{"id":393,"date":"2024-05-11T12:18:53","date_gmt":"2024-05-11T04:18:53","guid":{"rendered":"https:\/\/ceramicatijolart.com\/?p=393"},"modified":"2024-05-11T12:18:53","modified_gmt":"2024-05-11T04:18:53","slug":"amorfs-silicija-karbids","status":"publish","type":"post","link":"https:\/\/ceramicatijolart.com\/lv\/amorfs-silicija-karbids\/","title":{"rendered":"Amorfs sil\u012bcija karb\u012bds"},"content":{"rendered":"<p>T\u0101pat k\u0101 dimants, graf\u0113ns un citi eksotiskie materi\u0101li, amorfais sil\u012bcija karb\u012bds (a-SiC) ir \u0101rk\u0101rt\u012bgi iztur\u012bgs materi\u0101ls \u2013 tom\u0113r, at\u0161\u0137ir\u012bb\u0101 no saviem krist\u0101liskajiem analogiem, t\u0101 atomu izk\u0101rtojum\u0101 nav nov\u0113rojama t\u0101la darb\u012bbas r\u0101diusa k\u0101rt\u012bba.<\/p>\n<p>\u0160\u012b anom\u0101lija pal\u012bdz izskaidrot, k\u0101 \u0161im materi\u0101lam izdodas sasniegt tik iev\u0113rojamu stiepes iztur\u012bbu; profesors Norte l\u0113\u0161, ka pie vienas a-SiC sloksnes var\u0113tu piek\u0101rt l\u012bdz pat 10 vid\u0113ja izm\u0113ra automa\u0161\u012bn\u0101m, pirms t\u0101 p\u0101rpl\u012bst.<\/p>\n<h2>Raksturojums<\/h2>\n<p>Sil\u012bcija karb\u012bds (SiC) ir neorganisks \u0137\u012bmiskais savienojums, kas sast\u0101v no oglek\u013ca un sil\u012bcija. Dab\u0101 tas sastopams k\u0101 ret\u0101 miner\u0101la moissan\u012bta veid\u0101, ta\u010du SiC var atrast ar\u012b k\u0101 abraz\u012bvu materi\u0101lu vai k\u0101 keramikas pl\u0101ksnes bru\u0146u vest\u0113s. \u0145emot v\u0113r\u0101 tik daudzveid\u012bgos tehnolo\u0123iskos pielietojumus, tam piem\u012bt milz\u012bgs potenci\u0101ls \u2013 t\u0101 \u012bpa\u0161\u012bbas ietver ciet\u012bbu un augstus Janga modu\u013ca r\u0101d\u012bt\u0101jus, izcilas meh\u0101nisk\u0101s un elektrisk\u0101s \u012bpa\u0161\u012bbas, k\u0101 ar\u012b pla\u0161u caursp\u012bd\u012bguma diapazonu redzam\u0101s gaismas vi\u013c\u0146u garumos, l\u012bdz pat izcil\u0101m meh\u0101niskaj\u0101m un elektriskaj\u0101m \u012bpa\u0161\u012bb\u0101m krist\u0101la form\u0101 (c-SiC).<\/p>\n<p>SiC p\u0113d\u0113j\u0101 laik\u0101 ir piesaist\u012bjis zin\u0101tnieku uzman\u012bbu, pateicoties savai izcilajai stiepes iztur\u012bbai. \u0160is jaunais materi\u0101ls, kur\u0101 apvienoti gan krist\u0101liski, gan amorfi materi\u0101li, var lepoties ar pl\u016bstam\u012bbas robe\u017eu, kas ir 10 reizes liel\u0101ka nek\u0101 Kevlaram, ko izmanto bru\u0146u vest\u0113s \u2014 t\u0101d\u0113j\u0101di tas ir \u0101rk\u0101rt\u012bgi iztur\u012bgs, ta\u010du vienlaikus elast\u012bgs materi\u0101ls, kas piem\u0113rots daudziem lietojumiem, tostarp ultrasensit\u012bviem mikrosh\u0113mu sensoriem.