TWI785580B - 具波浪狀部分與非波浪狀部分之混合式磊晶區域的鰭式場效電晶體 - Google Patents
具波浪狀部分與非波浪狀部分之混合式磊晶區域的鰭式場效電晶體 Download PDFInfo
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Abstract
本發明實施例係關於一種方法,其包含形成具有複數個半導體鰭片之一第一鰭片群組及一第二鰭片群組。該複數個半導體鰭片包含:一第一半導體鰭片,其在該第一鰭片群組中最遠離該第二鰭片群組;一第二半導體鰭片;及一第三半導體鰭片,其在該第一鰭片群組中最靠近該第二鰭片群組。該方法進一步包含執行一磊晶程序以形成基於該複數個半導體鰭片之一磊晶區域。該磊晶區域包含一第一部分及一第二部分。該第一部分在該第一半導體鰭片與該第二半導體鰭片中間。該第一部分具有一第一頂面。該第二部分在該第二半導體鰭片與該第三半導體鰭片中間。
Description
本發明實施例係有關具波浪狀部分與非波浪狀部分之混合式磊晶區域的鰭式場效電晶體。
在形成鰭式場效電晶體中,源極/汲極區域通常藉由形成半導體鰭片、使半導體鰭片凹陷以形成凹槽及自凹槽開始生長磊晶區域來形成。自相鄰半導體鰭片之凹槽生長之磊晶區域可彼此合併,且所得磊晶區域可具有平坦頂面。形成電連接至源極/汲極區域之源極/汲極接觸插塞。
本發明之一實施例係關於一種方法,其包括:使一第一半導體條帶、一第二半導體條帶及一第三半導體條帶之對置側上之隔離區域凹陷以形成一第一半導體鰭片、一第二半導體鰭片及一第三半導體鰭片;在該第一半導體鰭片、該第二半導體鰭片及該第三半導體鰭片上形成一閘極堆疊;在該閘極堆疊之側壁上形成閘極間隔件;在該第一半導體條帶、該第二半導體條帶及該第三半導體條帶之側壁上形成鰭片間隔件;執行一凹陷程序以使該第一半導體條帶、該第二半導體條帶及該第三半導體條帶凹陷以分別形成一第一凹槽、一第二凹槽及一第三凹槽;及執行一磊晶程序以自該第一凹槽、該第二凹槽及該第三凹槽開始形成一磊晶區域,其中該磊晶區域包括一頂面,該頂面包括:一凸部分,其高於該第一半導體鰭片及該第二半導體鰭片且橫向位於該第一半導體鰭片與該第二半導體鰭片之間;及一凹部分,其高於該第二半導體鰭片及該第三半導體鰭片且橫向位於該第二半導體鰭片與該第三半導體鰭片之間。
本發明之一實施例係關於一種方法,其包括:形成一第一鰭片群組及一第二鰭片群組,其中該第一鰭片群組包括具有群組內間隔之複數個半導體鰭片,其中該第一鰭片群組及該第二鰭片群組具有大於該等群組內間隔之一群組間間隔,且其中該複數個半導體鰭片包括:一第一半導體鰭片,其中該第一半導體鰭片在該第一鰭片群組中最遠離該第二鰭片群組;一第二半導體鰭片;及一第三半導體鰭片,其中該第三半導體鰭片在該第一鰭片群組中最靠近該第二鰭片群組;及執行一磊晶程序以形成基於該複數個半導體鰭片之一磊晶區域,其中該磊晶區域包括:一第一部分,其在該第一半導體鰭片與該第二半導體鰭片中間,其中該第一部分具有一第一頂面;及一第二部分,其在該第二半導體鰭片與該第三半導體鰭片中間,其中該第二部分具有低於該第一頂面之一第二頂面。
本發明之一實施例係關於一種方法,其包括:形成一第一鰭片群組及一第二鰭片群組,其中該第一鰭片群組包括具有群組內間隔之複數個半導體鰭片,且該第一鰭片群組包括最遠離該第二鰭片群組之一第一半導體鰭片、一第二半導體鰭片及最靠近該第二鰭片群組之一第三半導體鰭片;在該第一鰭片群組上形成一閘極堆疊;在該閘極堆疊之側壁上形成閘極間隔件;形成鰭片間隔件,該等鰭片間隔件包括:一第一外鰭片間隔件,其面向該第二鰭片群組,其中該第一外鰭片間隔件具有一第一高度;一第二外鰭片間隔件,其背對該第二鰭片群組,其中該第二外鰭片間隔件具有大於該第一高度之一第二高度;及內間隔件,其等在該第一外鰭片間隔件與該第二外鰭片間隔件之間;執行磊晶程序以形成基於該第一鰭片群組之一第一磊晶區域及基於該第二鰭片群組之一第二磊晶區域;及形成使該第一磊晶區域與該第二磊晶區域電互連之一源極/汲極接觸插塞。
以下揭示提供用於實施本發明之不同特徵之諸多不同實施例或實例。下文將描述組件及配置之具體實例以簡化本揭示。當然,此等僅為實例且不意在限制。例如,在以下描述中,在一第二構件上形成一第一構件可包含其中形成直接接觸之該第一構件及該第二構件之實施例,且亦可包含其中額外構件可形成於該第一構件與該第二構件之間使得該第一構件及該第二構件可不直接接觸之實施例。另外,本揭示可在各種實例中重複元件符號及/或字母。此重複係為了簡單及清楚且其本身不指示所討論之各種實施例及/或組態之間的一關係。
此外,為便於描述,諸如「下面」、「下方」、「下」、「上面」、「上」及其類似者之空間相對術語在本文中可用於描述一元件或構件與另一(些)元件或構件之關係,如圖中所繪示。除圖中所描繪之定向之外,空間相對術語亦意欲涵蓋裝置在使用或操作中之不同定向。設備可依其他方式定向(旋轉90度或依其他定向)且亦可因此解譯本文中所使用之空間相對描述詞。
提供鰭式場效電晶體(FinFET)及其形成方法。根據本發明之一些實施例,一合併磊晶區域(其可為一FinFET之一源極/汲極區域)基於形成一鰭片群組之複數個半導體鰭片形成。合併磊晶區域包含至少一波浪狀部分及一非波浪狀部分,其中術語「波浪狀」係指一頂面之一中間部分低於自半導體鰭片生長之對置部分之頂面。非波浪狀部分具有防止整個鰭片群組鰭片彎曲之功能,而波浪狀部分具有比部分形成為非波浪狀大之一接觸面積,且因此減小接觸電阻。因此,當合併磊晶區域包含非波浪狀部分及波浪狀部分兩者時,要小心可靠性及接觸電阻兩個問題。本文中所討論之實施例提供能够製造或使用本發明之標的之實例,且一般技術者將易於理解可在不同實施例之預期範疇內進行之修改。在所有各種視圖及說明性實施例中,相同元件符號用於標示相同元件。儘管方法實施例可經討論為依一特定順序執行,但其他方法實施例可依任何邏輯順序執行。
