In various embodiments, synthetic bridge molecules are disclosed, usable in molecular electronics sensors. In various aspects, bridge molecules comprise fused ring polycyclic aromatic hydrocarbon structures in the shape of a long and narrow ribbon, with end groups on opposite short ends for selective binding to metal electrodes, one or more substituents near the midpoint of a long edge for binding to a probe molecule, and one or more additional substituent groups for solubility or other effects. In various embodiments, the bridge molecules herein are conducting, and provide a closed circuit in a sensor when forming a bridge between gapped electrodes.

In various embodiments, synthetic bridge molecules are disclosed, usable in molecular electronics sensors. In various aspects, bridge molecules comprise fused ring polycyclic aromatic hydrocarbon structures in the shape of a long and narrow ribbon, with end groups on opposite short ends for selective binding to metal electrodes, one or more substituents near the midpoint of a long edge for binding to a probe molecule, and one or more additional substituent groups for solubility or other effects. In various embodiments, the bridge molecules herein are conducting, and provide a closed circuit in a sensor when forming a bridge between gapped electrodes.

The present invention relates to a rubber composition including (A) at least one rubber component selected from the group consisting of a synthetic rubber and a natural rubber; (B) a polymer of farnesene; and (C) carbon black having an average particle size of from 5 to 100 nm, a content of the carbon black (C) in the rubber composition being from 20 to 100 parts by mass on the basis of 100 parts by mass of the rubber component (A).

The present invention relates to a rubber composition including (A) at least one rubber component selected from the group consisting of a synthetic rubber and a natural rubber; (B) a polymer of farnesene; and (C) carbon black having an average particle size of from 5 to 100 nm, a content of the carbon black (C) in the rubber composition being from 20 to 100 parts by mass on the basis of 100 parts by mass of the rubber component (A).

In various embodiments, synthetic bridge molecules are disclosed, usable in molecular electronics sensors. In various aspects, bridge molecules comprise fused ring polycyclic aromatic hydrocarbon structures in the shape of a long and narrow ribbon, with end groups on opposite short ends for selective binding to metal electrodes, one or more substituents near the midpoint of a long edge for binding to a probe molecule, and one or more additional substituent groups for solubility or other effects. In various embodiments, the bridge molecules herein are conducting, and provide a closed circuit in a sensor when forming a bridge between gapped electrodes.

In various embodiments, synthetic bridge molecules are disclosed, usable in molecular electronics sensors. In various aspects, bridge molecules comprise fused ring polycyclic aromatic hydrocarbon structures in the shape of a long and narrow ribbon, with end groups on opposite short ends for selective binding to metal electrodes, one or more substituents near the midpoint of a long edge for binding to a probe molecule, and one or more additional substituent groups for solubility or other effects. In various embodiments, the bridge molecules herein are conducting, and provide a closed circuit in a sensor when forming a bridge between gapped electrodes.

In various embodiments, synthetic bridge molecules are disclosed, usable in molecular electronics sensors. In various aspects, bridge molecules comprise fused ring polycyclic aromatic hydrocarbon structures in the shape of a long and narrow ribbon, with end groups on opposite short ends for selective binding to metal electrodes, one or more substituents near the midpoint of a long edge for binding to a probe molecule, and one or more additional substituent groups for solubility or other effects. In various embodiments, the bridge molecules herein are conducting, and provide a closed circuit in a sensor when forming a bridge between gapped electrodes.

In various embodiments, synthetic bridge molecules are disclosed, usable in molecular electronics sensors. In various aspects, bridge molecules comprise fused ring polycyclic aromatic hydrocarbon structures in the shape of a long and narrow ribbon, with end groups on opposite short ends for selective binding to metal electrodes, one or more substituents near the midpoint of a long edge for binding to a probe molecule, and one or more additional substituent groups for solubility or other effects. In various embodiments, the bridge molecules herein are conducting, and provide a closed circuit in a sensor when forming a bridge between gapped electrodes.

An object is to provide a cured product, for example, that is made with a curable resin composition containing a curable resin having a particular structure, a radical polymerization initiator, and a flame retardant and therefore is superior in flame retardancy, heat resistance (high glass transition temperature), and dielectric properties (low dielectric properties). Specifically, there are provided a curable resin represented by general formula (1) below and a curable resin composition containing this curable resin, a radical polymerization initiator (B), and a flame retardant (C). (In general formula (1) above, Y is a substituent represented by general formula (2) below, and the details of the substituents and the numbers of substituents presented in general formulae (1) and (2) above are as described in the text.) ##STR00001##

An object is to provide a cured product, for example, that is made with a curable resin composition containing a curable resin having a particular structure, a radical polymerization initiator, and a flame retardant and therefore is superior in flame retardancy, heat resistance (high glass transition temperature), and dielectric properties (low dielectric properties). Specifically, there are provided a curable resin represented by general formula (1) below and a curable resin composition containing this curable resin, a radical polymerization initiator (B), and a flame retardant (C). (In general formula (1) above, Y is a substituent represented by general formula (2) below, and the details of the substituents and the numbers of substituents presented in general formulae (1) and (2) above are as described in the text.) ##STR00001##