Abstract: A metal compound-graphene oxide composite that can be used for manufacture of hydrogen. A composite has graphene oxide and at least one metal compound selected from cobalt compounds, nickel compounds, and molybdenum compounds. If the metal compound includes a cobalt compound or a nickel compound, in the infrared absorption spectrum of the complex, absorption derived from C—O groups is present and absorptions derived from O—H groups and C?O groups and absorption derived from bonds between graphene oxide and cobalt or nickel via oxygen atoms are essentially absent. If the metal compound is a molybdenum compound, in the infrared absorption spectrum of the complex, absorptions derived from C—O groups, O—H groups, and C?O groups, and absorption derived from bonds between graphene oxide and cobalt or nickel via oxygen atoms, are all essentially absent.

Abstract: Provided is a novel composite of an iron compound and a graphene oxide which is extremely useful as a photocatalyst or an active ingredient of an electrode. In this composite of an iron compound and graphene oxide, iron compound particles are supported on the graphene oxide.

Abstract: A polymer production process comprising reacting a compound represented by the following formula (1) in the presence of a binuclear metal complex represented by the following formula (2). R4-nMHn??(1) (in the formula (1), R is a monovalent organic group, M is a silicon atom or a germanium atom, and n is 2 or 3.) [CpM(?-CH2)]2??(2) (in the formula (2), Cp is a cyclopentadienyl-based ligand, M is a metal atom selected from Rh and Ir, and the bond between M's is a double bond.

Abstract: A polysilane production process comprising reacting a specific silane compound typified by a cyclic silane compound represented by the following formula (2) in the presence of a binuclear metal complex represented by the following formula (4). SijH2j??(2) (in the formula (2), j is an integer of 3 to 10.) [CpM(?-CH2)]2??(4) (in the formula (4), Cp is a cyclopentadienyl-based ligand, M is a metal atom selected from Rh and Ir, and the bond between M's is a double bond.

Abstract: What is provided is a liquid supply container capable of minimizing, after the supply of liquid in a liquid reservoir to a liquid acceptor has been completed, the amount of the liquid remaining in the liquid reservoir. A liquid supply container 1 includes: a liquid reservoir 10 that changes its shape in accordance with the amount of liquid contained therein; and a liquid supply section 30 provided in the liquid reservoir 10 to supply the liquid to a liquid acceptor 50. The liquid supply section 30 includes: a liquid supply path 16 that supplies the liquid to the liquid acceptor 50; and an exposed surface 20 that defines a liquid reservoir 10-side end in the liquid supply path 16 and is exposed to the inner space of the liquid reservoir 10. The exposed surface 20 is provided with a recess capable of forming a flow path in which the liquid flows from the outer circumference of the exposed surface 20 to the liquid supply path 16.

Abstract: A liquid supply container (11) is provided with: a liquid storage part (110) for accommodating a liquid inside; and a liquid supply part (130) provided on the liquid storage part (110) for supplying the liquid accommodated in the liquid storage part (110) to a liquid receptor (150). Shock-absorbing material is arranged between the liquid storage part (110) and the liquid supply part (130).

Abstract: A liquid supply container (1) provided in a fuel cell system includes a liquid chamber (10) that stores liquid therein, and a liquid supply port (30) provided in the liquid chamber (10) so as to supply the liquid stored therein to a liquid acceptor, and the liquid chamber (10) includes a groove (11) having a V-shape cross-section and formed on an upper surface (13C) of the liquid chamber (10), which serves to allow communication between the inside and the outside of the liquid chamber (10) in the case the internal pressure increases over a predetermined level.

Abstract: A liquid supply container is provided which includes a liquid storage portion (11) for storing liquid therein, having a pair of side walls (13A and 13B) arranged to face each other. The liquid storage portion has a supply port (12) arranged on a wall different from the pair of side walls for supplying the liquid to an object. Each of the side walls of the liquid storage portion has a gusseted structure. A rigid member (18A, 19A, 18B, 19B) is arranged between a fold line (15A, 15B) of the gusseted structure and an edge (16A, 17A, 16B, 17B) substantially parallel to the fold line.