<\/p>\n<p>Amorfais SiC sast\u0101v no haotiski sakrautiem \u201eLego\u201d kluc\u012b\u0161iem, kuriem nav regul\u0101ra mode\u013ca vai k\u0101rt\u012bbas atomu strukt\u016br\u0101, l\u012bdz\u012bgi k\u0101 tas izskat\u0101s, ja to novieto plakn\u0113 uz virsmas. Ta\u010du at\u0161\u0137ir\u012bb\u0101 no krist\u0101liskajiem SiC materi\u0101liem \u0161\u012b haotisk\u0101 strukt\u016bra nerada trauslumu, bet gan palielina iztur\u012bbu un daudzpus\u012bbu; to pier\u0101da 10 gigapaskalu iztur\u012bba, kas \u0161o materi\u0101lu izce\u013c no citiem. \u0160\u012b neticam\u0101 iztur\u012bba noz\u012bm\u0113, ka, lai \u0161o materi\u0101lu salauztu, uz t\u0101 b\u016btu j\u0101novieto desmit automa\u0161\u012bnas!<\/p>\n<p>\u0160\u012bs izcil\u0101s \u012bpa\u0161\u012bbas padara a-SiC par lielisku materi\u0101lu MEMS (mikroelektromeh\u0101nisko sist\u0113mu) strukt\u016bru, piem\u0113ram, membr\u0101nu, konsolveida elementu un st\u012bgu, izgatavo\u0161anai. Turkl\u0101t, t\u0101 k\u0101 nogulsn\u0113\u0161anai nepiecie\u0161am\u0101s temperat\u016bras ir zem\u0101kas nek\u0101 c-SiC nogulsn\u0113\u0161anas metod\u0113s, a-SiC nodro\u0161ina ar\u012b augstu ra\u017eo\u0161anas izn\u0101kumu vai nogulsn\u0113\u0161anas procesus pl\u0101tnes m\u0113rog\u0101.<\/p>\n<p>Lai pier\u0101d\u012btu a-SiC pl\u0113vju izcilo veiktsp\u0113ju, m\u0113s izgatavoj\u0101m un izm\u0113r\u012bj\u0101m gredzenveida rezonatorus, kas izgatavoti no \u0161\u012b materi\u0101la pl\u0101naj\u0101m pl\u0113v\u0113m. Pirms anal\u012bzes, izmantojot gal\u012bgo elementu metodes simul\u0101ciju, rezonatoriem tika piem\u0113rotas anal\u012btiskas formulas; rezult\u0101ti liecin\u0101ja, ka a-SiC pl\u0101naj\u0101m pl\u0113v\u0113m ir rakstur\u012bgie kvalit\u0101tes koeficienti, kas p\u0101rsniedz 4\u00d710\u2075, p\u0101rsp\u0113jot pat c-SiN un krist\u0101lisk\u0101 SiC r\u0101d\u012bt\u0101jus ar vi\u013c\u0146vada izplat\u012b\u0161an\u0101s zudumu 0,78 dB\/cm \u2013 tas ir b\u016btisks solis ce\u013c\u0101 uz \u0161\u012b materi\u0101la izmanto\u0161anu integr\u0113taj\u0101s kvantu fotonikas lietojumprogramm\u0101s.<\/p>\n<h2>\u012apa\u0161\u012bbas<\/h2>\n<p>Amorfajam sil\u012bcija karb\u012bdam piem\u012bt vair\u0101kas \u012bpa\u0161\u012bbas, kas to padara par lielisku izv\u0113li izmanto\u0161anai fotoniskaj\u0101s platform\u0101s, tostarp augsta \u0137\u012bmisk\u0101 selektivit\u0101te, zems siltuma izple\u0161an\u0101s koeficients, ciet\u012bba un stingr\u012bba \u2014 \u012bpa\u0161\u012bbas, kas to padara piem\u0113rotu meh\u0101nisko sensoru lietojumiem, piem\u0113ram, nanomeh\u0101niskajiem rezonatoriem. Turkl\u0101t p\u0113t\u012bjumos ir konstat\u0113ti izcilie meh\u0101niskie stiepes kvalit\u0101tes koeficienti, kas padara amorfo sil\u012bcija karb\u012bdu par vienu no lab\u0101kajiem materi\u0101liem sp\u0113ka, pa\u0101trin\u0101juma un p\u0101rvietojuma sensoru lietojumiem.