Abstract: Disclosed herein are a colored functionalized paracyclophane represented by Formula (I) and a colored chemical film represented by Formula (II): wherein A, o, and p in Formula (I) and Formula (II) are as defined herein. The colored chemical film may be formed from the colored functionalized [2,2]paracyclophane by chemical vapor deposition.

Abstract: A process for producing a barrier composition includes subjecting a siloxane compound having 1 to 3 amino groups and an aqueous solution including water and an alcohol to hydrolysis and first-stage condensation under required conditions, subjecting a first colloidal mixture obtained and an additional alcohol to second-stage condensation, subjecting a second colloidal mixture obtained, which has a particular solid content, to heating under required conditions, and subjecting a cured product obtained to aging under required conditions. A barrier composition produced by the process is also disclosed.

Abstract: A process for producing a barrier composition includes subjecting a siloxane compound having 1 to 3 amino groups and an aqueous solution including water and an alcohol to hydrolysis and first-stage condensation under required conditions, subjecting a first colloidal mixture obtained and an additional alcohol to second-stage condensation, subjecting a second colloidal mixture obtained, which has a particular solid content, to heating under required conditions, and subjecting a cured product obtained to aging under required conditions. A barrier composition produced by the process is also disclosed.

Abstract: Disclosed herein are a colored functionalized paracyclophane represented by Formula (I) and a colored chemical film represented by Formula (II): wherein A, o, and p in Formula (I) and Formula (II) are as defined herein. The colored chemical film may be formed from the colored functionalized [2,2]paracyclophane by chemical vapor deposition.

Abstract: A gas barrier laminate includes an organic layer and an inorganic layered unit. The organic layer includes a product obtained by subjecting a silane compound having an alkoxy group to hydrolysis and condensation. The inorganic layered unit is disposed on the organic layer, and includes an aluminum oxide layer, a hafnium oxide layer, and a silicon aluminum oxide layer that are laminated to one another.

Abstract: The present invention provides RUT analogs with various biological activities. In particular, the biological activities comprise anti-inflammatory activity, vasodilator effects, migration/invasion-suppressive activities, ability against damage due to remodeling between the epithelium and endothelium, collagen deposition and cardiac fibrosis suppress, Snail protein inhibitory effect, etc., which may improve cardiac, vasodilation, and lung functions. The RUT analogs disclosed herein also exhibit a lower cytotoxicity comparing to RUT.

Abstract: A barrier film includes at least one laminate to be disposed on a substrate. The laminate includes a modifying layer proximate to the substrate and at least one multi-layered barrier unit disposed on the modifying layer. The multi-layered barrier unit includes an aluminum oxide layer, a silicon oxide layer, and a zirconium oxide layer laminated to one another.

Abstract: A moisture barrier film, a moisture barrier device including the same and a method for preparing the moisture barrier device is provided. The moisture barrier film includes a hydrophobic modifying layer adapted to be formed on a substrate. The hydrophobic modifying layer is formed by solidification of a colloidal solution which includes a product obtained by subjecting a first trialkoxysilane having a hydrophobic group to a hydrolysis and condensation reaction with at least one of a second trialkoxysilane having a reactive group or a tetraalkoxysilane to form a polysilsesquioxane mixture, and subjecting the polysilsesquioxane mixture to modification with a metal source.

Abstract: The present invention provides RUT analogs with various biological activities. In particular, the biological activities comprise anti-inflammatory activity, vasodilator effects, migration/invasion-suppressive activities, ability against damage due to remodeling between the epithelium and endothelium, collagen deposition and cardiac fibrosis suppress, Snail protein inhibitory effect, etc., which may improve cardiac, vasodilation, and lung functions. The RUT analogs disclosed herein also exhibit a lower cytotoxicity comparing to RUT.

Abstract: The present invention provides RUT analogs with various biological activities. In particular, the biological activities comprise anti-inflammatory activity, vasodilator effects, migration/invasion-suppressive activities, ability against damage due to remodeling between the epithelium and endothelium, collagen deposition and cardiac fibrosis suppress, Snail protein inhibitory effect, etc., which may improve cardiac, vasodilation, and lung functions. The RUT analogs disclosed herein also exhibit a lower cytotoxicity comparing to RUT.

