1
Hiroshi Makino: Semiconductor device cell having regularly sized and arranged features. Mitsubishi Denki Kabushiki Kaisha, McDermott Will & Emery, October 21, 2003: US06635935 (157 worldwide citation)

In a semiconductor device, first gate electrodes contributing to transistor operations and second gate electrodes not contributing to the transistor operations each have the same gate length, share the common gate length direction, and are arranged in the same pitch. The first gate electrodes and th ...


2
Koji Nii, Shigeki Obayashi, Hiroshi Makino, Koichiro Ishibashi, Hirofumi Shinohara: Semiconductor memory device. Renesas Technology, McDermott Will & Emery, March 10, 2009: US07502275 (133 worldwide citation)

Cell power supply lines are arranged for memory cell columns, and adjust impedances or voltage levels of the cell power supply lines according to the voltage levels of bit lines in the corresponding columns, respectively. In the data write operation, the cell power supply line is forced into a float ...


3
Hiroshi Makino, Kanji Nakagawa: Method for removing water vapor from water vapor-containing gas. UBE, Burgess Ryan & Wayne, January 12, 1988: US04718921 (68 worldwide citation)

A water vapor-containing gas is separated to a fraction thereof having an increased content of water vapor and a remaining fraction thereof having a decreased content of water vapor by a gas separating device which has at least one gas separating membrane having gas feed and delivery surfaces and a ...


4
Hiroshi Makino, Yoshihiro Kusuki, Takashi Harada, Hiroshi Shimazaki: Gas separating material. Ube, Burgess Ryan and Wayne, March 29, 1983: US04378400 (61 worldwide citation)

A gas separating material having excellent heat and chemical resistance, mechanical strength and gas-separating function, comprises a gas separating layer consisting of at least one dense film having a thickness of from 0.1 to 20 microns and comprising at least one aromatic imide polymer which compr ...


5
Hiroshi Makino, Yoshihiro Kusuki, Takashi Harada, Hiroshi Shimazaki, Tosio Isida: Aromatic polyimide composite separating membrane. UBE, Burgess Ryan & Wayne, July 9, 1985: US04528004 (59 worldwide citation)

An aromatic polyimide composite membrane having a satisfactory gas-permeating property and an excellent gas-separating property comprises an aromatic polyimide porous membrane substrate and at least one coating layer which has been prepared (A) by coating at least one surface of the substrate with a ...


6
Hiroshi Makino, Yoshihiro Kusuki, Takashi Harada, Hiroshi Shimazaki, Tosio Isida: Porous aromatic imide polymer membrane and a process for its manufacture. UBE, Burgess Ryan & Wayne, April 23, 1985: US04512893 (59 worldwide citation)

A porous aromatic imide polymer membrane usable as a gas or liquid separator or concentrator is prepared by a process comprising the steps of:


7
Hiroyuki Shinada, Atsuko Takafuji, Takanori Ninomiya, Yuko Sasaki, Mari Nozoe, Hisaya Murakoshi, Taku Ninomiya, Yuji Kasai, Hiroshi Makino, Yutaka Kaneko, Kenji Tanimoto: Method of inspecting a circuit pattern and inspecting instrument. Hitachi, Antonelli Terry Stout & Kraus, June 24, 2003: US06583413 (54 worldwide citation)

A circuit pattern inspecting instrument includes an electron-optical system for irradiating an electron beam on a sample, an electron beam deflector, a detector for detecting secondary charged particles from the sample, and a mode setting unit for switching between a first mode and a second mode. An ...


8

9
Hiroshi Makino, Yoshihiro Kusuki, Takashi Harada, Hiroshi Shimazaki, Tosio Isida: Process for producing aromatic polyimide composite separating membrane. Ube, Burgess Ryan & Wayne, April 3, 1984: US04440643 (51 worldwide citation)

An aromatic polyimide composite membrane having an excellent gas-separating property is produced by a process comprising the steps of: coating at least one surface of a substrate consisting of an aromatic polyimide porous membrane with a solution of 0.05% to 10% by weight of an aromatic polyamic aci ...


10
Hiroshi Makino, Masayuki Nakatani: Gas separating material. Ube, Burgess Ryan and Wayne, September 1, 1987: US04690873 (51 worldwide citation)

A gas separating material having excellent CO.sub.2 gas permeating property, mechanical property, and heat resistance has a gas separating layer comprising an aromatic imide polymer which contains 20 to 100 molar % of recurring units of the formula (I): ##STR1## wherein A.sub.1 is a tetravalent arom ...