<\/p>\n<p>Amorfajam SiC ir daudz zem\u0101ks Janga modulis nek\u0101 t\u0101 sil\u012bcija (c-Si) analogam, t\u0101d\u0113j\u0101di padarot to elast\u012bg\u0101ku izmanto\u0161anai lielform\u0101ta elektronikas lietojumos, piem\u0113ram, \u0161\u0137idro krist\u0101lu displejos. Turkl\u0101t t\u0101 amorf\u0101 strukt\u016bra samazina ener\u0123ijas pat\u0113ri\u0146u, kas nepiecie\u0161ams, lai sasniegtu t\u0101du pa\u0161u elektrisk\u0101s str\u0101vas bl\u012bvumu k\u0101 sil\u012bcija b\u0101zes analogam.<\/p>\n<p>Zem\u0101s termisk\u0101s izple\u0161an\u0101s \u012bpa\u0161\u012bbas padara PMMA par lielisku materi\u0101lu, lai aizsarg\u0101tu met\u0101la optisk\u0101s ier\u012bces, piem\u0113ram, optisk\u0101s \u0161\u0137iedras un l\u0113cas, no termisk\u0101s izple\u0161an\u0101s. Diem\u017e\u0113l t\u0101 trauslums apgr\u016btina t\u0101 izmanto\u0161anu liela apjoma lietojumos, piem\u0113ram, logu vai spogu\u013cu izgatavo\u0161an\u0101.<\/p>\n<p>Amorfais sil\u012bcija karb\u012bds izce\u013cas k\u0101 ide\u0101ls materi\u0101ls optiskajiem vi\u013c\u0146vadiem un pastiprin\u0101t\u0101jiem, pateicoties t\u0101 sp\u0113c\u012bgajai tre\u0161\u0101s k\u0101rtas nelinearit\u0101tei, kas to padara par ide\u0101lu materi\u0101lu, lai izmantotu starpposma st\u0101vok\u013cus t\u0101 ener\u0123ijas joslas spraug\u0101, kuri tiek pastiprin\u0101ti, pateicoties t\u0101 amorfaj\u0101m strukt\u016br\u0101m, divu fotonu absorbcijas un \u010detru vi\u013c\u0146u sajauk\u0161an\u0101s procesos.<\/p>\n<p>Turkl\u0101t amorfajam SiC piem\u012bt zema siltuma un elektrisk\u0101 vad\u012btsp\u0113ja, kas \u013cauj iev\u0113rojami uzlabot integr\u0113t\u0101s optisk\u0101s ier\u012bces. Turkl\u0101t t\u0101 siltuma vad\u012btsp\u0113ja ir labv\u0113l\u012bgi sal\u012bdzin\u0101ma gan ar volframa, gan bora karb\u012bda materi\u0101liem, t\u0101d\u0113j\u0101di padarot to piem\u0113rotu lieto\u0161anai zemas temperat\u016bras apst\u0101k\u013cos, piem\u0113ram, siltuma vad\u012bbas sist\u0113m\u0101s vai \u0101trdarb\u012bg\u0101s sakaru sist\u0113m\u0101s.<\/p>\n<p>Sil\u012bcija karb\u012bda pl\u0113ves var izgatavot, izmantojot da\u017e\u0101das metodes, tostarp plazmas \u0137\u012bmisko tvaika nogulsn\u0113\u0161anu (PCVD). \u0160\u0101d\u0101 veid\u0101 ieg\u016bt\u0101s pl\u0113ves var piel\u0101got konkr\u0113tiem vi\u013c\u0146u garumiem optiskaj\u0101m lietojumprogramm\u0101m vai veidot no t\u0101m rezonatoru strukt\u016bras; turkl\u0101t t\u0101s var nogulsn\u0113t k\u0101 pl\u0101nus sl\u0101\u0146us uz citiem substr\u0101tiem vai materi\u0101liem, piem\u0113ram, izol\u0113jo\u0161a stikla substr\u0101tiem.<\/p>\n<p>Molekul\u0101r\u0101s dinamikas simul\u0101cijas ir par\u0101d\u012bju\u0161as, ka amorfajam SiC ir sl\u0101\u0146veida strukt\u016bra, kur\u0101 ir gan heteronukle\u0101ras, gan homonukle\u0101ras saites, kuru attiec\u012bba main\u0101s p\u0113c atkaus\u0113\u0161anas. \u0160is atkl\u0101jums apstiprina eksperiment\u0101li noteikt\u0101s radi\u0101l\u0101s sadales funkcijas.