圖1、圖2A、圖2B、圖3A、圖3B、圖3C、圖4A、圖4B、圖4C、圖5至圖7、圖8A、圖8B、圖9、圖10、圖11A、圖11B及圖11C繪示根據本發明之一些實施例之形成FinFET及對應源極/汲極區域中之中間階段之剖面圖。圖12所展示之程序流程中亦示意性反映對應程序。
圖1繪示一初始結構之一透視圖。初始結構包含晶圓10,其進一步包含基板20。基板20可為一半導體基板,其可為矽基板、矽鍺基板或由其他半導體材料形成之一基板。基板20之頂面可具有一(100)表面平面。基板20可摻雜有一p型或n型雜質。可形成自基板20之一頂面延伸至基板20中之隔離區域22,諸如淺溝槽隔離(STI)區域。各自程序經繪示為圖12所展示之程序流程200中之程序202。相鄰STI區域22之間的基板20之部分指稱半導體條帶24。根據一些實施例,半導體條帶24之頂面及STI區域22之頂面實質上可彼此等高。
STI區域22可包含一襯層氧化物(未展示),其可為透過基板20之一表面層之一熱氧化形成之一熱氧化物。襯層氧化物亦可為使用(例如)原子層沈積(ALD)、高密度電漿化學汽相沈積(HDPCVD)或化學汽相沈積(CVD)形成之一沈積氧化矽層。STI區域22亦可包含襯層氧化物上之一介電材料,其中介電材料可使用可流動化學汽相沈積(FCVD)、旋塗或其類似者形成。根據一些實施例,STI區域22可包含:STI區域22O,其在鰭片群組之外側上,如將在後續段落中討論;及STI區域22I,其形成於鰭片群組中之群組內間隔中。STI區域22O可具有大於STI區域22I之一高度。
根據一些實施例,半導體條帶24之頂部部分24T由不同於半導體基板20之主體部分之材料之一材料形成。例如,頂部部分24T可由矽鍺形成,其可具有約15%至約30%之間的一範圍內之鍺原子百分比。根據一些實施例,頂部部分24T在形成STI區域22之前形成,且透過一磊晶程序形成以在基板20上沈積矽鍺。頂部部分24T亦可包含一底部部分,其由相同於半導體基板20之下伏主體部分之材料形成。接著,藉由蝕刻磊晶矽鍺層及下伏基板20之一些部分且沈積介電材料來形成STI區域22。根據替代實施例,頂部部分24T在形成STI區域22之後形成,且藉由蝕刻STI區域22之間的基板20之部分且接著執行一磊晶程序以將諸如矽鍺之一半導體材料生長至所得凹槽中來形成。
參考圖2A及圖2B,使STI區域22凹陷。圖2B繪示圖2A中之參考剖面B-B之一剖面圖。然而,圖2A繪示圖2B中所展示之結構之左部分。半導體條帶24之頂部部分突出高於STI區域22之頂面22A以形成突出鰭片24',其包含裝置區域100A (圖2B)中之突出鰭片24A'及裝置區域100B中之突出鰭片24B' (圖2B)。各自程序經繪示為圖12所展示之程序流程中之程序204。STI區域22中之半導體條帶24之部分仍指稱半導體條帶。
參考圖2B,突出鰭片24A'共同指稱鰭片群組25A,且突出鰭片24B'共同指稱鰭片群組25B。根據一些實施例,相同鰭片群組25A及25B中相鄰鰭片之間的內間隔S1小於群組間間隔S2,例如,其中比率S2/S1大於約2或大於約5。STI區域22之凹陷可使用一乾式蝕刻程序執行,其中HF與NH
3之一混合物可用作蝕刻氣體。蝕刻亦可使用NF
3與NH
3之一混合物作為蝕刻氣體執行。在蝕刻程序期間,可產生電漿。亦可包含氬氣。根據本發明之替代實施例,STI區域22之凹陷使用一濕式蝕刻程序執行。例如,蝕刻化學品可包含HF溶液。
根據一些實施例,用於形成FinFET之鰭片可由任何適合方法形成/圖案化。例如,鰭片可使用包含雙重圖案化或多重圖案化程序之一或多個光微影程序圖案化。一般而言,雙重圖案化或多重圖案化程序組合光微影與自對準程序以允許產生具有(例如)比原本可使用一單一直接光微影程序獲得之節距小之節距之圖案。例如,在一實施例中,一犧牲層形成於一基板上且使用一光微影程序圖案化。間隔件使用一自對準程序與圖案化犧牲層一起形成。接著移除犧牲層,且接著可使用剩餘間隔件或心軸來圖案化鰭片。
如圖2B中所展示,晶圓10包含一第一裝置區域100A及一第二裝置區域100B,其等各用於在其內形成一FinFET。形成於第一裝置區域100A中之FinFET可為一p型FinFET,而形成於第二裝置區域100B中之FinFET可為一n型FinFET或一p型FinFET。為使裝置區域100A及裝置區域100B中之特徵彼此區分,形成於裝置區域100A中之一特徵可使用一元件符號後接字母「A」來指稱,且形成於裝置區域100B中之一特徵可使用一元件符號後接字母「B」來指稱。例如,裝置區域100A中之半導體條帶24指稱24A,其等共同指稱一條帶群組25A,且裝置區域100B中之半導體條帶24指稱24B,其等共同指稱一條帶群組25B。
根據一些實施例,STI區域22之頂面22A可高於、低於或等高於頂部部分24T (圖1)之底面。因此,在STI區域22凹陷之後,全部突出鰭片24A'可由矽鍺形成,且可或可不向下延伸至剩餘STI區域22之間的空間中。替代地,突出鰭片24A'之底部部分可由矽形成,而突出鰭片24A'之頂部部分可由矽鍺形成。
參考圖3A、圖3B及圖3C,使虛設閘極堆疊30形成於突出鰭片24A'及24B'之頂面及側壁上。各自程序經繪示為圖12所展示之程序流程中之程序206。圖3B及圖3C中所展示之剖面分別自圖3A中之參考剖面B-B及C-C獲得。在圖3C及後續圖11C中,可繪示STI區域22 (亦參考圖3A)之頂面22A之層面,且半導體鰭片24A'及24B'高於頂面22A。STI區域22I之底面22B (亦參考圖3A)亦繪示於剖面圖中。STI區域22I位於22A與22B之間的層面處,且未展示於圖3C及圖11C中,因為其等在不同於所繪示平面之平面中。
