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    • 22. 发明授权
    • Semiconductor device and method for manufacturing the same
    • 半导体装置及其制造方法
    • US09356247B2
    • 2016-05-31
    • US12614070
    • 2009-11-06
    • Masaru WadaShinichiro KondoRyouichi Yasuda
    • Masaru WadaShinichiro KondoRyouichi Yasuda
    • H01L51/10H01L51/05B82Y10/00H01L51/00
    • H01L51/0566B82Y10/00H01L51/0012H01L51/005H01L51/0068H01L51/0075H01L51/0094H01L51/0095H01L51/0541H01L51/0545H01L51/0595Y10S977/89Y10S977/936Y10S977/938
    • A semiconductor apparatus in which a conducting path formed from organic semiconductor molecules as a material has a novel structure and exhibits high mobility, and a manufacturing method for fabricating the same are provided. Fine particles that include a conductor or a semiconductor and organic semiconductor molecules, are alternately bonded through a functional group at both terminals of the organic semiconductor molecules to form a conducting path in a network form such that the conducting path in the fine particles and the conducting path in the organic semiconductor molecules are two-dimensionally or three-dimensionally linked together. This conducting path includes no intermolecular electron transfer, and the mobility is not restricted by the intermolecular electron transfer, and therefore the mobility of the conducting path along the main chain in the organic semiconductor molecules (in the direction of the axis of the molecule), for example, displays a high intramolecular mobility due to delocalized π electrons can be fully utilized.
    • 其中由有机半导体分子形成的导电路径作为材料的半导体装置具有新的结构并且具有高迁移率,并且提供了制造方法。 包含导体或半导体的微粒和有机半导体分子通过有机半导体分子两端的官能团交替键合,以形成网络形式的导电路径,使得微粒中的导电路径和导电 有机半导体分子中的路径二维或三维连接在一起。 该导电路径不包含分子间电子转移,并且迁移率不受分子间电子转移的限制,因此在有机半导体分子(沿分子轴的方向)沿主链的导电路径的迁移率, 例如,显示由于离域化而导致的高分子内迁移率 可以充分利用电子。
    • 23. 发明申请
    • SEMICONDUCTOR APPARATUS AND PROCESS FOR FABRICATING THE SAME
    • 半导体装置及其制造方法
    • US20100051931A1
    • 2010-03-04
    • US12614070
    • 2009-11-06
    • Masaru WadaShinichiro KondoRyouichi Yasuda
    • Masaru WadaShinichiro KondoRyouichi Yasuda
    • H01L51/10
    • H01L51/0566B82Y10/00H01L51/0012H01L51/005H01L51/0068H01L51/0075H01L51/0094H01L51/0095H01L51/0541H01L51/0545H01L51/0595Y10S977/89Y10S977/936Y10S977/938
    • A semiconductor apparatus in which a conducting path formed from organic semiconductor molecules as a material has a novel structure and exhibits high mobility, and a manufacturing method for fabricating the same are provided. Fine particles that include a conductor or a semiconductor and organic semiconductor molecules, are alternately bonded through a functional group at both terminals of the organic semiconductor molecules to form a conducting path in a network form such that the conducting path in the fine particles and the conducting path in the organic semiconductor molecules are two-dimensionally or three-dimensionally linked together. This conducting path includes no intermolecular electron transfer, and the mobility is not restricted by the intermolecular electron transfer, and therefore the mobility of the conducting path along the main chain in the organic semiconductor molecules (in the direction of the axis of the molecule), for example, displays a high intramolecular mobility due to delocalized π electrons can be fully utilized.