<\/p>\n<h2>Pieteikumi<\/h2>\n<p>Amorf\u0101 sil\u012bcija karb\u012bda m\u0113rogojam\u012bba padara to par ide\u0101lu materi\u0101lu daudziem augstas veiktsp\u0113jas pielietojumiem, tostarp sensoriem, saules elementiem, kosmosa izp\u0113tes tehnolo\u0123ij\u0101m un struktur\u0101lajiem kompoz\u012btiem. Turkl\u0101t t\u0101 stiepes robe\u017esp\u0113ks p\u0101rsniedz Kevlara r\u0101d\u012bt\u0101jus, t\u0101d\u0113j\u0101di padarot to piem\u0113rotu gan ultrajut\u012bgiem mikrosh\u0113mu sensoriem, gan moderniem saules elementiem un kosmosa izp\u0113tes tehnolo\u0123ij\u0101m. Turkl\u0101t t\u0101 unik\u0101l\u0101s meh\u0101nisk\u0101s \u012bpa\u0161\u012bbas \u013cauj veikt deform\u0101cijas in\u017eenieriju, kas ir piem\u0113rota iztur\u012bgiem materi\u0101liem, piem\u0113ram, struktur\u0101lajiem kompoz\u012btiem un meh\u0101niskajiem bl\u012bv\u0113jumiem.<\/p>\n<p>Polikrist\u0101liskajam sil\u012bcijam (c-Si) rakstur\u012bga sav\u012bta krist\u0101lu strukt\u016bra, savuk\u0101rt amorfajam sil\u012bcijam (a-Si) \u2014 s\u012bki krist\u0101l\u012bti, kas tekst\u016br\u0101 izk\u0101rtoti granulveid\u012bgi. T\u0101d\u0113j\u0101di amorfais sil\u012bcijs (a-Si) viegl\u0101k iztur deform\u0101ciju, \u013caujot izgatavot pl\u0101n\u0101kas pl\u0113ves ar zem\u0101k\u0101m apstr\u0101des temperat\u016br\u0101m nek\u0101 t\u0101 analogam c-Si.<\/p>\n<p>Zems bl\u012bvums var b\u016bt ar\u012b priek\u0161roc\u012bba neironu saskarn\u0113m, kuras izmanto pl\u0101nas pl\u0113ves elektrodus kop\u0101 ar augstfrekvences vibr\u0101cij\u0101m, lai stimul\u0113tu vai re\u0123istr\u0113tu smadze\u0146u aktivit\u0101ti. Diem\u017e\u0113l to integrit\u0101tes saglab\u0101\u0161ana ilgsto\u0161as implant\u0101cijas laik\u0101 var k\u013c\u016bt arvien gr\u016bt\u0101ka, jo rodas komplik\u0101cijas, ko izraisa gan biolo\u0123iskie, gan abiotiskie faktori, piem\u0113ram, iekaisuma reakcijas un implantu biezuma samazin\u0101\u0161an\u0101s.<\/p>\n<p>Papildus sav\u0101m meh\u0101niskaj\u0101m \u012bpa\u0161\u012bb\u0101m a-SiC izce\u013cas ar\u012b ar iespaid\u012bgu Janga modu\u013cu, kas padara to noder\u012bgu rakstveida rezonatoru izstr\u0101d\u0113 neironu saskarn\u0113m. Lai demonstr\u0113tu \u0161o pielietojumu, komanda izgatavoja un raksturoja no a-SiC veidotas membr\u0101nas, konsoles un st\u012bgas; veica anal\u012btisku piel\u0101gojumu, lai noteiktu to iek\u0161\u0113jo kvalit\u0101tes koeficientu, Janga modu\u013cu, Puasona koeficientu un bl\u012bvumu; veica simul\u0101cijas, izmantojot gal\u012bgo elementu metodi, lai prognoz\u0113tu \u0161o konsolu\/st\u012bgu pamatfrekvences; un konstat\u0113ja, ka rezult\u0101ti labi saskan ar eksperiment\u0101lajiem m\u0113r\u012bjumiem.