虛設閘極堆疊30可包含虛設閘極介電質32 (圖3C)及虛設閘極介電質32上之虛設閘極電極34。虛設閘極電極34可使用(例如)非晶矽或多晶矽形成,且亦可使用其他材料。虛設閘極堆疊30之各者亦可包含虛設閘極電極34上之一(或複數個)硬遮罩層36。硬遮罩層36可由氮化矽、碳氮化矽或其類似者形成。虛設閘極堆疊30亦具有垂直於突出鰭片24A'及24B'之縱向方向之縱向方向。根據一些實施例,突出鰭片24A'上之虛設閘極堆疊30及突出鰭片24B'上之虛設閘極堆疊30係彼此實體分離之離散虛設閘極堆疊。根據替代實施例,一(若干)相同虛設閘極堆疊30可在突出鰭片24A'及突出鰭片24B'兩者上延伸。
接著,使閘極間隔件38 (圖3A及圖3C)形成於虛設閘極堆疊30之側壁上。各自程序經繪示為圖12所展示之程序流程中之程序208。根據本發明之一些實施例,閘極間隔件38由諸如碳氮化矽(SiCN)、氮化矽、氧碳氮化矽(SiOCN)或其類似者之介電材料形成,且可具有包含複數個介電層之一單層結構或一多層結構。形成程序包含沈積保形間隔層及接著執行各向異性蝕刻程序以形成閘極間隔件38 (及鰭片間隔件39)。根據本發明之一些實施例,閘極間隔件38係多層閘極間隔件。例如,閘極間隔件38之各者可包含SiN層及SiN層上之SiOCN層。圖3A及圖3C亦繪示形成於突出鰭片24'之側壁上之鰭片間隔件39。各自程序亦經繪示為圖12所展示之程序流程中之程序208。
根據本發明之一些實施例,鰭片間隔件39 (包含39A、39B、39C、39D、39E、39F、39A'、39B'、39C'及39D' (圖3B))藉由用於形成閘極間隔件38之相同程序形成。例如,在用於形成閘極間隔件38之程序中,經沈積用於形成閘極間隔件38之(若干)毯覆介電層在被蝕刻時可具有留在突出鰭片24A'及24B'之側壁上之一些部分以因此形成鰭片間隔件39。根據一些實施例,鰭片間隔件39包含鰭片群組中之最外鰭片之外側上之諸如鰭片間隔件39A、39F、39A'及39D' (圖3B)之外鰭片間隔件。鰭片間隔件39進一步包含諸如鰭片間隔件39B、39C、39D、39E、39B'及39C'之內鰭片間隔件,其中內鰭片間隔件39B、39C、39D、39E位於鰭片24A'之間,且內鰭片間隔件39B'及39C'位於鰭片24B'之間。
參考圖4A、圖4B及圖4C,使未由虛設閘極堆疊30及閘極間隔件38覆蓋之突出鰭片24A'及24B'之部分凹陷以因此形成凹槽40A及40B (圖4B)。各自程序經繪示為圖12所展示之程序流程中之程序210。圖4B及圖4C分別繪示自圖4A中之參考剖面B-B及C-C獲得之剖面圖。凹陷可為各向異性的,且因此保護及不蝕刻直接在虛設閘極堆疊30及閘極間隔件38下面之鰭片24'之部分。根據一些實施例,凹陷半導體鰭片24'之頂面可高於STI區域22之頂面22A,且可高於剩餘鰭片間隔件39。
根據一些實施例,在蝕刻突出鰭片24'期間,亦蝕刻鰭片間隔件39以降低其高度。鰭片間隔件39A、39B、39C、39D、39E、39F分別具有高度H1、H2、H3、H4、H5及H6 (圖4B)。鰭片間隔件39之蝕刻可與使鰭片24'凹陷同時執行,其中將用於蝕刻鰭片間隔件39之一(若干)蝕刻氣體添加至用於使突出鰭片24'凹陷之蝕刻氣體中。
根據本發明之一些實施例,突出鰭片24'之凹陷透過一乾式蝕刻步驟執行。乾式蝕刻可使用諸如C
2F
6、CF
4、SO
2、HBr、Cl
2及O
2之混合物、HBr、Cl
2、O
2及CF
2之混合物或其類似者之程序氣體執行。蝕刻可為各向異性的。根據本發明之一些實施例,如圖4C中所展示,面向凹槽40之突出鰭片24'之側壁實質上垂直,且實質上與閘極間隔件38之外側壁齊平。面向凹槽40之突出鰭片24A'及24B'之側壁可在對應突出鰭片24A'及24B'之(110)表面平面上。參考圖4B,使用虛線展示亦為突出鰭片24'之移除部分之凹槽40A及40B之位置。虛線亦表示直接在虛設閘極堆疊30 (圖4C)下面之突出鰭片24',其位於不同於所繪示平面之一平面中。
在突出鰭片24'凹陷中,亦添加用於蝕刻鰭片間隔件39之一程序氣體用於使鰭片間隔件39凹陷。根據一些實施例,用於蝕刻鰭片間隔件39之程序氣體及程序條件(當突出鰭片24'凹陷時)經調整以達成以下關係:(H1>H6)、(H1>(H2及H3)>(H4及H5))及(H6>(H2及H3)>(H4及H5))。高度H2及H3亦可等於或接近高度H4及H5。換言之,左外鰭片39A具有大於右外鰭片39F之高度H6之高度H1,且兩個外鰭片之高度H1及H6大於內鰭片之高度H2、H3、H3及H4。左內鰭片之高度H2及H3亦可大於或等於右內鰭片之高度H4及H5。鰭片間隔件39之蝕刻可使用含氟氣體(諸如CF
4、O
2及N
2之混合物;NF
3與O
2之混合物;SF
6;SF
6與O
2之混合物;或其類似者)執行,且可包含用於轟擊外間隔件39A之一氣體(諸如氬氣)。用於達成期望鰭片間隔件高度之經調整程序條件包含(但不限於)蝕刻氣體及轟擊氣體之分壓、偏壓電壓及/或其類似者。此外,負載效應可用於幫助達成鰭片間隔件之期望高度。例如,比率S2/S1 (其係群組間間隔S2與群組內間隔S1之比率)可經調整以調整負載效應,使得高度H1、H2、H3、H4、H5及H6可經調整。
