal_decomposition ,
dbr:Borospherene ,
dbr:Table_of_standard_electrode_potentials ,
dbr:Cryptand ,
dbr:Graphite_oxide ,
dbr:Carbon_monoxide ,
dbr:Mustard_gas ,
dbr:Boron_tribromide ,
dbr:Fluorosulfuric_acid ,
dbr:Relativistic_quantum_chemistry ,
dbr:Valence_band ,
dbr:Beryllium ,
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dbr:Ligand ,
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dbr:Imine ,
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dbr:Oxyanion ,
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dbr:Coordination_complex ,
dbr:Atomic_number ,
dbr:Cadmium_telluride ,
dbr:Graphene ,
dbr:Polonide ,
dbr:Physics .
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dbr:Metalloid dbp:wikiPageUsesTemplate dbt:Div_col ,
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,
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dbt:Chem ,
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dbt:ISBN ,
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dbt:Refn ,
dbt:Clear ,
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dbt:See_also ,
dbt:Authority_control ,
dbt:Featured_article ,
;
dbo:thumbnail ;
dbo:wikiPageRevisionID 1107383912 ;
dbo:wikiPageExternalLink ,
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dbr:Metalloid dbo:wikiPageExternalLink ns12:The-essential-elements ,
,
,
,
,
,
,
,
,
,
,
.
@prefix ns13: .
dbr:Metalloid dbo:wikiPageExternalLink ns13:minor-metals ,
,
.
@prefix ns14: .
dbr:Metalloid dbo:wikiPageExternalLink ns14:s10698-020-09356-6 ,
,
,
,
.
@prefix ns15: .
dbr:Metalloid dbo:wikiPageExternalLink ns15:topological-insulators ,
.
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dbr:Metalloid dbo:wikiPageExternalLink ns16:view ,
,
,
,
,
,
,
,
,
,
,
,
ns13:base-metals ,
,
,
,
,
,
,
,
,
,
,
,
,
,
,
,
,
,
,
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@prefix ns17: .
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,
,
,
,
,
,
,
.
@prefix ns18: .
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,
,
,
,
,
,
,
,
,
,
.
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dbr:Metalloid dbo:wikiPageExternalLink ns19:first-experimental-evidence-boron-fullerene-bucky-ball-buckminsterfullerene .
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,
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,
,
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,
,
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,
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dbr:Metalloid .
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,
,
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,
,
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@prefix gold: .
dbr:Metalloid gold:hypernym dbr:Element .
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dbr:Metalloid prov:wasDerivedFrom .
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