TWI727220B - 形成半導體封裝體的方法 - Google Patents
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- TWI727220B TWI727220B TW107139396A TW107139396A TWI727220B TW I727220 B TWI727220 B TW I727220B TW 107139396 A TW107139396 A TW 107139396A TW 107139396 A TW107139396 A TW 107139396A TW I727220 B TWI727220 B TW I727220B
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Abstract
在實施例中,一種方法包含:在晶粒上形成第一介電層,第一介電層包含感光性材料;固化第一介電層以降低第一介電層之感光度;藉由蝕刻來圖案化第一介電層以形成第一開口;在第一介電層之第一開口中形成第一金屬化圖案;在第一金屬化圖案及第一介電層上形成第二介電層,第二介電層包含感光性材料;藉由曝光及顯影來圖案化第二介電層以形成第二開口;以及在第二介電層之第二開口中形成第二金屬化圖案,第二金屬化圖案電連接至第一金屬化圖案。
Description
本發明的實施例是有關於形成半導體封裝體的方法。
半導體行業已經歷由多種電子組件(例如,電晶體、二極體、電阻器、電容器等)的整合密度的持續改良引起的快速發展。主要地,整合密度的改良源自於最小特徵大小的反覆減小,其允許更多組件整合至於給定區域中。隨著對於縮小的電子元件的需求增長,對於更小且更創造性的半導體晶粒的封裝技術的需要已出現。這些封裝系統之實例為疊層封裝(Package-on-Package;PoP)技術。在PoP元件中,頂部半導體封裝體堆疊於底部半導體封裝體的頂部上,以提供高位準的整合以及組件密度。PoP技術大體上使得能夠生產具有增強的功能性以及印刷電路板(printed circuit board;PCB)上的小佔據面積的半導體元件。
本發明實施例的一種形成半導體封裝體的方法,包括:在晶粒上方形成第一介電層,所述第一介電層包括感光性材料;
固化所述第一介電層以降低所述第一介電層之感光度;藉由蝕刻來圖案化所述第一介電層以形成第一開口;在所述第一介電層之所述第一開口中形成第一金屬化圖案;在所述第一金屬化圖案及所述第一介電層上方形成第二介電層,所述第二介電層包括所述感光性材料;藉由曝光及顯影來圖案化所述第二介電層以形成第二開口;以及在所述第二介電層之所述第二開口中形成第二金屬化圖案,所述第二金屬化圖案電連接至所述第一金屬化圖案。
本發明實施例的一種形成半導體封裝體的方法,包括:在晶粒上方形成第一感光性介電層;降低所述第一感光性介電層之感光度以形成第一鈍化層;形成接觸所述第一鈍化層之第一光阻;用第一圖案來圖案化所述第一光阻;使用所述第一光阻之所述第一圖案作為蝕刻罩幕來蝕刻所述第一鈍化層中之第一開口;在所述第一開口中且沿所述第一鈍化層之頂部表面沈積第一晶種層;以及自所述第一晶種層鍍覆第一導電材料以形成第一金屬化圖案。
本發明實施例的一種形成半導體封裝體的方法,包括:在晶粒上方形成第一感光性介電層;降低所述第一感光性介電層之感光度以形成第一鈍化層;形成接觸所述第一鈍化層之第一金屬層;形成接觸所述第一金屬層之第一光阻;用第一圖案來圖案化所述第一光阻;藉由第一蝕刻製程將所述第一圖案自所述第一光阻轉移至所述第一金屬層;使用所述第一金屬層之所述第一圖案作為蝕刻罩幕來蝕刻所述第一鈍化層中之第一開口;在所述第一開口中且沿所述第一鈍化層之頂部表面沈積第一晶種層;以及自所述第一晶種層鍍覆第一導電材料以形成第一金屬化圖案。
100:載體基板
102:釋放層
104、108、142、160、174、178:介電層
106、144、162、176:金屬化圖案
109、148、154、164、170、180、188:開口
110:背側重佈線結構
112、306:穿孔
114:積體電路晶粒
116:黏著劑
118:半導體基板
120:互連結構
122:襯墊
124:鈍化膜
126:晶粒連接件
128:介電材料
130:包封體
140:前側重佈線結構
144A、162A:導電通孔
144B、162B:導電線
146、152、168:光阻
150、166:晶種層
156、172:導電材料
158:罩幕層
182:凸塊下金屬層
184、314:導電連接件
186:載帶
200:第一封裝體
300:第二封裝體
302:基板
303、304:接合墊
308、308A、308B:堆疊晶粒
310:打線接合
312:模製材料
400:封裝基板
402:接合墊
500:封裝結構
600:第一封裝區域
602:第二封裝區域
T1、T2、T3:厚度
W1、W2:寬度
θ1、θ2:角度
當結合附圖閱讀時,自以下詳細描述最佳地理解本發明之態樣。應注意,根據業界中的標準慣例,各種特徵未按比例繪製。事實上,可出於論述清楚起見,任意地增加或減小各種特徵之尺寸。
圖1至圖16繪示根據一些實施例之用於形成元件封裝體之製程期間的中間步驟之橫截面視圖。
圖17至圖18繪示根據一些實施例之用於形成封裝結構之製程期間的中間步驟之橫截面視圖。
以下揭露內容提供用於實施本發明之不同特徵的多個不同實施例或實例。下文描述組件及佈置之特定實例以簡化本發明。當然,這些組件及佈置僅為實例且不意欲為限制性的。舉例而言,在以下描述中,第一特徵在第二特徵上方或上之形成可包含第一特徵及第二特徵直接接觸地形成之實施例,且亦可包含額外特徵可在第一特徵與第二特徵之間形成,使得第一特徵及第二特徵可不直接接觸之實施例。另外,本發明可在各種實例中重複參考標號及/或字母。此重複是出於簡化及清楚之目的,且本身並不指示所論述的各種實施例及/或組態之間的關係。
此外,在本文中可為了便於描述而使用空間相對術語(諸如「底下」、「在...下方」、「下」、「在...上方」、「上」及其類似者)以描述如圖式中所繪示之一個元件或特徵與另一元件或特徵之關
係。除圖式中所描繪之定向以外,空間相對術語意欲涵蓋元件在使用或操作中之不同定向。設備可以其他方式定向(旋轉90度或處於其他定向)且本文中所使用的空間相對描述詞可同樣相應地進行解譯。
根據一些實施例,感光性介電層形成於晶粒上。感光性介電層可為重佈線結構之底層。藉由在感光性介電層上方形成光阻,將所述光阻圖案化,以及利用電漿蝕刻製程將圖案轉移至感光性介電層而將感光性介電層圖案化。藉由使感光性材料曝光並使其暴露來使隨後形成之重佈線結構層之感光性介電層圖案化。儘管可藉由曝光及顯影來圖案化底層,藉由使用微影及電漿蝕刻製程將底層圖案化可達成較高的通孔深寬比(aspect ratio)。
圖1至圖16繪示根據一些實施例之用於形成第一封裝體200之製程期間的中間步驟之橫截面視圖。繪示第一封裝區域600及第二封裝區域602,且第一封裝體200形成於每一封裝區域中。第一封裝體200亦可稱作積體扇出型(integrated fan-out;InFO)封裝體。