根據一些實施例,在蝕刻突出鰭片24' (其中亦使鰭片間隔件39凹陷)之後,執行一額外蝕刻程序以進一步蝕刻鰭片間隔件39且調整突出鰭片24'之高度。在此程序中,未使突出鰭片24'凹陷。根據替代實施例,跳過額外蝕刻程序。額外蝕刻程序(若執行)亦可使用一各向異性蝕刻程序執行,各向異性蝕刻程序使用(例如)類似於形成鰭片間隔件中之程序氣體之程序氣體。根據一些實施例,前述程序可能無法達成以下關係:(H1>H6)、(H1>(H2及H3)>(H4及H5))及(H6>(H2及H3)>(H4及H5))。例如,在前述形成鰭片間隔件39中,高度H1反而可小於高度H6。因此,執行蝕刻程序以調整鰭片間隔件高度,使得高度H1大於H6。替代地,上述關係可已由前述形成鰭片間隔件39達成,但鰭片間隔件高度H1、H2、H3、H4、H5及H6之間的比率不理想。因此,可執行額外蝕刻程序以將比率調整至期望值。
在上文討論之程序中,亦可調整各自鰭片間隔件39A'、39B'、39C'及39D'之高度H1'、H2'、H3'及H4',使得高度H1'大於H4'且高度H1'及H4'兩者大於高度H2'及H3'。
參考圖5,透過一磊晶程序沈積磊晶層48-1 (其亦指稱磊晶層L1,且包含48-11、48-12及48-13)。各自程序經繪示為圖12所展示之程序流程中之程序212。根據一些實施例,沈積透過一非保形沈積程序執行,使得第一層48-1之底部部分(圖11C)比側壁部分厚。沈積可使用RPCVD、PECVD或其類似者執行。根據一些實施例,磊晶層48-1由SiGeB形成或包括SiGeB。用於沈積磊晶層48-1之程序氣體可包含含矽氣體(諸如矽烷、二矽烷(Si
2H
6)、二氯矽烷(DCS)或其類似者)、含鍺氣體(諸如鍺烷(GeH
4)、二鍺烷(Ge
2H
6)或其類似者)及含摻雜物程序氣體(諸如B
2H
6或其類似者),其取決於磊晶層48-1之期望組合物。另外,可添加諸如HCl之一蝕刻氣體來達成半導體而非介電質上之選擇性沈積。磊晶層48-1可具有約5×10
19/cm
3至約8×10
20/cm
3之間的範圍內之硼濃度。鍺原子百分比可在約15%至約45%之間的範圍內。鍺原子百分比可為梯度的,其中較高部分具有比各自較低部分高之鍺原子百分比。
如圖5中所展示,磊晶層48-1橫向擴展且朝向彼此生長。另一方面,自不同突出鰭片24A'及24B'生長之磊晶層48-1仍彼此分離且不合併。磊晶層48-1之頂端經控制以比原始未凹陷突出鰭片24'之頂面低(例如)約5 nm至約10 nm之間的範圍內之一差。根據一些實施例,歸因於高度H1至高度H6之間的上述關係,磊晶層48-11之頂端高於磊晶層48-13之頂端。此外,磊晶層48-11之頂端可等高於或高於磊晶層48-12之頂端。
參考圖6,沈積磊晶層48-2 (其亦指稱磊晶層L2)。各自程序經繪示為圖12所展示之程序流程中之程序214。沈積程序可使用RPCVD、PECVD或其類似者執行。根據一些實施例,磊晶層48-2包含SiGeB,其中硼具有高於磊晶層48-1中之硼濃度之一第二硼濃度。例如,根據一些實施例,磊晶層48-2中之硼濃度可在約5×10
20/cm
3至約3×10
21/cm
3之間的範圍內。此外,磊晶層48-2中之鍺原子百分比高於磊晶層48-1中之鍺原子百分比。例如,根據一些實施例,磊晶層48-2中之鍺原子百分比可在約40%至約65%之間的範圍內。用於形成磊晶層48-2之程序氣體可類似於形成磊晶層48-1中之程序氣體,只是用於形成磊晶層48-2之程序氣體之流速可不同於形成磊晶層48-1中對應程序氣體之流速。
在沈積磊晶層48-2之磊晶程序之後,執行一蝕刻(回蝕)程序。根據本發明之一些實施例,回蝕程序係各向同性的。根據一些實施例,蝕刻程序使用諸如HCl之一蝕刻氣體及諸如H
2及/或N
2之一(若干)載體氣體執行。另外,可將諸如鍺烷(GeH
4)之含鍺氣體添加於蝕刻氣體中。可或可不將諸如矽烷(SiH
4)之含矽氣體添加於蝕刻氣體中。添加含鍺氣體(及可能含矽氣體)導致與蝕刻效應同時發生之一沈積效應。然而,蝕刻速率大於沈積速率,使得淨效應係磊晶層48-2之回蝕。添加含鍺及含矽氣體降低淨蝕刻速率,使得當磊晶層48-2之表面輪廓經重新塑形時,磊晶層48-2之厚度未顯著減小。沈積及蝕刻經最佳化使得磊晶層48-2具有一期望厚度。此外,如圖6中所展示,磊晶層48-2之頂面48-2TS經重新塑形使得(111)小面產生,尤其在自鰭片群組25A中最右突出鰭片及鰭片群組25B中最左突出鰭片生長之磊晶層48-2之部分上。
磊晶層48-2之頂端經控制以等高於或或至少接近(例如具有小於約5 nm或約3 nm之一差)原始未凹陷突出鰭片24A'之頂端。圖11C繪示圖6中之參考剖面C-C之剖面圖,其展示磊晶層48-2之對置端與突出鰭片24A'之頂面等高,而磊晶層48-2之頂面之中間部分可等高於或略低於對應突出鰭片24A'及24B'之頂面。
返回參考圖6,合併自相鄰凹槽生長之磊晶層48-2,其中氣隙44密封於磊晶層48-2下。合併磊晶層48-2之頂面可具有一非平面輪廓(亦指稱具有一波浪形狀),其中橫向位於相鄰鰭片24A'之間的中間部分低於其對置側之部分。未凹陷部分可直接在突出鰭片24A'上。歸因於鰭片間隔件高度H1、H2、H3、H4、H5及H6之不同,形成凹槽46A及46B。凹槽46A橫向位於左側兩個突出鰭片24A'之間(且高於左側兩個突出鰭片24A'),而凹槽46B橫向位於右側兩個突出鰭片24A'之間(且高於右側兩個突出鰭片24A')。根據一些實施例,凹槽46A之凹陷深度D1小於凹槽46B之凹陷深度D2,例如其中比率D2/D1大於約1.5、大於約2或在約1.5至約5之間的範圍內。
圖7繪示用於沈積磊晶層48-3 (其亦指稱磊晶層L3或一覆蓋層)之磊晶程序。各自程序經繪示為圖12所展示之程序流程中之程序216。沈積程序可使用RPCVD、PECVD或其類似者執行。根據一些實施例,磊晶層48-3包含SiGeB。磊晶區48-3中之硼濃度可在約5×10
