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    • 1. 发明申请
    • MOSFET STRUCTURE AND METHOD OF MANUFACTURE
    • MOSFET结构及其制造方法
    • US20090085073A1
    • 2009-04-02
    • US11864274
    • 2007-09-28
    • Ravindranath DroopadMatthias Passlack
    • Ravindranath DroopadMatthias Passlack
    • H01L29/78H01L21/336
    • H01L21/28264H01L29/517
    • A method of forming a portion (10) of a compound semiconductor MOSFET structure comprises forming a compound semiconductor layer structure (14) and an oxide layer (20) overlying the same. Forming the compound semiconductor structure (14) includes forming at least one channel material (16) and a group-III rich surface termination layer (18) overlying the at least one channel material. Forming the oxide layer (20) includes forming the oxide layer to overlie the group-III rich surface termination layer and comprises one of (a) depositing essentially congruently evaporating oxide of at least one of (a(i)) a ternary oxide and (a(ii)) an oxide more complex than a ternary oxide and (b) depositing oxide molecules, with use of at least one of (b(i)) a ternary oxide and (b(ii)) an oxide more complex than a ternary oxide.
    • 形成化合物半导体MOSFET结构的部分(10)的方法包括:形成化合物半导体层结构(14)和覆盖其上的氧化物层(20)。 形成化合物半导体结构(14)包括形成至少一个沟道材料(16)和覆盖至少一个沟道材料的III族富集表面终止层(18)。 形成氧化物层(20)包括形成氧化物层以覆盖III族富集表面终止层,并且包括(a)基本上一致地沉积(a(i))三元氧化物和( (ii))比三元氧化物更复杂的氧化物和(b)使用(b(i))三元氧化物和(b(ii))中的至少一种沉积氧化物分子,其比 三元氧化物。
    • 2. 发明授权
    • High K dielectric film
    • 高K电介质膜
    • US07105886B2
    • 2006-09-12
    • US10895552
    • 2004-07-21
    • Ravindranath Droopad
    • Ravindranath Droopad
    • A01L29/76
    • H01L21/28194H01L21/02192H01L21/02194H01L21/02269H01L21/28273H01L21/31604H01L29/4908H01L29/513H01L29/517H01L29/518
    • A dielectric layer comprised of lanthanum, lutetium, and oxygen that is formed between two conductors or a conductor and a substrate. In one embodiment, the dielectric layer is formed over the substrate without the need for an additional interfacial layer. In another embodiment, the dielectric layer is graded with respect to the lanthanum or lutetium content or in the alternative, may include aluminum. In yet another embodiment, an insulating layer is formed between the conductor or substrate and the dielectric layer or between both the conductor and substrate and the dielectric layer. The dielectric layer is preferably formed by molecular beam epitaxy, but can also be formed by atomic layer chemical vapor deposition, physical vapor deposition, organometallic chemical vapor deposition or pulsed laser deposition.
    • 由镧,镥和氧构成的介电层,其形成在两个导体或导体与基板之间。 在一个实施例中,介电层形成在衬底上,而不需要额外的界面层。 在另一个实施方案中,介电层相对于镧或镥含量分级,或者替代地,可以包括铝。 在另一个实施例中,在导体或衬底与电介质层之间或在导体和衬底与电介质层之间形成绝缘层。 电介质层优选通过分子束外延形成,但也可以通过原子层化学气相沉积,物理气相沉积,有机金属化学气相沉积或脉冲激光沉积形成。
    • 7. 发明申请
    • INSULATED GATE FIELD EFFECT TRANSISTORS
    • 绝缘栅场效应晶体管
    • US20120056246A1
    • 2012-03-08
    • US13293910
    • 2011-11-10
    • Jonathan K. AbrokwahRavindranath DroopadMatthias Passlack
    • Jonathan K. AbrokwahRavindranath DroopadMatthias Passlack
    • H01L29/78
    • H01L29/7783H01L23/3192H01L29/207H01L29/513H01L2924/0002H01L2924/12044H01L2924/13091H01L2924/00
    • An improved insulated gate field effect device is obtained by providing a substrate desirably comprising a III-V semiconductor, having a further semiconductor layer on the substrate adapted to contain the channel of the device between spaced apart source-drain electrodes formed on the semiconductor layer. A dielectric layer is formed on the semiconductor layer. A sealing layer is formed on the dielectric layer and exposed to an oxygen plasma. A gate electrode is formed on the dielectric layer between the source-drain electrodes. The dielectric layer preferably comprises gallium-oxide and/or gadolinium-gallium oxide, and the oxygen plasma is preferably an inductively coupled plasma. A further sealing layer of, for example, silicon nitride is desirably provided above the sealing layer. Surface states and gate dielectric traps that otherwise adversely affect leakage and channel sheet resistance are much reduced.
    • 通过提供期望地包括III-V半导体的衬底来获得改进的绝缘栅场效应器件,所述衬底在衬底上具有另外的半导体层,其适于在形成在半导体层上的间隔开的源 - 漏电极之间容纳器件的沟道。 在半导体层上形成介电层。 在电介质层上形成密封层并暴露于氧等离子体。 在源 - 漏电极之间的电介质层上形成栅电极。 电介质层优选包含氧化镓和/或钆 - 镓氧化物,氧等离子体优选为电感耦合等离子体。 希望在密封层的上方设置另外的例如氮化硅的密封层。 否则对泄漏和通道薄层电阻有不利影响的表面状态和栅极电介质阱将大大减少。