在圖1中,提供載體基板100,且釋放層102形成於載體基板100上。載體基板100可為玻璃載體基板、陶瓷載體基板或其類似者。載體基板100可為晶圓,使得多個封裝體可在載體基板100上同時形成。釋放層102可由聚合物基(polymer-based)的材料形成,可將其連同載體基板100一起自將在後續步驟中形成之上覆結構移除。在一些實施例中,釋放層102為在加熱時損失其黏著特性之環氧樹脂基(epoxy-based)的熱釋放材料,諸如光-熱轉換(light-to-heat-conversion;LTHC)釋放塗層。在其他實
施例中,釋放層102可為在暴露於UV光時損失其黏著特性之紫外線(ultra-violet;UV)黏膠。釋放層102可以液體形式施配並固化,可為積層至載體基板100上之層壓膜(laminate film),或可為其類似者。釋放層102之頂部表面可為水平的,且可具有高度平面性。
在圖2中,形成介電層104、金屬化圖案106(有時被稱作重佈線層或重佈線)以及介電層108。介電層104形成於釋放層102上。介電層104之底部表面可與釋放層102之頂部表面接觸。在一些實施例中,介電層104由聚合物,諸如聚苯并噁唑(polybenzoxazole;PBO)、聚醯亞胺、苯并環丁烯(benzocyclobutene;BCB)或類似者形成。在其他實施例中,介電層104由以下各者形成:氮化物,諸如氮化矽;氧化物,諸如氧化矽、磷矽酸鹽玻璃(phosphosilicate glass;PSG)、硼矽酸鹽玻璃(borosilicate glass;BSG)、硼摻磷矽酸鹽玻璃(boron-doped phosphosilicate glass;BPSG)或其類似者;或其類似者。介電層104可藉由任何可接受沈積製程形成,諸如旋塗、化學氣相沈積(chemical vapor deposition,CVD)、積層(laminating)、類似製程或其組合。
金屬化圖案106形成於介電層104上。作為形成金屬化圖案106之實例,晶種層(未示出)形成於介電層104上方。在一些實施例中,晶種層為金屬層,其可為包括由不同材料形成的多個子層的單層或複合層。在一些實施例中,晶種層包括鈦層及在鈦層上方之銅層。可使用例如PVD或其類似者形成晶種層。光阻隨後在晶種層上形成並經圖案化。光阻可藉由旋塗或類似者而
形成,且可曝光以供圖案化。光阻之圖案對應於金屬化圖案106。圖案化形成貫穿光阻之開口以暴露晶種層。導電材料形成於光阻之開口中且形成於晶種層之暴露部分上。導電材料可藉由鍍覆(諸如電鍍或無電極電鍍或類似者)形成。導電材料可包括金屬,如銅、鈦、鎢、鋁或其類似者。接著,移除光阻及晶種層上未形成導電材料之部分。可藉由可接受的灰化(ashing)或剝離(stripping)製程,諸如使用氧電漿或其類似者移除光阻。一旦移除了光阻,則諸如藉由使用可接受的蝕刻製程(諸如,藉由濕式或乾式蝕刻)移除晶種層之暴露部分。晶種層之剩餘部分與導電材料形成金屬化圖案106。
介電層108形成於金屬化圖案106及介電層104上。在一些實施例中,介電層108由聚合物形成,所述聚合物可為可使用微影罩幕圖案化之感光性材料,諸如PBO、聚醯亞胺、BCB或類似者。在其他實施例中,介電層108由以下各者形成:氮化物,諸如,氮化矽;氧化物,諸如,氧化矽、PSG、BSG、BPSG;或類似者。介電層108可藉由旋塗、積層、CVD、類似者或其組合形成。接著圖案化介電層108以形成開口109來暴露金屬化圖案106之部分。圖案化可藉由可接受的製程,諸如,藉由在介電層108為感光性材料時將介電層108曝光或藉由使用例如各向異性蝕刻進行蝕刻。
介電層104及介電層108以及金屬化圖案106可稱作背側重佈線結構110。在所示實施例中,背側重佈線結構110包含兩個介電層104及108以及一個金屬化圖案106。在其他實施例中,背側重佈線結構110可包含任何數目個介電層、金屬化圖案以及
導電通孔。一或多個額外金屬化圖案及介電層可藉由重複用於形成金屬化圖案106及介電層108之製程而形成於背側重佈線結構110中。導電通孔(未示出)可在金屬化圖案形成期間藉由在底層介電層之開口中形成金屬化圖案之晶種層及導電材料而形成。導電通孔可因而互連且電耦接各種金屬化圖案。
在圖3中,穿孔112形成。作為形成穿孔112之實例,晶種層形成於背側重佈線結構110上方,例如形成於介電層108及金屬化圖案106中由開口109暴露之部分上。在一些實施例中,晶種層為金屬層,其可為包括由不同材料形成的多個子層的單層或複合層。在一些實施例中,晶種層包括鈦層及在鈦層上方之銅層。可使用例如PVD或類似者形成晶種層。光阻在晶種層上形成並經圖案化。光阻可藉由旋塗或類似者而形成,且可曝光以供圖案化。光阻之圖案對應於穿孔。圖案化形成貫穿光阻之開口以暴露晶種層。導電材料形成於光阻之開口中且形成於晶種層之暴露部分上。導電材料可藉由鍍覆(諸如電鍍或無電極電鍍或類似者)形成。導電材料可包括金屬,如銅、鈦、鎢、鋁或類似者。移除光阻及晶種層上未形成導電材料之部分。可藉由可接受的灰化或剝離製程,諸如使用氧電漿或類似者移除光阻。一旦移除光阻,則諸如藉由使用可接受的蝕刻製程(諸如,藉由濕式或乾式蝕刻)移除晶種層之經暴露部分。晶種層之剩餘部分與導電材料形成穿孔112。
在圖4中,積體電路晶粒114藉由黏著劑116黏附至介電層108。積體電路晶粒114可為邏輯晶粒(例如,中央處理單元、微控制器等)、記憶體晶粒(例如,動態隨機存取記憶體(dynamic
random access memory;DRAM)晶粒、靜態隨機存取記憶體(static random access memory;SRAM)晶粒等)、功率管理晶粒(例如,功率管理積體電路(power management integrated circuit;PMIC)晶粒)、射頻(radio frequency;RF)晶粒、感測器晶粒、微機電系統(micro-electro-mechanical-system;MEMS)晶粒、信號處理晶粒(例如,數位信號處理(digital signal processing;DSP)晶粒)、前端晶粒(例如,類比前端(analog front-end;AFE)晶粒)、類似者或其組合。並且,在一些實施例中,積體電路晶粒114可為不同大小(例如,不同高度及/或表面積),且在其他實施例中,積體電路晶粒114可為相同大小(例如,相同高度及/或表面積)。
在黏附至介電層108之前,積體電路晶粒114可根據適用的製造製程來處理,以在積體電路晶粒114中形成積體電路。舉例而言,積體電路晶粒114各自包含半導體基板118,諸如,摻矽或未摻矽基板,或絕緣層上半導體(semiconductor-on-insulator;SOI)基板的主動層。半導體基板可包含其他半導體材料,諸如鍺;複合半導體,包含碳化矽、砷化鎵、磷化鎵、氮化鎵、磷化銦、砷化銦及/或銻化銦;合金型半導體,包含SiGe、GaAsP、AlInAs、AlGaAs、GaInAs、GaInP及/或GaInAsP;或其組合。亦可使用其他基板,諸如多層基板或梯度基板。諸如電晶體、二極體、電容器、電阻器等之元件可形成於半導體基板118中及/或形成於半導體基板118上,且可藉由例如由半導體基板118上的一或多個介電層中之金屬化圖案形成之互連結構120互連,以形成積體電路。