20/cm
3至約1×10
21/cm
3之間的範圍內。此外,磊晶層48-3中之鍺原子百分比可大於、等於或低於磊晶層48-2中之鍺原子百分比。例如,根據一些實施例,磊晶層48-3中之鍺原子百分比可在約45%至約55%之間的範圍內。
在沈積磊晶層48-3之磊晶程序之後,執行一蝕刻(回蝕)程序。根據本發明之一些實施例,回蝕程序係各向同性的。根據一些實施例,蝕刻程序使用諸如HCl之一蝕刻氣體及諸如H
2及/或N
2之一(若干)載體氣體執行。另外,可將諸如鍺烷(GeH
4)之含鍺氣體添加於蝕刻氣體中。可或可不將諸如矽烷(SiH
4)之含矽氣體添加於蝕刻氣體中。添加含鍺氣體導致與蝕刻效應同時發生之一沈積效應。然而,蝕刻速率大於沈積速率,使得淨效應係磊晶層48-3之回蝕。添加含鍺氣體降低淨蝕刻速率,使得當磊晶層48-3之表面輪廓經重新塑形時,磊晶層48-3之厚度未顯著減小。沈積及蝕刻經最佳化使得磊晶層48-3具有一期望厚度。此外,如圖7中所展示,磊晶層48-3之頂面及側壁表面經重新塑形為產生有更多(111)小面,尤其是自鰭片群組25A中最右突出鰭片及鰭片群組25B中最左突出鰭片生長之磊晶層48-3之部分。此外,形成之(111)小面越多越好,形成之轉角越尖銳。在整個描述中,磊晶層48-1、48-2及48-3共同及個別指稱磊晶層(區域)48,其等在下文中共同指稱源極/汲極區域48A及48B。
根據一些實施例,磊晶區域48A具有高於突出鰭片24A'之頂面24'TS之凸起部分。直接在最左突出鰭片24A'上之凸起高度RH1大於直接在最右突出鰭片24A'上之凸起高度RH3,且可等於或略大於(例如具有小於約2 nm之一差)凸起高度RH2。
磊晶層48-3具有頂面48-3TS,其亦為源極/汲極區域48之頂面。根據一些實施例,基於左側兩個突出鰭片24A'形成之源極/汲極區域48之部分45A具有一錐形形狀,且部分45A之頂面大體上平坦且可具有一凸頂面。例如,自第一突出鰭片(自左側計數)之右邊緣至第二突出24' (自左側計數)之右邊緣,磊晶層48-3之頂面可為平坦的。替代地,頂面之此部分可呈圓形(如由虛線47表示)且具有一凸形,其中最高點在第一突出鰭片與第二突出鰭片之間(且可在第一突出鰭片與第二突出鰭片中間)。換言之,凸起高度RH4大於凸起高度RH1、RH2及RH3。另一方面,基於右側兩個突出鰭片24A'形成之源極/汲極區域48之右部分之頂面(該右部分包含部分45B及部分45A之右部分)呈波浪狀(凹形),其中形成一顯著凹槽46C。根據一些實施例,凹槽46C之深度D3大於約3 nm且可在約3 nm至約15 nm之間的範圍內。因此,總言之,源極/汲極區域48之頂面之左側比右側平坦且高於右側,其中左側係更遠離相鄰鰭片群組25B之側,而右側係更靠近相鄰鰭片群組25B之側。
磊晶區域48B可包含層48-1、48-2及48-3。根據一些實施例,磊晶區域48B係p型,且可形成於用於形成磊晶區域48A之相同程序中。根據替代實施例,磊晶區域48B係n型且屬於一n型FinFET,且因此形成於不同於形成磊晶區域48A之一程序中。例如,當磊晶區域48B係p型時,磊晶區域48B可具有一錐形形狀(其中頂面呈凸形)。替代地,磊晶區域48B可具有由虛線50指示之一波浪狀頂面,其可發生於磊晶區域48B係n型時。根據一些實施例,磊晶區域48B之頂面可為平坦的或可略微傾斜,其中較靠近鰭片群組25A之部分低於較遠離鰭片群組25A之部分。
參考圖8A及圖8B,使接觸蝕刻停止層(CESL) 66及層間介電質(ILD) 68形成於磊晶區域48A及48B上。各自程序經繪示為圖12所展示之程序流程中之程序218。執行諸如化學機械拋光(CMP)程序或一機械研磨程序之一平坦化以移除CESL 66及ILD 68之多餘部分,直至暴露虛設閘極堆疊30 (圖4A及圖4C)。
接著,在一蝕刻程序中移除虛設閘極堆疊30 (圖4A及圖4C),且使用替換閘極堆疊56替換虛設閘極堆疊30,如圖8A中所展示。各自程序經繪示為圖12所展示之程序流程中之程序220及222。替換閘極堆疊56包含閘極介電質58,其進一步包含突出鰭片24'之頂面及側壁上之界面層及界面層上之高k介電質。替換閘極堆疊56進一步包含閘極介電質58上之閘極電極60。在形成替換閘極堆疊56之後,使替換閘極堆疊56凹陷以在閘極間隔件38之間形成溝槽。將諸如氮化矽、氮氧化矽或其類似者之一介電材料填充至所得溝槽中以形成介電硬遮罩62。各自程序經繪示為圖12所展示之程序流程中之程序224。
接著,參考圖9,蝕刻ILD 68及CESL 66以形成源極/汲極接觸開口70。各自程序經繪示為圖12所展示之程序流程中之程序226。蝕穿磊晶層48-3,且暴露磊晶層48-2之頂面。開口70可延伸至磊晶區域48A及48B中達約5 nm至約10 nm之間的範圍內之一深度。蝕刻可經控制以停止於磊晶層48-2上,磊晶層48-2上具有小過度蝕刻(例如小於約2 nm)。磊晶層48-2之暴露頂面呈波浪狀,且可暴露凹槽46A及46B,使得磊晶層48-2之暴露頂面包含在剖面圖中具有V形之部分。應暸解,儘管磊晶區域之左部分不再呈非波浪狀而是具有波浪狀頂面,但包含CESL 66及ILD 68之整體結構將防止突出鰭片在製程之此階段中彎曲。
由於磊晶層48-2之平坦部分比具有轉角之部分更慢被蝕刻,因此具有比左部分多之轉角之右部分48-2R比具有一較平坦表面之部分48-2L更多被蝕刻。因此,部分48-2R之頂端低於部分48-2L之頂端,例如其中其等頂面具有大於約3 nm之一高度差ΔH1,且可在約2 nm至約10 nm之間的範圍內。總言之,面向磊晶區域48B之磊晶區域48A之側低於背對磊晶區域48B之側。磊晶層48-2之暴露頂面具有凹槽(凹形) 46A'及46B'。
