Germanium PMOSFETs with Low-Temperature Si2H6 Passivation Featuring High Hole Mobility and Superior Negative Bias Temperature Instability

We investigate negative bias temperature instability （NBTI） on high performance Ge p-channel metal-oxide- semiconductor field-effect transistors （pMOSFETs） with low-temperature Si2H6 passivation. The Ge pMOSFETs exhibit an effective hole mobility of 311 cm2/V.s at an inversion charge density of 2.5 × 1012 cm^-2. NBTI characterization is performed to investigate the linear transconductance （GM,lin） degradation and threshold voltage shift （△VTH） under NBT stress. Ge pMOSFETs with a lOyr lifetime at an operating voltage of -0.72 V are demonstrated. The impact of the Si2H6 passivation temperature is studied. As the passivation temperature increases from 350℃ to 550℃, the degradation of NBTI characteristics, e.g., GM,lin loss, △VTH and an operating voltage for a lifetime of lOyr, is observed.     

单晶金刚石氢终端场效应晶体管特性

基于微波等离子体化学气相淀积生长的单晶金刚石制作了栅长为2μm的耗尽型氢终端金刚石场效应晶体管,并对器件特性进行了分析.器件的饱和漏电流在栅压为-6 V时达到了96 mA/mm,但是在-6 V时栅泄漏电流过大.在-3.5 V的安全工作栅压下,饱和漏电流达到了77 mA/mm.在器件的饱和区,宽5.9 V的栅电压范围内,跨导随着栅电压的增加而近线性增大到30 mS/mm.通过对器件导通电阻和电容-电压特性的分析,氢终端单晶金刚石的二维空穴气浓度达到了1.99×10~(13)cm~(-2),并且迁移率和载流子浓度均随着栅压向正偏方向的移动而逐渐增大.分析认为,沟道中高密度的载流子、大的栅电容以及迁移率的逐渐增加是引起跨导在很大的栅压范围内近线性增加的原因.     

Effects of optical interference and annealing on the performance of poly （3-hexylthiophene）： fullerene based solar cells

<正>In this paper,the effects of optical interference and annealing on the performance of P3HT:PCBM based organic solar cells are studied in detail.Due to the optical interference effect,short circuit current density(J_SC) shows obvious oscillatory behaviour with the variation of active layer thickness.With the help of the simulated results,the devices are optimized around the first two optical interference peaks.It is found that the optimized thicknesses are 80 and 208 nm.The study on the effect of annealing on the performance indicates that post-annealing is more favourable than pre-annealing.Based on post-annealing,different annealing temperatures are tested.The optimized annealing condition is 160℃for 10 min in a nitrogen atmosphere.The device shows that the open circuit voltage V-（OC） achieves about 0.65V and the power conversion efficiency is as high as 4.0%around the second interference peak.     

不同晶面的氢终端单晶金刚石场效应晶体管特性

通过微波等离子体化学气相淀积技术生长单晶金刚石并切割得到(110)和(111)晶面金刚石片,以同批器件工艺制备两种晶面上栅长为6μm的氢终端单晶金刚石场效应管,从材料和器件特性两方面对两种晶面金刚石进行对比分析.(110)面和(111)面金刚石的表面形貌在氢终端处理后显著不同,光学性质则彼此相似.VGS=–4 V时,(111)金刚石器件获得的最大饱和电流为80.41 m A/mm,约为(110)金刚石器件的1.4倍;其导通电阻为48.51 W·mm,只有(110)金刚石器件导通电阻的67%.通过对器件电容-电压特性曲线的分析得到,(111)金刚石器件沟道中最大载流子密度与(110)金刚石器件差异不大.分析认为,(111)金刚石器件获得更高饱和电流和更低导通电阻,应归因于较低的方阻.     

Device simulation of quasi-two-dimensional perovskite/silicon tandem solar cells towards 30%-efficiency

Perovskite/silicon (Si) tandem solar cells have been recognized as the next-generation photovoltaic technology with efficiency over 30% and low cost. However, the intrinsic instability of traditional three-dimensional (3D) hybrid perovskite seriously hinders the lifetimes of tandem devices. In this work, the quasi-two-dimensional (2D) (BA)₂(MA)_n-1Pb_nI_3n+1 (n=1, 2, 3, 4, 5) (where MA denotes methylammonium and BA represents butylammonium), with senior stability and wider bandgap, are first used as an absorber of semitransparent top perovskite solar cells (PSCs) to construct a four-terminal (4T) tandem devices with a bottom Si-heterojunction cell. The device model is established by Silvaco Atlas based on experimental parameters. Simulation results show that in the optimized tandem device, the top cell (n=4) obtains a power conversion efficiency (PCE) of 17.39% and the Si bottom cell shows a PCE of 11.44%, thus an overall PCE of 28.83%. Furthermore, by introducing a 90-nm lithium fluoride (LiF) anti-reflection layer to reduce the surface reflection loss, the current density (J_sc) of the top cell is enhanced from 15.56 mA/cm² to 17.09 mA/cm², the corresponding PCE reaches 19.05%, and the tandem PCE increases to 30.58%. Simultaneously, in the cases of n=3, 4, and 5, all the tandem PCEs exceed the limiting theoretical efficiency of Si cells. Therefore, the 4T quasi-2D perovskite/Si devices provide a more cost-effective tandem strategy and long-term stability solutions.     