積體電路晶粒114進一步包括有外部連接的襯墊122,諸如,鋁襯墊。襯墊122位於可被稱作積體電路晶粒114的各別主
動側的物件上。鈍化膜124在積體電路晶粒114上且在襯墊122之部分上。開口貫穿鈍化膜124直至襯墊122。諸如導電柱(例如,包括諸如銅之金屬)之晶粒連接件126在貫穿鈍化膜124的開口中,並且機械且電耦接至各別襯墊122。可藉由例如鍍覆或類似者形成晶粒連接件126。晶粒連接件126電耦接積體電路晶粒114之各別積體電路。
介電材料128在積體電路晶粒114的主動側上,諸如,在鈍化膜124及晶粒連接件126上。介電材料128側向包封晶粒連接件126,且介電材料128與各別積體電路晶粒114側向相連。介電材料128可為聚合物,諸如PBO、聚醯亞胺、BCB或類似者;氮化物,諸如氮化矽或類似者;氧化物,諸如氧化矽、PSG、BSG、BPSG或類似者;類似者;或其組合,且可例如藉由旋塗、積層、CVD或類似者形成。
黏著劑116在積體電路晶粒114之背側上且將積體電路晶粒114黏附至背側重佈線結構110,諸如介電層108。黏著劑116可為任何適合之黏著劑、環氧樹脂、晶粒附著膜(DAF),或類似者。黏著劑116可塗覆於積體電路晶粒114之背側,諸如,塗覆於各別半導體晶圓之背側,或可塗覆於載體基板100的表面上方。積體電路晶粒114可諸如藉由鋸割或切割而分離,且使用例如抓放(pick-and-place)工具而藉由黏著劑116黏附至介電層108。
儘管將兩個積體電路晶粒114繪示為黏附於第一封裝區域600及第二封裝區域602中之每一者中,但應瞭解,更多或更少積體電路晶粒114可黏附於每一封裝區域中。舉例而言,僅一個積體電路晶粒114可黏附於每一區域中。此外,積體電路晶粒
114之大小可變化。在一些實施例中,積體電路晶粒114可為具有較大佔據面積之晶粒,諸如系統單晶片(system-on-chip;SoC)元件。在積體電路晶粒114具有較大佔據面積的實施例中,封裝區域中可用於穿孔112之空間可能有限。當封裝區域中可用於穿孔112之空間有限時,使用背側重佈線結構110能夠實現改良之互連佈置。
在圖5中,包封體130形成於各種組件上。包封體130可為模製化合物、環氧樹脂或類似者,且可藉由壓縮模製、轉移模製或類似者來應用。包封體130可在載體基板100上方形成,以便內埋或覆蓋穿孔112及/或積體電路晶粒114之晶粒連接件126。隨後固化包封體130。
在圖6中,對包封體130執行平坦化製程以暴露穿孔112及晶粒連接件126。平坦化製程亦可研磨介電材料128。穿孔112、晶粒連接件126、介電材料128以及包封體130之頂部表面在平坦化製程之後共面。平坦化製程可為例如化學機械拋光(chemical-mechanical polish;CMP)、研磨(grinding)製程或類似者。在一些實施例中,例如,若穿孔112及晶粒連接件126已暴露,則可省略平坦化。
在圖7至圖14中,形成前側重佈線結構140。如將繪示,前側重佈線結構140包含介電層142、介電層160、介電層174及介電層178;金屬化圖案144、金屬化圖案162及金屬化圖案176;以及凸塊下金屬層(under bump metallurgies;UBM)182。金屬化圖案亦可被稱作重佈線層或重佈線,且包含導電通孔及導電線。
在圖7中,介電層142沈積於包封體130、穿孔112以及
晶粒連接件126上。介電層142由諸如PBO、聚醯亞胺、BCB或類似者之感光性材料形成,所述介電層142可使用微影罩幕圖案化。在一實施例中,介電層142為感光性聚醯亞胺。介電層142可藉由旋塗、積層、CVD、類似者或其組合形成。隨後固化介電層142。固化可藉由例如熱固化或類似者進行。介電層142在固化時失去其感光性(或至少降低感光性)。固化之非感光性介電層142可被稱作鈍化層。金屬化圖案144接著形成於介電層142上且延伸穿過介電層142。可使用若干方法來形成金屬化圖案144。
圖8A至圖8F繪示根據一實施例之用於形成金屬化圖案144之製程。在此實施例中,使用電漿蝕刻製程來圖案化介電層142。
在圖8A中,光阻146形成於介電層142上。光阻146可為單層光阻、三層光阻,或類似者,且直接形成於(例如接觸)所示實施例中之介電層142上。光阻146可藉由旋塗或類似者而形成,且可曝光以供圖案化。在一些實施例中,光阻146包含底部抗反射塗層(bottom anti-reflective coating;BARC)或吸收層,從而僅使光阻146曝光且介電層142不曝光或不顯影。圖案化形成貫穿光阻146的開口以暴露介電層142。
在圖8B中,藉由將光阻146之圖案轉移至介電層142而圖案化介電層142。圖案化形成貫穿介電層142之開口148以暴露晶粒連接件126之部分及/或穿孔112(未示出)。介電層142形成為約1μm至約30μm(諸如約20μm)之厚度T1。如以下將進一步論述,開口148具有寬度W1,其取決於介電層142之厚度T1及用於形成開口148之製程。寬度W1可為約1μm至約10μm,
諸如約3μm。
圖案化可藉由蝕刻製程(諸如電漿蝕刻製程)進行。電漿蝕刻製程以實現光阻146與介電層142之間的特定蝕刻選擇性的比率而使用一或多種前驅體(precursor)(有時被稱作蝕刻氣體)。所使用之前驅體可包含O2、CF4、N2、Ar及其組合。在一些實施例中,前驅體包含比率約6:1至約8:1之O2及CF4。在電漿蝕刻製程期間,消耗一部分光阻146,從而降低光阻146之厚度T2。電漿蝕刻製程消耗之光阻146之量取決於相對於電漿蝕刻製程之光阻146與介電層142之間的蝕刻選擇性。
在圖案化之後,開口148之側壁與平行於介電層142之主表面的平面形成角度θ1。角度θ1之陡度取決於光阻146之初始厚度T2;形成具有較大厚度T2之光阻146使得角度θ1較大。在所示實施例中,角度θ1可為約75°至約85°。值得注意的是,儘管介電層142本身在形成時為感光性的,但仍使用光阻146藉由光微影及蝕刻製程來將其圖案化。利用光微影及蝕刻製程形成開口148可使得側壁角度θ1大於藉由經曝光及顯影來圖案化介電層142而形成開口148時所形成之側壁角度。由於開口148形成有較陡的側壁角度θ1,因此開口148亦可形成有較小寬度W1,從而增加開口148之深寬比。此外,藉由光微影及蝕刻製程形成開口148可避免在介電層142顯影不全時產生之問題(例如接觸點仍被覆蓋或部分覆蓋)。
在圖8C中,移除光阻146。可藉由可接受的灰化或剝離程序,諸如使用氧電漿或類似者移除光阻146。
在圖8D中,晶種層150形成於介電層142上方且形成於