接著,如圖10中所展示,形成源極/汲極矽化物區域72A及72B。各自程序經繪示為圖12所展示之程序流程中之程序228。根據本發明之一些實施例,形成源極/汲極矽化物區域72A及72B包含沈積延伸至開口70中之一金屬層(諸如鈦層、鈷層或其類似者)及接著執行一退火程序使得金屬層之底部部分與磊晶層48-2反應以形成矽化物區域72A及72B。剩餘未反應金屬層可被移除。
圖11A、圖11B及圖11C繪示(若干)接觸插塞74之形成。各自程序經繪示為圖12所展示之程序流程中之程序230。如圖11B中所展示,源極/汲極接觸插塞74經形成以填充開口70,且使源極/汲極矽化物區域72A及72B電互連。因此,FinFET 76A及FinFET 76B (圖11B)形成,且源極/汲極區域48A及48B由接觸插塞74電互連。圖11B繪示圖11A中之參考剖面B-B,且圖11C繪示圖11A中之參考剖面C-C。如圖11B中所展示,磊晶區域48A之頂面不對稱且傾斜,其中較靠近磊晶區域48B之內部分低於較遠離磊晶區域48B之外部分。因此,矽化物區域72A及72B傾斜。根據一些實施例,矽化物區域72A之內部分之頂面比各自外部分低高度差ΔH2,其可大於約2 nm且可在約2 nm至約10 nm之間的範圍內。矽化物區域72A可具有凹槽(凹形) 46A''及46B''。此外,矽化物區域72A及72B在磊晶區域48A及48B之側壁上延伸,使得矽化物區域72A及72B與各自磊晶區域48A及48B之間的接觸面積增大且接觸電阻減小。
本發明之實施例具有一些有利特徵。藉由使磊晶區域之一第一部分形成為非波浪狀(具有錐形形狀),可減小基於其形成磊晶區域之一鰭片群組中之所有半導體鰭片之彎曲,因為非波浪狀部分充當一錨以防止半導體鰭片之剩餘部分彎曲。藉由使磊晶區域之一第二部分形成為具有一波浪形頂面,減小接觸面積。另外,由於波浪形狀,更多磊晶區域具有更尖銳轉角,其在形成源極/汲極矽化物區域及接觸插塞中被蝕刻,使得對應矽化物區域在磊晶區域之側壁上延伸且接觸電阻進一步減小。
根據本發明之一些實施例,一種方法包含:使一第一半導體條帶、一第二半導體條帶及一第三半導體條帶之對置側上之隔離區域凹陷以形成一第一半導體鰭片、一第二半導體鰭片及一第三半導體鰭片;在該第一半導體鰭片、該第二半導體鰭片及該第三半導體鰭片上形成一閘極堆疊;在該閘極堆疊之側壁上形成閘極間隔件;在該第一半導體條帶、該第二半導體條帶及該第三半導體條帶之側壁上形成鰭片間隔件;執行一凹陷程序以使該第一半導體條帶、該第二半導體條帶及該第三半導體條帶凹陷以分別形成一第一凹槽、一第二凹槽及一第三凹槽;及執行一磊晶程序以形成自該第一凹槽、該第二凹槽及該第三凹槽開始之一磊晶區域,其中該磊晶區域包括一頂面,該頂面包括:一凸部分,其高於該第一半導體鰭片及該第二半導體鰭片且橫向位於該第一半導體鰭片與該第二半導體鰭片之間;及一凹部分,其高於該第二半導體鰭片及該第三半導體鰭片且橫向位於該第二半導體鰭片與該第三半導體鰭片之間。在一實施例中,該等鰭片間隔件進一步包括:一第一外鰭片間隔件,其具有一第一高度;一第二外鰭片間隔件,其具有小於該第一高度之一第二高度;及內間隔件,其等在該第一外鰭片間隔件與該第二外鰭片間隔件之間,其中該等內間隔件具有小於該第一高度及該第二高度之高度。在一實施例中,該等鰭片間隔件在該凹陷程序期間被同時蝕刻,且該方法進一步包括在該凹陷程序之後進一步使該等鰭片間隔件凹陷。在一實施例中,該第一半導體鰭片、該第二半導體鰭片及該第三半導體鰭片形成一第一鰭片群組,其中該第一鰭片群組相鄰於一第二鰭片群組,且該第二外鰭片間隔件面向該第二鰭片群組,且該第一外鰭片間隔件背對該第二鰭片群組。在一實施例中,在該第一半導體鰭片、該第二半導體鰭片及該第三半導體鰭片凹陷之後,該第一半導體鰭片、該第二半導體鰭片及該第三半導體鰭片之頂面高於該等鰭片間隔件之頂端。在一實施例中,該磊晶區域包括一第一磊晶層、一第二磊晶層及一第三磊晶層,其中該第三磊晶層包括具有該頂面之該凸部分之一第一部分及具有該頂面之該凹部分之一第二部分,且其中該方法進一步包括蝕穿該第三磊晶層之該第一部分以顯露該第二磊晶層之一凹頂面。在一實施例中,該方法進一步包含在該第二磊晶層上形成矽化物區域,其中該矽化物區域包括:一第一部分,其直接在該第二磊晶層之該凹頂面上;及一第二部分,其直接在該第三半導體鰭片上,其中該矽化物區域之該第一部分高於該矽化物區域之該第二部分。在一實施例中,該第三磊晶層包括比該第二磊晶層低之硼濃度。在一實施例中,該磊晶程序包括沈積矽鍺硼。
根據本發明之一些實施例,一種方法包含:形成一第一鰭片群組及一第二鰭片群組,其中該第一鰭片群組包括具有群組內間隔之複數個半導體鰭片,其中該第一鰭片群組及該第二鰭片群組具有大於該等群組內間隔之一群組間間隔,且其中該複數個半導體鰭片包括:一第一半導體鰭片,其中該第一半導體鰭片在該第一鰭片群組中最遠離該第二鰭片群組;一第二半導體鰭片;及一第三半導體鰭片,其中該第三半導體鰭片在該第一鰭片群組中最靠近該第二鰭片群組;及執行一磊晶程序以形成基於該複數個半導體鰭片之一磊晶區域,其中該磊晶區域包括:一第一部分,其在該第一半導體鰭片與該第二半導體鰭片中間,其中該第一部分具有一第一頂面;及一第二部分,其在該第二半導體鰭片與該第三半導體鰭片中間,其中該第二部分具有低於該第一頂面之一第二頂面。在一實施例中,該第一部分包括橫向位於該第一半導體鰭片與該第二半導體鰭片之間的一第一最高點,且該磊晶區域進一步包括直接在該第三半導體鰭片上之一第三部分,其中該第三部分具有一第二最高點,且該第一最高點高於該第二最高點。在一實施例中,該磊晶區域之一頂面具有橫向位於該第二半導體鰭片與該第三半導體鰭片之間的一凹槽。在一實施例中,該凹槽具有約3 nm至約15 nm之間的一範圍內之一深度。在一實施例中,該第一半導體鰭片與該第二半導體鰭片之間的該磊晶區域之一部分具有一凸頂面。在一實施例中,該方法其進一步包含形成矽化物區域,其中形成該矽化物區域包括:移除具有該凸頂面之該磊晶區域之該部分以形成該磊晶區域之一凹頂面;及在該磊晶區域之該凹頂面上形成該矽化物區域。