    • 其中由有机半导体分子形成的导电路径作为材料的半导体装置具有新的结构并且具有高迁移率,并且提供了制造方法。 包含导体或半导体的微粒和有机半导体分子通过有机半导体分子两端的官能团交替键合,以形成网络形式的导电路径,使得微粒中的导电路径和导电 有机半导体分子中的路径二维或三维连接在一起。 该导电路径不包含分子间电子转移,并且迁移率不受分子间电子转移的限制,因此在有机半导体分子(沿分子轴的方向)沿主链的导电路径的迁移率, 例如,显示由于离域化而导致的高分子内迁移率 可以充分利用电子。
    • 24. 发明授权
    • Semiconductor apparatus and process for fabricating the same
    • 半导体装置及其制造方法
    • US07579223B2
    • 2009-08-25
    • US11241177
    • 2005-09-30
    • Masaru WadaShinichiro KondoRyouichi Yasuda
    • Masaru WadaShinichiro KondoRyouichi Yasuda
    • H01L21/00
    • H01L51/0566B82Y10/00H01L51/0012H01L51/005H01L51/0068H01L51/0075H01L51/0094H01L51/0095H01L51/0541H01L51/0545H01L51/0595Y10S977/89Y10S977/936Y10S977/938
    • A semiconductor apparatus in which a conducting path formed from organic semiconductor molecules as a material has a novel structure and exhibits high mobility, and a manufacturing method for fabricating the same are provided. Fine particles that include a conductor or a semiconductor and organic semiconductor molecules, are alternately bonded through a functional group at both terminals of the organic semiconductor molecules to form a conducting path in a network form such that the conducting path in the fine particles and the conducting path in the organic semiconductor molecules are two-dimensionally or three-dimensionally linked together. This conducting path includes no intermolecular electron transfer, and the mobility is not restricted by the intermolecular electron transfer, and therefore the mobility of the conducting path along the main chain in the organic semiconductor molecules (in the direction of the axis of the molecule), for example, displays a high intramolecular mobility due to delocalized π electrons can be fully utilized.
    • 其中由有机半导体分子形成的导电路径作为材料的半导体装置具有新的结构并且具有高迁移率,并且提供了制造方法。 包含导体或半导体的微粒和有机半导体分子通过有机半导体分子两端的官能团交替键合,以形成网络形式的导电路径,使得微粒中的导电路径和导电 有机半导体分子中的路径二维或三维连接在一起。 该导电路径不包含分子间电子转移,并且迁移率不受分子间电子转移的限制,因此在有机半导体分子(沿分子轴的方向)沿主链的导电路径的迁移率, 例如,由于离域π显示出高分子内的迁移率,可以充分利用电子。
    • 27. 发明申请
    • Human spinal column measurement and display system
    • 人体脊柱测量和显示系统
    • US20050020942A1
    • 2005-01-27
    • US10487243
    • 2002-04-18
    • Masaru WadaSadao OmataYoshikazu KobayashiKenji Shirai
    • Masaru WadaSadao OmataYoshikazu KobayashiKenji Shirai
    • A61B5/107
    • A61B5/4561A61B5/1077
    • According to a human spinal column measuring and displaying system 1 of the invention, a probe 3 is pinched between the second finger and the third finger of a measuring person, front ends of the fingers are moved from the first thoracic vertebra to the fifth lumbar vertebra of the spinal column of a measured subject, detaching amounts from reference positions in X, Y and Z directions are detected by three-dimensionally moving the front ends of the fingers, converted data storing means stores the detaching amounts detected by the probe as respective values of measured data in X-axis direction, Y-axis direction and Z-axis direction, gender and height of the measured subject is inputted by an input apparatus, when from a basic diagram data 15 stored with an average size and a basic shape of each of the vertebrae constituting the spinal column of the human body by the gender and the height of the measured subject, in accordance with the gender and the height of the measured subject inputted by the input apparatus 10, a table of the vertebrae 16 of each of the vertebrae in correspondence with the gender and the height is selected from the basic diagram data 15, and when an image of a total of the spinal column constituting a basic is generated by synthesizing means 17 based on the size and the shape of each of the vertebrae selected by the table of the vertebrae, in the image of the spinal column generated by the synthesizing means, based on measured data stored to the converted data storing means 14, positions of displaying the vertebrae in correspondence with positions of coordinates in X direction, Y direction and Z direction of the respective vertebrae are moved and a three-dimensional image of the spinal column of the measured subject is generated and the image of the spinal column is displayed on a display screen 11 by image data generating means 18.