貫穿介電層142的開口148中。在一些實施例中,晶種層150為金屬層,其可為包含由不同材料形成的多個子層的單層或複合層。在一些實施例中,晶種層150包含鈦層及鈦層上方的銅層。可使用例如PVD或類似者形成晶種層150。隨後光阻152在晶種層150上形成並經圖案化。光阻152可藉由旋塗或類似者而形成,且可曝光以供圖案化。光阻152之圖案對應於金屬化圖案144。圖案化形成貫穿光阻152之開口154以暴露晶種層150。
在圖8E中,導電材料156形成於光阻152的開口154中且形成於晶種層150的暴露部分上。導電材料156可藉由鍍覆(諸如電鍍或無電極電鍍或類似者)形成。導電材料156可包括金屬,諸如銅、鈦、鎢、或其類似者。
在圖8F中,移除光阻152及晶種層150上未形成導電材料156之部分。可藉由可接受的灰化或剝離製程,諸如使用氧電漿或類似者移除光阻152。一旦移除了光阻152,則諸如藉由使用可接受的蝕刻程序(諸如,藉由濕式或乾式蝕刻)移除晶種層150之暴露部分。晶種層150之剩餘部分與導電材料156形成金屬化圖案144,其具有導電通孔144A及導電線144B。導電通孔144A形成於貫穿介電層142至例如晶粒連接件126及/或穿孔112(未示出)之開口148中。導電線144B沿介電層142之頂部表面形成。
圖9A至圖9G繪示根據另一實施例之用於形成金屬化圖案144之製程。在此實施例中,電漿蝕刻製程用於圖案化介電層142,且電漿蝕刻製程中使用額外罩幕層。此處不重複對前一實施例中之類似特徵之描述。
在圖9A中,罩幕層158形成於介電層142上。罩幕層
158可由金屬或含金屬材料(諸如Ti、Cu、TiW、TaN、TiN、其組合,或其多層)形成,且可被稱作硬式罩幕層。罩幕層158由相對於用於圖案化介電層142之蝕刻製程對光阻146及介電層142兩者具有高蝕刻選擇性之材料形成。罩幕層158相比於介電層142較薄,且可藉由諸如PVD、CVD或類似者之沈積製程形成。在一些實施例中,使用用於形成晶種層150之相同製程及材料形成罩幕層158。隨後在罩幕層158上形成光阻146並將其圖案化。
在圖9B中,藉由將光阻146之圖案轉移至罩幕層158而將罩幕層158圖案化。可藉由使用圖案化光阻146作為蝕刻罩幕的可接受的蝕刻製程(諸如藉由濕式蝕刻、乾式蝕刻或其組合)來圖案化罩幕層158。在罩幕層158包含鈦層及鈦層上方之銅層之實施例中,銅層可藉由濕式蝕刻移除,且鈦層可藉由乾式蝕刻移除。濕式蝕刻可藉由對於罩幕層158之銅部分具有選擇性且具有與光阻材料之良好可濕性(wettability)的蝕刻劑進行。舉例而言,蝕刻劑可包含過氧化氫、磷酸、硫酸、其組合或類似者之水溶液。乾式蝕刻可為對於罩幕層158之鈦部分具有選擇性之電漿蝕刻,且可藉由諸如氟、氧及氮之前驅體進行。
在圖9C中,藉由將罩幕層158之圖案轉移至介電層142來圖案化介電層142。介電層142形成為約1μm至約30μm之厚度T1。介電層142可使用類似於上文所描述之一者的電漿蝕刻製程圖案化,然而,電漿蝕刻製程可變化以便說明罩幕層158之材料。舉例而言,當罩幕層158由鈦及銅形成時,所使用之前驅體可包含比率約20:1至約1:20之氟及氧。藉由使用罩幕層158作為蝕刻製程之額外罩幕,開口148之寬度W1可進一步減小且開口
148之側壁角度θ1可進一步增大。舉例而言,在所示實施例中,寬度W1可為約1μm至約10μm,且側壁角度θ1可為約85°至約90°。
在圖9D中,移除光阻146及罩幕層158。光阻146可藉由可接受之灰化或剝離製程移除。罩幕層158可藉由可接受之蝕刻製程(諸如藉由濕式或乾式蝕刻)移除。在罩幕層158使用用於形成晶種層150之相同製程及材料形成之實施例中,亦可使用用於移除晶種層150之相同製程移除罩幕層158。
在圖9E中,晶種層150形成於介電層142上方且形成於貫穿介電層142的開口148中。隨後光阻152在晶種層150上形成並經圖案化。
在圖9F中,導電材料156形成於光阻152的開口154中且形成於晶種層150的暴露部分上。
在圖9G中,移除光阻152及晶種層150上未形成導電材料156之部分。晶種層150之剩餘部分與導電材料156形成金屬化圖案144,其具有導電通孔144A及導電線144B。
在圖10中,介電層160沈積於使用圖8A至圖8F或圖9A至圖9G中所繪示之製程形成之金屬化圖案144及介電層142上。介電層160由諸如PBO、聚醯亞胺、BCB或類似者之感光性材料形成,所述介電層160可使用微影罩幕圖案化。在一實施例中,介電層160為感光性聚醯亞胺。介電層160可藉由旋塗、積層、CVD、類似者或其組合形成。不同於介電層142,介電層160在形成後可不固化,從而其保持其感光性。金屬化圖案162接著形成於介電層160上且延伸穿過介電層160。可使用若干方法來形
成金屬化圖案162。圖11A至圖11D繪示根據一實施例之用於形成金屬化圖案162之製程。
在圖11A中,接著圖案化介電層160。圖案化形成開口164,從而暴露金屬化圖案144的部分。由於介電層160為感光性材料,因此可藉由將介電層160曝光且在曝光之後將介電層160顯影來執行圖案化。不同於用以形成開口148(圖8C及圖9D中所示)之光微影及蝕刻製程,將介電層160曝光並使其顯影形成具有相比側壁角度θ1較不陡之側壁角度θ2的開口164。側壁角度θ2可小於85°,諸如約60°至約85°。換言之,側壁角度θ2小於側壁角度θ1。形成寬度為W2的開口164。寬度W2可大於寬度W1,其可使得在形成開口164的同時避免與形成具有較小臨界尺寸之開口(諸如開口148)相關的難題。舉例而言,可降低感光性材料顯影不全之風險,即使在開口164之寬度W2較小(諸如小於3μm)且介電層160之厚度T3較大(諸如大於5μm)時。
在圖11B中,晶種層166形成於介電層160上方且形成於穿過介電層160的開口164中。晶種層166之部分形成於金屬化圖案144上。在一些實施例中,晶種層166為金屬層,其可為包括由不同材料形成的多個子層的單層或複合層。在一些實施例中,晶種層166包括鈦層及在鈦層上方之銅層。可使用例如PVD或類似者形成晶種層166。隨後光阻168在晶種層166上形成並經圖案化。光阻168可藉由旋塗或類似者而形成,且可曝光以供圖案化。光阻之圖案對應於金屬化圖案162。圖案化形成貫穿光阻之開口170以暴露晶種層166。
在圖11C中,導電材料172形成於光阻168的開口170
中且形成於晶種層166的暴露部分上。導電材料172可藉由鍍覆(諸如電鍍或無電極電鍍或類似者)形成。導電材料172可包括金屬,諸如銅、鈦、鎢、鋁或類似者。
在圖11D中,移除光阻168及晶種層166上未形成導電材料172之部分。可藉由可接受的灰化或剝離製程(諸如使用氧電漿或類似者)移除光阻168。一旦移除光阻168,則諸如藉由使用可接受的蝕刻程序(諸如,藉由濕式或乾式蝕刻)移除晶種層166之暴露部分。晶種層166之剩餘部分與導電材料172形成金屬化圖案162,其具有導電通孔162A及導電線162B。導通孔162A形成於貫穿介電層160至金屬化圖案144之開口164中。導電線162B沿介電層160之頂部表面形成。金屬化圖案162電連接且實體連接至金屬化圖案144。