根據本發明之一些實施例,一種方法包含:形成一第一鰭片群組及一第二鰭片群組,其中該第一鰭片群組包括具有群組內間隔之複數個半導體鰭片,且該第一鰭片群組包括最遠離該第二鰭片群組之一第一半導體鰭片、一第二半導體鰭片及最靠近該第二鰭片群組之一第三半導體鰭片;在該第一鰭片群組上形成一閘極堆疊;在該閘極堆疊之側壁上形成閘極間隔件;形成鰭片間隔件,該等鰭片間隔件包括:一第一外鰭片間隔件,其面向該第二鰭片群組,其中該第一外鰭片間隔件具有一第一高度;一第二外鰭片間隔件,其背對該第二鰭片群組,其中該第二外鰭片間隔件具有大於該第一高度之一第二高度;及內間隔件,其等在該第一外鰭片間隔件與該第二外鰭片間隔件之間;執行磊晶程序以形成基於該第一鰭片群組之一第一磊晶區域及基於該第二鰭片群組之一第二磊晶區域;及形成使該第一磊晶區域與該第二磊晶區域電互連之一源極/汲極接觸插塞。在一實施例中,該等鰭片間隔件經形成以具有該等內間隔件,該等內間隔件具有小於該第一高度及該第二高度之高度。在一實施例中,該第一鰭片群組及該第二鰭片群組具有大於該等群組內間隔之一群組間間隔。在一實施例中,該源極/汲極接觸插塞具有一底部,其具有與該第一磊晶區域重疊之一部分,其中該底部傾斜,且較靠近該第二鰭片群組之該底部之部分低於較遠離該第二鰭片群組之該底部之部分。在一實施例中,該第一磊晶區域包括一頂面,且該頂面包括:一第一部分,其橫向位於該第一半導體鰭片與該第二半導體鰭片之間且高於該第一半導體鰭片及該第二半導體鰭片,其中該第一部分具有一凸頂面;及一第二部分,其橫向位於該第二半導體鰭片與該第三半導體鰭片之間,其中該第二部分具有一凹頂面。
上文已概述若干實施例之特徵,使得熟習技術者可較佳理解本發明之態樣。熟習技術者應瞭解,其可易於使用本揭示作為設計或修改其他程序及結構以實施相同目的及/或達成本文中所引入之實施例之相同優點之一基礎。熟習技術者亦應認識到,此等等效構造不應背離本發明之精神及範疇,且其可在不背離本發明之精神及範疇的情況下對本文作出各種改變、替代及更改。
10:晶圓
20:基板
22:淺溝槽隔離(STI)區域
22A:頂面
22B:底面
22I:STI區域
22O:STI區域
24:半導體條帶
24':突出鰭片
24'TS:頂面
24A:半導體條帶
24A':突出鰭片/半導體鰭片
24B:半導體條帶
24B':突出鰭片/半導體鰭片
24T:頂部部分
25A:鰭片群組
25B:鰭片群組
30:虛設閘極堆疊
32:虛設閘極介電質
34:虛設閘極電極
36:硬遮罩層
38:閘極間隔件
39:鰭片間隔件
39A:鰭片間隔件
39A':鰭片間隔件
39B:鰭片間隔件
39B':鰭片間隔件
39C:鰭片間隔件
39C':鰭片間隔件
39D:鰭片間隔件
39D':鰭片間隔件
39E:鰭片間隔件
39F:鰭片間隔件
40:凹槽
40A:凹槽
40B:凹槽
44:氣隙
45A:部分
45B:部分
46A:凹槽
46A':凹槽
46A'':凹槽
46B:凹槽
46B':凹槽
46B'':凹槽
46C:凹槽
47:虛線
48:磊晶層/源極/汲極區域
48A:源極/汲極區域/磊晶區域
48B:源極/汲極區域/磊晶區域
48-1:磊晶層
48-2:磊晶層
48-2L:部分
48-2R:右部分
48-3:磊晶層
48-3TS:頂面
48-11:磊晶層
48-12:磊晶層
48-13:磊晶層
50:虛線
56:替換閘極堆疊
58:閘極介電質
60:閘極電極
62:介電硬遮罩
66:接觸蝕刻停止層(CESL)
68:層間介電質(ILD)
70:源極/汲極接觸開口
72A:源極/汲極矽化物區域
72B:源極/汲極矽化物區域
74:接觸插塞
76A:鰭式場效電晶體(FinFET)
76B:FinFET
100A:第一裝置區域
100B:第二裝置區域
202:程序
204:程序
206:程序
208:程序
210:程序
212:程序
214:程序
216:程序
218:程序
220:程序
222:程序
224:程序
226:程序
228:程序
230:程序
D1:凹陷深度
D2:凹陷深度
D3:深度
H1:高度
H1':高度
H2:高度
H2':高度
H3:高度
H3':高度
H4:高度
H4':高度
H5:高度
H6:高度
L1:磊晶層
L2:磊晶層
L3:磊晶層
RH1:凸起高度
RH2:凸起高度
RH3:凸起高度
RH4:凸起高度
S1:群組內間隔
S2:群組間間隔
ΔH1:高度差
ΔH2:高度差
自結合附圖解讀之以下詳細描述最佳理解本發明之態樣。應注意,根據行業標準做法,各種構件未按比例繪製。事實上,為使討論清楚,各種構件之尺寸可任意增大或減小。
圖1、圖2A、圖2B、圖3A、圖3B、圖3C、圖4A、圖4B、圖4C、圖5至圖7、圖8A、圖8B、圖9、圖10、圖11A、圖11B及圖11C繪示根據一些實施例之形成鰭式場效電晶體(FinFET)中之中間階段之透視圖及剖面圖。
圖12繪示根據一些實施例之用於形成一n型FinFET及一p型FinFET之一程序流程。
10:晶圓
20:基板
22:淺溝槽隔離(STI)區域