<\/p>\n<p>A-SiC ir daudzsolo\u0161s pusvad\u012bt\u0101ju materi\u0101ls n\u0101kam\u0101s paaudzes augsttemperat\u016bras, augstfrekvences un lieljaudas optoelektroniskaj\u0101m ier\u012bc\u0113m. T\u0101 ener\u0123ijas spraugai piem\u012bt iev\u0113rojama tre\u0161\u0101s k\u0101rtas nelinearit\u0101te, kas ir 10 reizes liel\u0101ka nek\u0101 SiN un krist\u0101liskajam SiC, kas veicina pastiprin\u0101tu divu fotonu absorbciju un \u010detru vi\u013c\u0146u sajauk\u0161an\u0101s procesus. Turkl\u0101t t\u0101 termisk\u0101 stabilit\u0101te atvieglo hibr\u012bdo integr\u0101ciju. Turkl\u0101t \u0161is materi\u0101ls izce\u013cas ar labu \u0137\u012bmisko iztur\u012bbu, jo ir bag\u0101t\u012bgs \u016bde\u0146ra\u017ea le\u0123\u0113t\u0101ju avots; t\u0101d\u0113j\u0101di tas ir piem\u0113rots k\u0101 virsmas pasiviz\u0101cijas p\u0101rkl\u0101jums pret koroziju, \u0113\u0161anu un nodilumu.<\/p>\n<h2>N\u0101kotne<\/h2>\n<p>Laik\u0101, kad augstas iztur\u012bbas materi\u0101lu jom\u0101 v\u0113sturiski domin\u0113ju\u0161i 2D un krist\u0101liski materi\u0101li, amorfais sil\u012bcija karb\u012bds ir k\u013cuvis par nozares revol\u016bciju. \u0160\u012b materi\u0101la unik\u0101l\u0101 amorf\u0101 strukt\u016bra nodro\u0161ina tam \u0101rk\u0101rt\u0113ju iztur\u012bbu, neskatoties uz to, ka tam nav saska\u0146ota krist\u0101lre\u017e\u0123a ar sak\u0101rtotu atomu izk\u0101rtojumu; faktiski tas sp\u0113j iztur\u0113t milz\u012bgu slodzi \u2013 t\u0101du, kas atbilst 10 vid\u0113ja izm\u0113ra automa\u0161\u012bnu piek\u0101r\u0161anai pie l\u012bmlentes str\u0113les, pirms tas beidzot neiztur spriedzi.<\/p>\n<p>A-SiC ra\u017eo\u0161anas proces\u0101 at\u0161\u0137iras no saviem krist\u0101liskajiem analogiem, pateicoties savam amorfajam raksturam; \u0161is materi\u0101ls \u013cauj vienk\u0101r\u0161i \u012bstenot ra\u017eo\u0161anas procesus, piem\u0113ram, pl\u0101nsl\u0101\u0146a tranzistoru (TFT) izgatavo\u0161anu, kurus pla\u0161i izmanto \u0161\u0137idro krist\u0101lu displejos un rentgena att\u0113lveidot\u0101jos, k\u0101 ar\u012b daudzos citos pielietojumos. Viena no galvenaj\u0101m priek\u0161roc\u012bb\u0101m ir m\u0113rogojam\u012bba: at\u0161\u0137ir\u012bb\u0101 no graf\u0113na un dimanta, kuru ra\u017eo\u0161anai liel\u0101 apjom\u0101 nepiecie\u0161amas lielas partijas, a-SiC ra\u017eo\u0161ana var notikt pl\u0101ksnes m\u0113rog\u0101.<\/p>\n<p>M\u0113rogojam\u012bba ir pav\u0113rusies daudzas pielietojuma iesp\u0113jas mikrosh\u0113mu sensoru tehnolo\u0123ij\u0101. Iztur\u012bgi materi\u0101li nodro\u0161ina lab\u0101ku aizsardz\u012bbu satel\u012btiem un kosmosa ku\u0123iem pret skarbiem vides apst\u0101k\u013ciem, ar kuriem tie saskaras kosmos\u0101; turkl\u0101t tie var\u0113tu pat uzlabot saules elementu tehnolo\u0123iju, \u013caujot efekt\u012bv\u0101k ra\u017eot t\u012bru ener\u0123iju.