在圖12中,介電層174沈積於金屬化圖案162及介電層160上。在一些實施例中,介電層174由聚合物形成,所述聚合物可為可使用微影罩幕圖案化之感光性材料,諸如PBO、聚醯亞胺、BCB或類似者。在其他實施例中,介電層174由以下各者形成:氮化物,諸如,氮化矽;氧化物,諸如,氧化矽、PSG、BSG、BPSG;或類似者。介電層174可藉由旋塗、積層、CVD、類似者或其組合形成。
接著圖案化介電層174。圖案化形成開口以暴露金屬化圖案162之部分。可藉由可接受的製程,諸如藉由在介電層174為感光性材料材料時將介電層174曝光或藉由使用例如各向異性蝕刻來進行蝕刻,以進行圖案化。若介電層174為感光性材料,則介電層174可在曝光之後顯影。
具有通孔之金屬化圖案176形成於介電層174上。作為形成金屬化圖案176之實例,晶種層(未示出)形成於介電層174上方,且形成於穿過介電層174的開口中。在一些實施例中,晶種層為金屬層,其可為包括由不同材料形成的多個子層的單層或複合層。在一些實施例中,晶種層包含鈦層及在鈦層上方之銅層。可使用(例如)PVD或類似者形成晶種層。隨後光阻在晶種層上形成並經圖案化。光阻可藉由旋塗或類似者形成,且可曝光以供圖案化。光阻之圖案對應於金屬化圖案176。圖案化形成貫穿光阻之開口以暴露晶種層。導電材料形成於光阻之開口中且形成於晶種層之暴露部分上。導電材料可藉由鍍覆(諸如電鍍或無電極電鍍或類似者)形成。導電材料可包括金屬,如銅、鈦、鎢、鋁或類似者。接著移除光阻及晶種層上未形成導電材料之部分。可藉由可接受的灰化或剝離製程,諸如使用氧電漿或類似者移除光阻。一旦移除光阻,則諸如藉由使用可接受蝕刻製程(諸如,藉由濕式或乾式蝕刻)來移除晶種層之暴露部分。晶種層之剩餘部分及導電材料形成金屬化圖案176及通孔。通孔形成於穿過介電層174至例如金屬化圖案162的部分的開口中。
在圖13中,介電層178沈積於金屬化圖案176及介電層174上。在一些實施例中,介電層178由聚合物形成,所述聚合物可為可使用微影罩幕圖案化的感光性材料,諸如,PBO、聚醯亞胺、BCB或類似者。在其他實施例中,介電層178由以下各者形成:氮化物,諸如,氮化矽;氧化物,諸如,氧化矽、PSG、BSG、BPSG;或類似者。介電層178可藉由旋塗、積層、CVD、類似者或其組合形成。
接著圖案化介電層178。圖案化形成開口180以暴露金屬化圖案176之部分。可藉由可接受的製程,諸如藉由在介電層178為感光性材料材料時將介電層178曝光或藉由使用例如各向異性蝕刻來進行蝕刻,以進行圖案化。若介電層178為感光性材料,則介電層178可在曝光之後顯影。開口180可寬於金屬化圖案144、金屬化圖案162及金屬化圖案176之通孔部分之開口。
在圖14中,UBM 182形成於介電層178上。在所繪示實施例中,UBM 182經形成為穿過開口180,所述開口180穿過介電層178至金屬化圖案176。作為UBM 182之實例,晶種層(未示出)形成於介電層178上方。在一些實施例中,晶種層為金屬層,其可為包括由不同材料形成的多個子層的單層或複合層。在一些實施例中,晶種層包括鈦層及在鈦層上方之銅層。可使用(例如)PVD或類似者形成晶種層。隨後光阻在晶種層上形成並經圖案化。光阻可藉由旋塗或類似者形成,且可曝光以供圖案化。光阻之圖案對應於UBM 182。圖案化形成貫穿光阻之開口以暴露晶種層。導電材料形成於光阻之開口中且形成於晶種層之暴露部分上。導電材料可藉由鍍覆(諸如電鍍或無電極電鍍或類似者)形成。導電材料可包括金屬,如銅、鈦、鎢、鋁或類似物。接著移除光阻及晶種層上未形成導電材料之部分。可藉由可接受的灰化或剝離製程,諸如使用氧電漿或其類似者移除光阻。一旦移除光阻,則諸如藉由使用可接受蝕刻製程(諸如,藉由濕式或乾式蝕刻)移除晶種層之暴露部分。晶種層之剩餘部分與導電材料形成UBM 182。在以不同方式形成UBM 182之實施例中,可利用更多光阻及圖案化步驟。
前側重佈線結構140被繪示作為一個實例。更多或更少介電層及金屬化圖案可形成於前側重佈線結構140中。若更少介電層及金屬化圖案將形成,則可省略上文所論述之步驟及製程。若更多介電層及金屬化圖案將形成,則可重複上文所論述之步驟及製程。所屬領域中具有通常知識者將易於理解將省略或重複哪些步驟及製程。
應進一步瞭解,用於形成金屬化圖案144、金屬化圖案162以及金屬化圖案176之製程可基於所要圖案尺寸而變化。在所示實施例中,圖8A至圖8F之製程或圖9A至圖9G之製程用以在前側重佈線結構140之底部層級中形成金屬化圖案,例如金屬化圖案144。此類製程產生具有較小臨界尺寸之導電線及通孔。此外,圖11A至圖11D之製程用以在前側重佈線結構140之上部層級中形成金屬化圖案,例如金屬化圖案162及金屬化圖案176。此類製程具有較低製造成本且可在可接受具有較大尺寸之導電線及通孔的情況下使用。應瞭解,圖8A至圖8F之製程或圖9A至圖9G之製程可在前側重佈線結構140之多個下部層級(例如金屬化圖案144及金屬化圖案162兩者)或所有層級中使用。
在圖15中,導電連接件184形成於UBM 182上。導電連接件184可為球狀柵格陣列(ball grid array;BGA)連接件、焊料球、金屬柱、控制崩潰晶片連接(controlled collapse chip connection;C4)凸塊、微凸塊、無電極鍍鎳無電鈀浸鍍金(electroless nickel-electroless palladium-immersion gold;ENEPIG)技術形成之凸塊,或類似者。導電連接件184可包含導電材料,諸如焊料、銅、鋁、金、鎳、銀、鈀、錫、類似導電材料或其組
合。在一些實施例中,藉由最初經由此類常用方法(諸如蒸鍍、電鍍、印刷、焊料轉移、植球或其類似者)形成焊料層來形成導電連接件184。一旦焊料層已形成於結構上,則可執行回焊以便將材料塑形成所要凸塊形狀。在另一實施例中,導電連接件184為藉由濺鍍、印刷、電鍍、無電極電鍍、CVD或類似者所形成的金屬柱(諸如,銅柱)。金屬柱可不含焊料且具有實質上垂直的側壁。在一些實施例中,金屬頂蓋層(未示出)形成於金屬柱之頂部上。金屬頂蓋層可包含鎳、錫、錫鉛、金、銀、鈀、銦、鎳鈀金、鎳金、其類似者,或其組合,且可由鍍覆製程形成。
在圖16中,進行載體基板剝離以將載體基板100自背側重佈線結構110(例如介電層104)脫離(剝離)。第一封裝體200由此形成於第一封裝區域600及第二封裝區域602中之每一者中。根據一些實施例,剝離包含使諸如雷射光或UV光之光投影於釋放層102上,以使得釋放層102在光熱下分解且可移除載體基板100。接著翻轉結構且將其置放於載帶186上。另外,形成貫穿介電層104之開口188以暴露金屬化圖案106之部分。可例如使用雷射鑽孔、蝕刻或類似者形成開口188。
圖17至圖18繪示根據一些實施例之在用於形成封裝結構500之製程期間的中間步驟之橫截面視圖。封裝結構500可稱作疊層封裝(PoP)結構。