24:半導體條帶
24':突出鰭片
30:虛設閘極堆疊
38:閘極間隔件
44:氣隙
48:磊晶層/源極/汲極區域
48A:源極/汲極區域/磊晶區域
56:替換閘極堆疊
58:閘極介電質
60:閘極電極
62:介電硬遮罩
66:接觸蝕刻停止層(CESL)
68:層間介電質(ILD)
72A:源極/汲極矽化物區域
74:接觸插塞
76A:鰭式場效電晶體(FinFET)
Claims (10)
- 一種用於形成一電晶體結構之方法,其包括:使一第一半導體條帶、一第二半導體條帶及一第三半導體條帶之對置側上之隔離區域凹陷以形成一第一半導體鰭片、一第二半導體鰭片及一第三半導體鰭片;在該第一半導體鰭片、該第二半導體鰭片及該第三半導體鰭片上形成一閘極堆疊;在該閘極堆疊之側壁上形成閘極間隔件;在該第一半導體條帶、該第二半導體條帶及該第三半導體條帶之側壁上形成鰭片間隔件;執行一凹陷程序以使該第一半導體條帶、該第二半導體條帶及該第三半導體條帶凹陷以分別形成一第一凹槽、一第二凹槽及一第三凹槽;及執行一磊晶程序以形成自該第一凹槽、該第二凹槽及該第三凹槽開始之一磊晶區域,其中該磊晶區域包括一頂面,該頂面包括:一凸部分,其高於該第一半導體鰭片及該第二半導體鰭片且橫向位於該第一半導體鰭片與該第二半導體鰭片之間;及一凹部分,其高於該第二半導體鰭片及該第三半導體鰭片且橫向位於該第二半導體鰭片與該第三半導體鰭片之間。
- 如請求項1之方法,其中該等鰭片間隔件進一步包括:一第一外鰭片間隔件,其具有一第一高度;一第二外鰭片間隔件,其具有小於該第一高度之一第二高度;及 內間隔件,其等在該第一外鰭片間隔件與該第二外鰭片間隔件之間,其中該等內間隔件具有小於該第一高度及該第二高度之高度。
- 如請求項2之方法,其中該等鰭片間隔件在該凹陷程序期間被同時蝕刻,且該方法進一步包括在該凹陷程序之後進一步使該等鰭片間隔件凹陷。
- 如請求項2之方法,其中該第一半導體鰭片、該第二半導體鰭片及該第三半導體鰭片形成一第一鰭片群組,其中該第一鰭片群組相鄰於一第二鰭片群組,且該第二外鰭片間隔件面向該第二鰭片群組,且該第一外鰭片間隔件背對該第二鰭片群組。
- 如請求項2之方法,其中在該第一半導體鰭片、該第二半導體鰭片及該第三半導體鰭片凹陷之後,該第一半導體鰭片、該第二半導體鰭片及該第三半導體鰭片之頂面高於該等鰭片間隔件之頂端。
- 如請求項1之方法,其中該磊晶區域包括一第一磊晶層、一第二磊晶層及一第三磊晶層,其中該第三磊晶層包括具有該頂面之該凸部分之一第一部分及具有該頂面之該凹部分之一第二部分,且其中該方法進一步包括:蝕穿該第三磊晶層之該第一部分以顯露該第二磊晶層之一凹頂面。
- 如請求項6之方法,其進一步包括在該第二磊晶層上形成矽化物區 域,其中該矽化物區域包括:一第一部分,其直接在該第二磊晶層之該凹頂面上;及一第二部分,其直接在該第三半導體鰭片上,其中該矽化物區域之該第一部分高於該矽化物區域之該第二部分。
- 如請求項6之方法,其中該第三磊晶層包括比該第二磊晶層低之硼濃度。
- 一種用於形成一電晶體結構之方法,其包括:形成一第一鰭片群組及一第二鰭片群組,其中該第一鰭片群組包括具有群組內間隔之複數個半導體鰭片,其中該第一鰭片群組及該第二鰭片群組具有大於該等群組內間隔之一群組間間隔,且其中該複數個半導體鰭片包括:一第一半導體鰭片,其中該第一半導體鰭片在該第一鰭片群組中最遠離該第二鰭片群組;一第二半導體鰭片;及一第三半導體鰭片,其中該第三半導體鰭片在該第一鰭片群組中最靠近該第二鰭片群組;及執行一磊晶程序以形成基於該複數個半導體鰭片之一磊晶區域,其中該磊晶區域包括:一第一部分,其在該第一半導體鰭片與該第二半導體鰭片中間,其中該第一部分具有一第一頂面;及一第二部分,其在該第二半導體鰭片與該第三半導體鰭片中間, 其中該第二部分具有低於該第一頂面之一第二頂面。
- 一種用於形成一電晶體結構之方法,其包括:形成一第一鰭片群組及一第二鰭片群組,其中該第一鰭片群組包括具有群組內間隔之複數個半導體鰭片,且該第一鰭片群組包括最遠離該第二鰭片群組之一第一半導體鰭片、一第二半導體鰭片及最靠近該第二鰭片群組之一第三半導體鰭片;在該第一鰭片群組上形成一閘極堆疊;在該閘極堆疊之側壁上形成閘極間隔件;形成鰭片間隔件,該等鰭片間隔件包括:一第一外鰭片間隔件,其面向該第二鰭片群組,其中該第一外鰭片間隔件具有一第一高度;一第二外鰭片間隔件,其背對該第二鰭片群組,其中該第二外鰭片間隔件具有大於該第一高度之一第二高度;及內間隔件,其等在該第一外鰭片間隔件與該第二外鰭片間隔件之間;執行磊晶程序以形成基於該第一鰭片群組之一第一磊晶區域及基於該第二鰭片群組之一第二磊晶區域;及形成使該第一磊晶區域與該第二磊晶區域電互連之一源極/汲極接觸插塞。
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2020
- 2020-12-17 US US17/125,048 patent/US11315834B2/en active Active
- 2020-12-22 DE DE102020134567.4A patent/DE102020134567A1/de active Pending
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US20190393347A1 (en) * | 2018-06-20 | 2019-12-26 | Samsung Electronics Co., Ltd. | Semiconductor devices |
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