    • 根据本发明的人脊柱测量和显示系统1,探针3被夹在测量人的第二手指和第三手指之间,手指的前端从第一胸椎移动到第五腰椎 通过三维地移动手指的前端来检测从X,Y和Z方向上的参考位置的分离量,转换数据存储装置将由探针检测的分离量存储为相应的值 通过输入装置输入测量对象的X轴方向,Y轴方向和Z轴方向的测量数据,当从基本图形存储的基本图形数据15中,以平均尺寸和基本形状 每个椎骨根据被测物体的性别和身高,按被测物体的性别和身高构成人体脊柱。 由输入装置10编辑,从基本图数据15中选择与性别和高度相对应的每个椎骨的椎骨16的表,并且当构成基本的脊柱的总数的图像是 根据由转换数据存储装置14存储的测量数据,根据由合成装置生成的脊柱图像中由椎骨表选择的每个椎骨的大小和形状,由合成装置17生成 移动与各椎骨的X方向,Y方向和Z方向的坐标位置对应地显示椎骨的位置,生成测定对象的脊柱的三维图像,将脊柱的图像 由图像数据产生装置18显示在显示屏11上。
    • 28. 发明授权
    • Microbial production of actinol
    • 微生物生成的肌动蛋白
    • US06444460B1
    • 2002-09-03
    • US09375129
    • 1999-08-16
    • Sakayu ShimizuMasaru Wada
    • Sakayu ShimizuMasaru Wada
    • C12P726
    • C12R1/06C12P7/26C12P41/002C12R1/01C12R1/15
    • A process for making (4R, 6R)-4-hydroxy-2,2,6-trimethylcyclohexanone by contacting (6R)-2,2,6-trimethylcyclohexanedione with a microorganism which is selected from microorganisms of the genera Cellulomonas, Corynebacterium, Planococcus and Arthrobacter and which is capable of the selective asymmetric reduction of (6R)-2,2,6-trimethylcyclohexanedione to (4R, 6R)-4-hydroxy-2,2,6-trimethylcyclohexanone, and recovering the resulting (4R, 6R)-4-hydroxy-2,2,6-trimethylcyclohexanone from the reaction mixture. The selective asymmetric reduction can be effected in the presence of a co-factor, such as, nicotinamide adenine dinucleotide (NAD), nicotinamide adenine dinucleotide phosphate (NADP), or said co-factor with glucose and glucose dehydrogenase (GDH), and/or in the presence of a surfactant. The product is useful for the synthesis of carotenoids, such as, zeaxanthin.
    • 通过使(6R)-2,2,6-三甲基环己二酮与微生物接触,制备(4R,6R)-4-羟基-2,2,6-三甲基环己酮的方法,所述微生物选自Cellulomonas,Corynebacterium,Planococcus 并且能够(6R)-2,2,6-三甲基环己二酮选择性不对称还原成(4R,6R)-4-羟基-2,2,6-三甲基环己酮,并回收得到的(4R,6R )-4-羟基-2,2,6-三甲基环己酮。 选择性不对称还原可以在辅因子存在下进行,例如烟酰胺腺嘌呤二核苷酸(NAD),烟酰胺腺嘌呤二核苷酸磷酸(NADP)或与葡萄糖和葡萄糖脱氢酶(GDH)的所述辅因子,和/ 或在表面活性剂存在下。 该产品可用于合成类胡萝卜素,如玉米黄质。
    • 30. 发明授权
    • Junction field effect transistor and method of producing the same
    • 结场效应晶体管及其制造方法
    • US06201269B1
    • 2001-03-13
    • US08458724
    • 1995-06-02
    • Chiaki TakanoHidetoshi KawasakiMasaru Wada
    • Chiaki TakanoHidetoshi KawasakiMasaru Wada
    • H01L2976
    • H01L29/66924H01L21/8252H01L27/0605H01L27/0629H01L29/0649H01L29/1066H01L29/808
    • For suppressing generation of leakage current and side-gate effect in a junction field effect transistor, a gate extension is formed on a semi-insulative compound semiconductor substrate in a manner to extend from a gate and to protrude outward beyond a channel transversely thereto, and an insulating layer is formed on the semi-insulative compound semiconductor substrate under the gate extension. A method of producing this transistor comprises the steps of first forming a channel and a source-drain on a substrate, then forming a gate on the channel together with a gate extension which extends from the gate and protrudes outward beyond the channel transversely thereto, and forming an insulating layer adjacently to the channel and the source-drain in such a manner that no gap is existent between the insulating layer and at least the channel.
    • 为了抑制结型场效应晶体管中的漏电流和侧栅效应的产生,在半绝缘化合物半导体基板上以从栅极延伸并向外突出超过横向通道的方式形成栅极延伸,以及 在栅极延伸部分的半绝缘性化合物半导体基板上形成绝缘层。 制造该晶体管的方法包括以下步骤:首先在衬底上形成沟道和源极 - 漏极,然后在沟道上形成栅极以及从栅极延伸并从其横向向外突出超过沟槽的栅极延伸,以及 以与绝缘层和至少沟道之间不存在间隙的方式形成与沟道和源极 - 漏极相邻的绝缘层。