在圖17中,第二封裝體300附接至第一封裝體200。第二封裝體300包含基板302及耦接至所述基板302之一或多個堆疊晶粒308(晶粒308A及晶粒308B)。儘管繪示單個堆疊晶粒308(晶粒308A及晶粒308B),但在其他實施例中,多個堆疊晶粒308
(各自具有一或多個堆疊晶粒)可並排地配置耦接至基板302之同一表面。基板302可由半導體材料製成,諸如矽、鍺、金剛石或類似者。在一些實施例中,亦可使用化合物材料,諸如,矽鍺、碳化矽、砷化鎵、砷化銦、磷化銦、碳化矽鍺、磷化砷化鎵、磷化鎵銦、這些材料的組合及其類似者。另外,基板302可為絕緣層上矽(silicon-on-insulator;SOI)基板。通常,SOI基板包含一層半導體材料,諸如磊晶矽、鍺、矽鍺、SOI、絕緣層上矽鍺(silicon germanium on insulator;SGOI)或其組合。在一個替代實施例中,基板302基於諸如玻璃纖維加固樹脂芯(fiberglass reinforced resin core)之絕緣芯。一個實例芯材料為玻璃纖維樹脂,諸如,FR4。芯材料的替代物包含雙馬來醯亞胺三嗪(bismaleimide-triazine;BT)樹脂,或替代地,其他印刷電路板(printed circuit board;PCB)材料或薄膜。累積式薄膜,諸如,味之素累積膜(Ajinomoto build-up film;ABF)或其他積層體可用於基板302。
基板302可包含主動元件及被動元件(未示出)。如所屬領域中具有通常知識者將認識到,諸如電晶體、電容器、電阻器、這些的組合以及類似者之廣泛多種元件可用於產生用於第二封裝體300的設計之結構性及功能性需求。元件可使用任何適合的方法來形成。
基板302亦可包含金屬化層(未圖示)以及穿孔306。金屬化層可形成於主動元件及被動元件上方,且經設計為連接各種元件以形成功能電路。金屬化層可由介電質(例如低k介電材料)與導電材料(例如,銅)的交替層形成,其中通孔互連導電材料層且可經由任何適合的製程(諸如沈積、鑲嵌、雙鑲嵌或類似者)
形成。在一些實施例中,基板302實質上不含主動元件及被動元件。
基板302可在基板302之第一側上具有接合襯墊303以耦接至堆疊晶粒308,且在基板302的第二側上具有接合襯墊304,以耦接至導電連接件314,基板302之第二側與第一側相對。在一些實施例中,藉由在基板302的第一側及第二側上將凹部(未示出)形成至介電層(未示出)中來形成接合襯墊303及接合襯墊304。可形成凹部以允許將接合襯墊303及接合襯墊304嵌入於介電層中。在其他實施例中,省略凹部,因為接合襯墊303及接合襯墊304可形成於介電層上。在一些實施例中,接合襯墊303及接合襯墊304包含由銅、鈦、鎳、金、鈀、其類似者或其組合製成之薄晶種層(未示出)。接合襯墊303及接合襯墊304之導電材料可沈積於薄晶種層上方。可藉由電化學鍍覆製程、無電極電鍍製程、CVD、ALD、PVD、其類似者或其組合形成導電材料。在一實施例中,接合襯墊303及接合襯墊304的導電材料為銅、鎢、鋁、銀、金、其類似者或其組合。
在一實施例中,接合襯墊303及接合襯墊304為包含三個導電材料層(諸如,鈦層、銅層以及鎳層)之UBM。舉例而言,接合襯墊304可由銅形成,可形成於鈦層(未示出)上,且具有鎳修飾面層(nickel finish),所述鎳修飾面層可改良元件封裝體300之擱置壽命(shelf life),其在元件封裝體300為諸如DRAM模組之記憶體元件時尤其有利。然而,所屬本領域中具有通常知識者將認識到,存在許多適合於形成接合襯墊303及接合襯墊304之材料及層的適合佈置,諸如,鉻/鉻-銅合金/銅/金之佈置、鈦/
鈦鎢/銅之佈置,或銅/鎳/金的佈置。可用於接合襯墊303及接合襯墊304之任何適合之材料或材料層全部意欲包含於當前申請案之範疇內。在一些實施例中,穿孔306延伸穿過基板302且將至少一個接合襯墊303耦接至至少一個接合襯墊304。
在所說明實施例中,堆疊晶粒308藉由打線接合310耦接至基板302,但可使用其他連接件,諸如,導電凸塊。在一實施例中,堆疊晶粒308為堆疊記憶體晶粒。舉例而言,堆疊晶粒308可為記憶體晶粒,諸如低功率(low-power;LP)雙資料速率(double data rate;DDR)記憶體模組,諸如,LPDDR1、LPDDR2、LPDDR3、LPDDR4,或其類似者。
堆疊晶粒308及打線接合310可藉由模製材料312包封。可例如使用壓縮模製將模製材料312模製於堆疊晶粒308及打線接合310上。在一些實施例中,模製材料312為模製化合物、聚合物、環氧樹脂、氧化矽填充物材料、其類似者或其組合。可執行固化製程以固化模製材料312;固化製程可為熱固化、UV固化、其類似者或其組合。
在一些實施例中,堆疊晶粒308及打線接合310內埋於模製材料312中,且在固化模製材料312之後,執行諸如研磨的平坦化步驟以移除模製材料312之過量部分且為第二封裝體300提供實質上平面之表面。
在形成第二封裝體300之後,第二封裝體300藉助於導電連接件314、接合襯墊304以及金屬化圖案106機械及電性接合至第一封裝體200。在一些實施例中,堆疊晶粒308可經由打線接合310、接合襯墊303以及接合襯墊304、穿孔306、導電連接件
314以及穿孔112耦接至積體電路晶粒114。
在一些實施例中,阻焊劑(未示出)形成於基板302與堆疊式晶粒308相對的一側上。導電連接件314可配置於將電耦接且機械耦接至基板302中之導電特徵(例如接合襯墊304)之阻焊劑中之開口中。阻焊劑可用於保護基板302區域不受外部損害。
在一些實施例中,在導電連接件314與將第二封裝體300附接至第一封裝體200之後所剩餘的環氧樹脂助焊劑的至少一些環氧樹脂部分執行回焊之前,所述導電連接件314之上形成有所述環氧樹脂助焊劑(未示出)。
在一些實施例中,底膠(未示出)形成於第一封裝體200與第二封裝體300之間,且包圍導電連接件314。底膠可減小應力且保護由導電連接件314之回焊產生的接合點。底膠可在附接第一封裝體200之後藉由毛細流動製程形成或可在附接第一封裝體200之前藉由適合的沈積方法形成。在形成環氧樹脂助焊劑之實施例中,環氧樹脂助焊劑可充當底膠。
在圖18中,藉由沿例如第一封裝區域600與第二封裝區域602之間的切割道區域鋸割執行分離製程。鋸割將第一封裝區域600自第二封裝區域602分離。所得分離的第一封裝體200及第二封裝體300來自第一封裝區域600或第二封裝區域602中之一者。在一些實施例中,在將第二封裝體300附接至第一封裝體200之後執行分離製程。在其他實施例(未示出)中,在第二封裝體300附接至第一封裝體200之前,諸如在剝離載體基板100且形成開口188之後,執行分離製程。
接著使用導電連接件184將第一封裝體200安裝至封裝