<\/p>\n<p>Visbeidzot, a-SiC ir daudzsolo\u0161s materi\u0101ls integr\u0113tiem kvantu fotonikas pielietojumiem. Pateicoties pla\u0161ajai ener\u0123ijas spraugai un samazin\u0101tajai divu fotonu absorbcijai telekomunik\u0101ciju vi\u013c\u0146u garumos, k\u0101 ar\u012b pla\u0161ajam caursp\u012bd\u012bguma diapazonam redzam\u0101s un tuvu infrasarkan\u0101s spektra da\u013c\u0101s, a-SiC ir lieliska platforma vienfotonu avotiem un spinu kubitiem.<\/p>\n<p>\u012asum\u0101 sakot, a-SiC revolucion\u0101r\u0101s \u012bpa\u0161\u012bbas dr\u012bz p\u0101rveidos vair\u0101kas nozares. T\u0101 iztur\u012bba, piel\u0101gojam\u012bba un daudzpus\u012bba jau tagad sp\u0113l\u0113 iz\u0161\u0137iro\u0161u lomu ultra\u0101trgaitas sakaros un optiskaj\u0101s tehnolo\u0123ij\u0101s; ta\u010du, iesp\u0113jams, visnovatorisk\u0101kais t\u0101 pielietojums ir starpzvaig\u017e\u0146u izp\u0113t\u0113, kur t\u0101 sp\u0113ja iztur\u0113t \u0101rk\u0101rt\u0113jas slodzes var\u0113tu \u013caut ra\u0137et\u0113m un kosmosa ku\u0123iem, kas izmanto \u0161o materi\u0101lu, sasniegt Marsu vai pat doties v\u0113l t\u0101l\u0101k m\u016bsu Visum\u0101. T\u0101d\u0113j\u0101di t\u0101 n\u0101kotne \u0161\u0137iet daudzsolo\u0161a, turkl\u0101t t\u0101 ietekme uz sabiedr\u012bbu kopum\u0101 ir milz\u012bga.<\/p>","protected":false},"excerpt":{"rendered":"<p>Like diamond, graphene and other exotic materials, amorphous silicon carbide (a-SiC) is an exceptionally strong material &#8211; however unlike its crystalline counterparts it does not exhibit long range order in its atomic arrangement. This anomaly helps explain how this material manages to achieve such remarkable tensile strength; Professor Norte estimates that up to 10 medium-sized [&hellip;]<\/p>\n","protected":false},"author":1,"featured_media":0,"comment_status":"closed","ping_status":"closed","sticky":false,"template":"","format":"standard","meta":{"site-sidebar-layout":"default","site-content-layout":"","ast-site-content-layout":"","site-content-style":"default","site-sidebar-style":"default","ast-global-header-display":"","ast-banner-title-visibility":"","ast-main-header-display":"","ast-hfb-above-header-display":"","ast-hfb-below-header-display":"","ast-hfb-mobile-header-display":"","site-post-title":"","ast-breadcrumbs-content":"","ast-featured-img":"","footer-sml-layout":"","theme-transparent-header-meta":"","adv-header-id-meta":"","stick-header-meta":"","header-above-stick-meta":"","header-main-stick-meta":"","header-below-stick-meta":"","astra-migrate-meta-layouts":"default","ast-page-background-enabled":"default","ast-page-background-meta":{"desktop":{"background-color":"var(--ast-global-color-4)","background-image":"","background-repeat":"repeat","background-position":"center