Abstract: The present invention provides RUT analogs with various biological activities. In particular, the biological activities comprise anti-inflammatory activity, vasodilator effects, migration/invasion-suppressive activities, ability against damage due to remodeling between the epithelium and endothelium, collagen deposition and cardiac fibrosis suppress. Snail protein inhibitory effect, etc., which may improve cardiac, vasodilation, and lung functions. The RUT analogs disclosed herein also exhibit a lower cytotoxicity comparing to RUT.

Abstract: Provided are a polymer composition on a substrate and a surface modification method which is non-selective to substrate materials. Chemical vapor deposition polymerization is used to deposit a maleimide-functionalized poly-p-xylylene coating on a substrate. The substrate is readily available to perform a thiol-maleimide coupling reaction under mild conditions so as to modify the surface thereof. Furthermore, through a tailored thiol-terminal molecule, a designer surface can be created via thiol-maleimide coupling on a substrate, and the resulting surface can exhibit various desired biological functions for biotechnological applications. Therefore, this modification technique can be applied to biological fields extensively.

Abstract: Provided are a polymer composition on a substrate and a surface modification method which is non-selective to substrate materials. Chemical vapor deposition polymerization is used to deposit a maleimide-functionalized poly-p-xylylene coating on a substrate. The substrate is readily available to perform a thiol-maleimide coupling reaction under mild conditions so as to modify the surface thereof. Furthermore, through a tailored thiol-terminal molecule, a designer surface can be created via thiol-maleimide coupling on a substrate, and the resulting surface can exhibit various desired biological functions for biotechnological applications. Therefore, this modification technique can be applied to biological fields extensively.

Abstract: A latent fluorophore is derived from salicylic acid, and containing a fluorogenic group and a moiety represented by formula I wherein the fluorogenic group is directly linked to the moiety of formula I or indirectly linked thereto via a linkage structure. In addition, a method of preparing a latent fluorophore, a method of using the same and a kit containing the same are also introduced.

Abstract: An electrolyte additive is selected from N-alkyl benzimidazole derivatives and is applicable to dye-sensitized solar cells. Accordingly, the electrolyte additive can be added to electrolyte at low concentration, and loss of function due to crystallization after long-term use can be prevented; in addition, short circuit photocurrent density and solar energy-to-electricity conversion efficiency of solar cells incorporating the electrolyte additive can be increased.

Abstract: A latent fluorophore is derived from salicylic acid, and containing a fluorogenic group and a moiety represented by formula I wherein the fluorogenic group is directly linked to the moiety of formula I or indirectly linked thereto via a linkage structure. In addition, a method of preparing a latent fluorophore, a method of using the same and a kit containing the same are also introduced.

Abstract: The present invention provides a sensitive fluorimetric indicator for analytes determination in the oxygen-insensitive DT-diaphorase-coupled dehydrogenases assay by omitting NADH, which is generated by reaction in the presence of analytes, which presents to the applicability as a biosensor for future clinical diagnostic. Furthermore, the novel long-wavelength latent fluorimetric indicator is also a user-friendly probe for monitoring DT-diaphorase activity. The fluorescence signal revealed by this process is specific and exhibited in the near red spectrum region.

Abstract: An electrolyte additive is selected from N-alkyl benzimidazole derivatives and is applicable to dye-sensitized solar cells. Accordingly, the electrolyte additive can be added to electrolyte at low concentration, and loss of function due to crystallization after long-term use can be prevented; in addition, short circuit photocurrent density and solar energy-to-electricity conversion efficiency of solar cells incorporating the electrolyte additive can be increased.

Abstract: The present invention provides a sensitive fluorimetric indicator for analytes determination in the oxygen-insensitive DT-diaphorase-coupled dehydrogenases assay by omitting NADH, which is generated by reaction in the presence of analytes, which presents to the applicability as a biosensor for future clinical diagnostic. Furthermore, the novel long-wavelength latent fluorimetric indicator is also a user-friendly probe for monitoring DT-diaphorase activity. The fluorescence signal revealed by this process is specific and exhibited in the near red spectrum region.