基板400。封裝基板400可由半導體材料製成,諸如,矽、鍺、金剛石,或類似者。可替代地,亦可使用化合物材料,諸如矽鍺、碳化矽、砷化鎵、砷化銦、磷化銦、碳化矽鍺、磷化砷化鎵、磷化鎵銦、這些材料的組合及其類似者。另外,封裝基板400可為SOI基板。一般而言,SOI基板包含一層半導體材料,諸如磊晶矽、鍺、矽鍺、SOI、SGOI或其組合。在一個替代實施例中,封裝基板400基於諸如玻璃纖維加固樹脂芯之絕緣芯。一個實例芯材料為玻璃纖維樹脂,諸如,FR4。芯材料的替代物包含雙馬來醯亞胺三嗪(BT)樹脂,或替代地,其他PCB材料或薄膜。累積式薄膜,諸如,ABF或其他積層體可用於封裝基板400。
封裝基板400可包含主動元件及被動元件(未示出)。如所屬領域中具有通常知識者將認識到,諸如電晶體、電容器、電阻器、這些的組合及其類似者之廣泛多種元件可用於產生用於封裝結構500之設計的結構性需求及功能性需求。元件可使用任何適合的方法來形成。
封裝基板400亦可包含金屬化層及通孔(未示出),以及金屬化層以及通孔上方的接合襯墊402。金屬化層可形成於主動元件及被動元件上方,且經設計為連接各種元件以形成功能電路。金屬化層可由介電質(例如低k介電材料)與導電材料(例如,銅)的交替層形成,其中通孔互連導電材料層且可經由任何適合的製程(諸如,沈積、鑲嵌、雙鑲嵌,或類似者)形成。在一些實施例中,封裝基板400實質上不含主動元件及被動元件。
在一些實施例中,回焊導電連接件184以將第一封裝體200附接至接合襯墊402。導電連接件184將封裝基板400(包含
封裝基板400中之金屬化層)電性及/或實體耦接至第一封裝體200。在一些實施例中,可在安裝於封裝基板400上之前將被動元件(例如,表面黏著元件(surface mount device;SMD),未繪示)附接至第一封裝體200(例如,接合至接合襯墊402)。在此類實施例中,被動元件可接合至第一封裝體200與導電連接件184相同的表面。
在導電連接件184與將第一封裝體200附接至封裝基板400之後剩餘的環氧樹脂助焊劑的至少一些環氧樹脂部分執行回焊之前,所述導電連接件184之上形成有所述環氧樹脂助焊劑(未示出)。此剩餘環氧樹脂部分可充當底膠以減小應力且保護由導電連接件184之回焊產生的接合點。在一些實施例中,底膠(未示出)可形成於第一封裝體200與封裝基板400之間,且包圍導電連接件184。底膠可在附接第一封裝體200之後藉由毛細流動製程形成或可在附接第一封裝體200之前藉由適合的沈積方法形成。
實施例可達成優點。參考圖8A至圖8F。藉由微影及電漿蝕刻技術圖案化前側重佈線結構140之底部介電層142使得開口148形成較窄寬度。現參考圖9A及圖9G。在圖案化期間使用諸如罩幕層158之硬式罩幕可使得介電層142與光阻146之間的蝕刻選擇性提高,使得寬度進一步減小。開口148之側壁亦可具有較陡輪廓。因而,形成之通孔之臨界尺寸可減小,實現前側重佈線結構140之通孔之間更微小的間距。最終,與直接形成(例如藉由曝光及顯影)於介電層142中之圖案相比,光阻146之圖案可更易於二次加工。
在實施例中,形成半導體封裝體的方法包含:在晶粒上
形成第一介電層,所述第一介電層包含感光性材料;固化第一介電層以降低第一介電層之感光度;藉由蝕刻來圖案化第一介電層以形成第一開口;在第一介電層之第一開口中形成第一金屬化圖案;在第一金屬化圖案及第一介電層上方形成第二介電層,所述第二介電層包含感光性材料;藉由曝光及顯影來圖案化第二介電層以形成第二開口;以及在第二介電層之第二開口中形成第二金屬化圖案,所述第二金屬化圖案電連接至第一金屬化圖案。
在一些實施例中,所述方法進一步包含:藉由模製化合物包封晶粒及穿孔;及將模製化合物平面化,使得晶粒、穿孔及模製化合物之頂部表面為水平的,其中第一介電層形成於晶粒、穿孔及模製化合物之頂部表面上。在方法之一些實施例中,圖案化第一介電層包含:形成接觸第一介電層之第一光阻;用第一圖案來圖案化第一光阻;以及藉由第一蝕刻製程將第一圖案自第一光阻轉移至第一介電層。在方法之一些實施例中,圖案化第一介電層包含:藉由電漿蝕刻製程蝕刻第一介電層,所述電漿蝕刻製程藉由包含比率約6:1至約8:1之O2及CF4之前驅體進行。在方法之一些實施例中,圖案化第一介電層包含:形成接觸第一介電層之第一金屬層;形成接觸第一金屬層之第一光阻;用第一圖案來圖案化第一光阻;藉由第一蝕刻製程將第一圖案自第一光阻轉移至第一金屬層;以及藉由第二蝕刻製程將第一圖案自第一金屬層轉移至第一介電層。在方法之一些實施例中,圖案化第一介電層包含:藉由電漿蝕刻製程蝕刻第一介電層,所述電漿蝕刻製程藉由包含比率約20:1至約1:20之氟及氧之前驅體進行。
在一實施例中,形成半導體封裝體的方法包含:在晶粒
上方形成第一感光性介電層;降低第一感光性介電層之感光度以形成第一鈍化層;形成接觸第一鈍化層之第一光阻;用第一圖案來圖案化第一光阻;使用第一光阻之第一圖案作為蝕刻罩幕來蝕刻第一鈍化層中之第一開口;在第一開口中且沿第一鈍化層之頂部表面沈積第一晶種層;以及自第一晶種層鍍覆第一導電材料以形成第一金屬化圖案。
在方法之一些實施例中,蝕刻第一鈍化層中之第一開口包含:藉由電漿蝕刻製程蝕刻第一鈍化層。在方法之一些實施例中,電漿蝕刻製程藉由包含比率約6:1至約8:1之O2及CF4之前驅體進行。在一些實施例中,所述方法進一步包含:藉由模製化合物包封晶粒及穿孔;將模製化合物平面化,使得晶粒、穿孔及模製化合物之頂部表面為水平的;以及在晶粒、穿孔及模製化合物上方形成第一感光性介電層。在方法之一些實施例中,第一鈍化層中之第一開口暴露穿孔。在方法之一些實施例中,第一鈍化層中之第一開口暴露晶粒之連接件。在一些實施例中,所述方法進一步包含:在第一金屬化圖案及第一鈍化層上方形成第二感光性介電層;藉由使第二感光性介電層曝光來圖案化第二感光性介電層中之第二開口,所述第二開口暴露第一金屬化圖案;在第二開口中、沿第二感光性介電層之頂部表面且沿第一金屬化圖案之頂部表面沈積第二晶種層;以及自第二晶種層鍍覆第二導電材料以形成第二金屬化圖案。
在實施例中,形成半導體封裝體的方法包含:在晶粒上方形成第一感光性介電層;降低第一感光性介電層之感光度以形成第一鈍化層;形成接觸第一鈍化層之第一金屬層;形成接觸第
一金屬層之第一光阻;用第一圖案來圖案化第一光阻;藉由第一蝕刻製程將第一圖案自第一光阻轉移至第一金屬層;使用第一金屬層之第一圖案作為蝕刻罩幕來蝕刻第一鈍化層中之第一開口;在第一開口中且沿第一鈍化層之頂部表面沈積第一晶種層;以及自第一晶種層鍍覆第一導電材料以形成第一金屬化圖案。
在方法之一些實施例中,蝕刻第一鈍化層中之第一開口包含:藉由電漿蝕刻製程蝕刻第一鈍化層。在方法之一些實施例中,電漿蝕刻製程藉由包含比率約20:1至約1:20之氟及氧之前驅體進行。在一些實施例中,所述方法進一步包含:藉由模製化合物包封晶粒及穿孔;將模製化合物平面化,使得晶粒、穿孔及模製化合物之頂部表面為水平的;以及在晶粒、穿孔及模製化合物上方形成第一感光性介電層。在方法之一些實施例中,第一鈍化層中之第一開口暴露穿孔。在方法之一些實施例中,第一鈍化層中之第一開口暴露晶粒之連接件。在一些實施例中,所述方法進一步包含:在第一金屬化圖案及第一鈍化層上方形成第二感光性介電層;藉由使第二感光性介電層曝光來圖案化第二感光性介電層中之第二開口,所述第二開口暴露第一金屬化圖案;在第二開口中、沿第二感光性介電層之頂部表面且沿第一金屬化圖案之頂部表面沈積第二晶種層;及自第二晶種層鍍覆第二導電材料以形成第二金屬化圖案。