center","background-size":"auto","background-attachment":"scroll","background-type":"","background-media":"","overlay-type":"","overlay-color":"","overlay-gradient":""},"tablet":{"background-color":"","background-image":"","background-repeat":"repeat","background-position":"center center","background-size":"auto","background-attachment":"scroll","background-type":"","background-media":"","overlay-type":"","overlay-color":"","overlay-gradient":""},"mobile":{"background-color":"","background-image":"","background-repeat":"repeat","background-position":"center center","background-size":"auto","background-attachment":"scroll","background-type":"","background-media":"","overlay-type":"","overlay-color":"","overlay-gradient":""}},"ast-content-background-meta":{"desktop":{"background-color":"var(--ast-global-color-5)","background-image":"","background-repeat":"repeat","background-position":"center center","background-size":"auto","background-attachment":"scroll","background-type":"","background-media":"","overlay-type":"","overlay-color":"","overlay-gradient":""},"tablet":{"background-color":"var(--ast-global-color-5)","background-image":"","background-repeat":"repeat","background-position":"center center","background-size":"auto","background-attachment":"scroll","background-type":"","background-media":"","overlay-type":"","overlay-color":"","overlay-gradient":""},"mobile":{"background-color":"var(--ast-global-color-5)","background-image":"","background-repeat":"repeat","background-position":"center center","background-size":"auto","background-attachment":"scroll","background-type":"","background-media":"","overlay-type":"","overlay-color":"","overlay-gradient":""}},"footnotes":""},"categories":[64],"tags":[],"class_list":["post-393","post","type-post","status-publish","format-standard","hentry","category-knowledge"],"aioseo_notices":[],"_links":{"self":[{"href":"https:\/\/ceramicatijolart.com\/lv\/wp-json\/wp\/v2\/posts\/393","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/ceramicatijolart.com\/lv\/wp-json\/wp\/v2\/posts"}],"about":[{"href":"https:\/\/ceramicatijolart.com\/lv\/wp-json\/wp\/v2\/types\/post"}],"author":[{"embeddable":true,"href":"https:\/\/ceramicatijolart.com\/lv\/wp-json\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/ceramicatijolart.com\/lv\/wp-json\/wp\/v2\/comments?post=393"}],"version-history":[{"count":1,"href":"https:\/\/ceramicatijolart.com\/lv\/wp-json\/wp\/v2\/posts\/393\/revisions"}],"predecessor-version":[{"id":394,"href":"https:\/\/ceramicatijolart.com\/lv\/wp-json\/wp\/v2\/posts\/393\/revisions\/394"}],"wp:attachment":[{"href":"https:\/\/ceramicatijolart.com\/lv\/wp-json\/wp\/v2\/media?parent=393"}],"wp:term":[{"taxonomy":"category","embeddable":true,"href":"https:\/\/ceramicatijolart.com\/lv\/wp-json\/wp\/v2\/categories?post=393"},{"taxonomy":"post_tag","embeddable":true,"href":"https:\/\/ceramicatijolart.com\/lv\/wp-json\/wp\/v2\/tags?post=393"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}