氢终端单晶金刚石反相器特性

超宽禁带半导体金刚石材料在高温、高压电路中具有重要的应用潜力.本研究采用微波等离子体化学气相沉积生长的单晶金刚石衬底制备了原子层沉积(atomic layer deposition, ALD)的Al₂O₃栅介质的氢终端金刚石金属氧化物半导体场效应晶体管(metal oxide semiconductor field effect transistor, MOSFET)器件,并与负载电阻互连,成功制备了金刚石反相器. 4μm栅长的氢终端金刚石器件实现了最大113.4 m A/mm的输出饱和漏电流,器件开关比高达109,并在不同负载电阻条件下均成功测得金刚石反相器的电压反转特性,反相器的最大增益为10.     

超薄多晶硅的掺杂、钝化及光伏特性研究

本文对70 nm超薄多晶硅的掺杂工艺、钝化性能及光伏特性进行了研究。确定了70 nm超薄多晶硅的掺杂工艺,研究表明当离子注入剂量为3.2×10¹⁵ cm^-3,在855 ℃退火20 min时,70 nm超薄多晶硅的钝化性能可以达到与常规120 nm多晶硅相当的水平,且70 nm多晶硅的表面掺杂浓度达到5.6×10²⁰ atoms/cm³,远高于120 nm掺杂多晶硅的表面掺杂浓度(2.5×10²⁰ atoms/cm³)。基于70 nm超薄多晶硅厚度减薄和高表面浓度掺杂的特点,较低的寄生吸收和强场钝化效应使得在大尺寸(6英寸)直拉单晶硅片上加工的N型TOPCon太阳能电池的光电转换效率得到明显提升,主要电性能参数表现为:电流I_sc升高20 mA,串联电阻R_s降低,填充因子FF增加0.3%,光电转换效率升高0.13%。     

Influence of optical interference and carrier lifetime on the short circuit current density of organic bulk heterojunction solar cells

Based on simple analytical equations, short circuit current density (J_SC) of the organic bulk heterojunction solar cells has been calculated. It is found that the optical interference effect plays a very important role in the determination of J_SC; and obvious oscillatory behaviour of J_SC was observed as a function of thickness. At the same time, the influence of the carrier lifetime on J_SC also cannot be neglected. When the carrier lifetime is relatively short, J_SC only increases at the initial stage and then decreases rapidly with the increase of active layer thickness. However, for a relatively long carrier lifetime, the exciton dissociation probability must be considered, and J_SC behaves wave-like with the increase of active layer thickness. The validity of this model is confirmed by the experimental results.     

界面电偶极子对GaN/AlGaN/GaN光电探测器紫外/太阳光选择比的影响

在GaN/AlGaN/GaN倒置异质结光电二极管（IHP）中，存在于AlGaN/GaN异质结界面处强烈的极化效应对器件的紫外/太阳光(UV/Solar)选择比产生了重要的影响.将极化效应总的影响分为两部分：电偶极子和极化项，在建立的GaN/AlGaN/GaN结构IHP模型的基础上，对电偶极子 对器件UV/Solar选择比的影响进行了分析.分析结果表明，只有在考虑电偶极子的影响时， 光电探测器的UV/Solar选择比在10³数量级左右，与实验结果符合较好.因此， 在IHP中必须考虑电偶极子的影响. 关键词： 紫外/太阳光选择比 太阳盲区探测器 极化 电偶极子     

Growth and Characterization of the Laterally Enlarged Single Crystal Diamond Grown by Microwave Plasma Chemical Vapor Deposition

Laterally enlarged single crystal diamond is grown on(001) diamond substrates by microwave plasma chemical vapor deposition. Based on the largest side-to-side width of the seed of 7.5 mm, we achieve the as-grown epilayer with the width of about 10 mm between the same two sides. The luminescence difference between the broadened part of the single crystal diamond and the vertically epitaxial part is investigated by characterizing the vertical cross section of the sample, and the possible growth mechanism is suggested. Vertical epitaxy on the top(001)surface and lateral growth on the side surfaces occur simultaneously, and thus the growth fronts along the two directions adjoin and form a coalescence zone extending from the edge of the substrate towards the edge of the expanded single crystal diamond top surface. The luminescence intensity of the nitrogen-vacancy center is relatively high in the coalescence zone and a laterally grown part right below, which are attributed mainly to the higher growth rate. However, stress change and crystal quality change are negligible near the coalescence zone.