前文概述若干實施例之特徵以使得本領域的技術人員可更佳地理解本發明之態樣。本領域的技術人員應理解,其可易於使用本發明作為設計或修改用於實現本文中所引入之實施例的相同目的及/或達成相同優點的其他製程及結構之基礎。本領域的技
術人員亦應認識到,此類等效構造並不脫離本發明之精神及範疇,且本領域的技術人員可在不脫離本發明的精神及範疇之情況下在本文中作出各種改變、替代及更改。
142、160‧‧‧介電層
144、162‧‧‧金屬化圖案
162A‧‧‧導電通孔
162B‧‧‧導電線
166‧‧‧晶種層
172‧‧‧導電材料
θ1、θ2‧‧‧角度
Claims (12)
- 一種形成半導體封裝體的方法,包括:在藉由模製化合物包封晶粒之後,在所述晶粒上方和所述模製化合物上方形成第一介電層,所述第一介電層包括感光性材料;固化所述第一介電層以降低所述第一介電層之感光度;藉由蝕刻來圖案化所述第一介電層以形成第一開口;在所述第一介電層之所述第一開口中形成第一金屬化圖案;在所述第一金屬化圖案及所述第一介電層上方形成第二介電層,所述第二介電層包括所述感光性材料;藉由曝光及顯影來圖案化所述第二介電層以形成第二開口;以及在所述第二介電層之所述第二開口中形成第二金屬化圖案,所述第二金屬化圖案電連接至所述第一金屬化圖案。
- 如申請專利範圍第1項所述之方法,進一步包括:藉由所述模製化合物包封穿孔;及將所述模製化合物平面化,使得所述晶粒、所述穿孔及所述模製化合物之頂部表面為水平的,其中所述第一介電層形成於所述晶粒、所述穿孔及所述模製化合物之所述頂部表面上。
- 一種形成半導體封裝體的方法,包括:在藉由模製化合物包封晶粒之後,在所述晶粒上方和所述模製化合物上方形成第一感光性介電層;降低所述第一感光性介電層之感光度以形成第一鈍化層;形成接觸所述第一鈍化層之第一光阻; 用第一圖案來圖案化所述第一光阻;使用所述第一光阻之所述第一圖案作為蝕刻罩幕來蝕刻所述第一鈍化層中之第一開口;在所述第一開口中且沿所述第一鈍化層之頂部表面沈積第一晶種層;以及自所述第一晶種層鍍覆第一導電材料以形成第一金屬化圖案。
- 如申請專利範圍第3項所述之方法,其中蝕刻所述第一鈍化層中之所述第一開口包括:藉由電漿蝕刻製程蝕刻所述第一鈍化層。
- 如申請專利範圍第3項所述之方法,進一步包括:藉由所述模製化合物包封穿孔;將所述模製化合物平面化,使得所述晶粒、所述穿孔及所述模製化合物之頂部表面為水平的;以及在所述晶粒、所述穿孔及所述模製化合物上方形成所述第一感光性介電層。
- 如申請專利範圍第5項所述之方法,其中所述第一鈍化層中之所述第一開口暴露所述穿孔和所述晶粒之連接件的至少其中一者。
- 如申請專利範圍第3項所述之方法,其進一步包括:在所述第一金屬化圖案及所述第一鈍化層上方形成第二感光性介電層;藉由使所述第二感光性介電層曝光來圖案化所述第二感光性介電層中之第二開口,所述第二開口暴露所述第一金屬化圖案; 在所述第二開口中、沿所述第二感光性介電層之頂部表面且沿所述第一金屬化圖案之頂部表面沈積第二晶種層;以及自所述第二晶種層鍍覆第二導電材料以形成第二金屬化圖案。
- 如申請專利範圍第3項所述之方法,其中蝕刻所述第一鈍化層中之所述第一開口包括:藉由所述第一光阻的初始厚度來決定所述第一開口的側壁與所述第一鈍化層之底部表面之間的角度。
- 一種形成半導體封裝體的方法,包括:在藉由模製化合物包封晶粒之後,在所述晶粒上方和所述模製化合物上方形成第一感光性介電層;降低所述第一感光性介電層之感光度以形成第一鈍化層;形成接觸所述第一鈍化層之第一金屬層;形成接觸所述第一金屬層之第一光阻;用第一圖案來圖案化所述第一光阻;藉由第一蝕刻製程將所述第一圖案自所述第一光阻轉移至所述第一金屬層;使用所述第一金屬層之所述第一圖案作為蝕刻罩幕來蝕刻所述第一鈍化層中之第一開口;在所述第一開口中且沿所述第一鈍化層之頂部表面沈積第一晶種層;以及自所述第一晶種層鍍覆第一導電材料以形成第一金屬化圖案。
- 如申請專利範圍第9項所述之方法,其中蝕刻所述第 一鈍化層中之所述第一開口包括:藉由電漿蝕刻製程蝕刻所述第一鈍化層。
- 如申請專利範圍第9項所述之方法,進一步包括:藉由所述模製化合物包封穿孔;將所述模製化合物平面化,使得所述晶粒的晶粒連接件、所述穿孔以及所述模製化合物之頂部表面為共面的;以及在所述晶粒、所述穿孔以及所述模製化合物上方形成所述第一感光性介電層。
- 如申請專利範圍第9項所述之方法,其中所述第一金屬層的厚度小於所述第一鈍化層的厚度。
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US20060091476A1 (en) * | 2004-10-29 | 2006-05-04 | Cay-Uwe Pinnow | Sub-lithographic structures, devices including such structures, and methods for producing the same |
US20090236686A1 (en) * | 2006-04-19 | 2009-09-24 | Stats Chippac, Ltd. | Semiconductor Device and Method of Forming UBM Fixed Relative to Interconnect Structure for Alignment of Semiconductor Die |
US20110198762A1 (en) * | 2010-02-16 | 2011-08-18 | Deca Technologies Inc. | Panelized packaging with transferred dielectric |
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KR20200014672A (ko) | 2020-02-11 |
CN110797270A (zh) | 2020-02-14 |
US20210082745A1 (en) | 2021-03-18 |
DE102018121879A1 (de) | 2020-02-06 |
US11404308B2 (en) | 2022-08-02 |
US20200126850A1 (en) | 2020-04-23 |
US10840129B2 (en) | 2020-11-17 |
CN110797270B (zh) | 2021-07-23 |
DE102018121879B4 (de) | 2020-12-03 |
KR102135706B1 (ko) | 2020-07-21 |
US10515848B1 (en) | 2019-12-24 |
TW202008481A (zh) | 2020-02-16 |
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