A method of etching an electrically conductive layer structure during manufacturing a component carrier is provided. The method includes subjecting the electrically conductive layer structure to an etching composition having an etchant and a photosensitive compound to thereby form a recess in the electrically conductive layer structure; while, at least for a part of time, irradiating and/or heating the recess. In addition, an apparatus for etching an electrically conductive layer structure during manufacturing a component carrier, an etched electrically conductive layer structure and a component carrier are provided.

The present disclosure provides a two component releasable thermal gel that is useful in transferring heat from heat generating electronic devices, such as computer chips, to heat dissipating structures, such as heat spreaders and heat sinks. The two component releasable thermal gel is mixed before the point of application and facilitates catalytic cross-linking. The thermal gel includes a first component including a primary silicone oil, an inhibitor, a catalyst, and at least one thermally conductive filler, and a second component including a primary silicone oil, a cross linking silicone oil, and at least one thermally conductive filler, wherein the ratio of total content of SiH groups to total content of vinyl groups in the thermal gel is between 0.03 to 10. The thermal gel is releasable from a substrate upon which the thermal gel is applied.

Techniques and mechanisms for bonding structures of a circuit device with a monolayer. In an embodiment, a patterned metallization layer or a first dielectric layer includes a first surface portion. The first surface portion is exposed to first molecules which each include a first head group and a first end group which is substantially non-reactive with the first head group. The first head groups attach to the first portion to form a first self-assembled monolayer, which is subsequently reacted with second molecules to form a second monolayer comprising moieties of the first molecules. In another embodiment, the first head group comprises a first moiety comprising a sulfur atom or a nitrogen atom, where the first end group comprises one of an acid moiety, an acid anhydride moiety, an aliphatic alcohol moiety, an aromatic alcohol moiety, or an unsaturated hydrocarbon moiety.

An electrically conductive paste contains: metal nanoparticles which are protected by an organic compound containing an amino group and have an average particle diameter of 30 nm to 400 nm; metal particles which are protected by a higher fatty acid and have an average particle diameter of 1 m to 5 m; an organic solvent; and a resin component consisting of a cellulose derivative. A conductor obtained by firing the electrically conductive paste has a film thickness of 30 m or more and a specific resistance of 5.010.sup.6 .Math.cm or less. In this way, the electrically conductive paste can reduce the resistance of the obtained conductor and to increase the amount of current flowing. A wiring board includes a conductor obtained from the electrically conductive paste.

A method for manufacturing traces of a printed circuit board (PCB) comprises an application of the periodic pulse reverse (PPR) pattern plating process. In the first stage, walls and bottoms in drilled holes of the PCB are modified with reduced graphene oxide (rGO) so that the vias can be formed by filling with copper and a very thin copper layer can be formed on the substrate through the electroplating process. In the second stage, a pattern of very fine traces with width/space less than 30/30 m is formed on the thin copper layer and then the traces are formed through the PPR pattern plating process. After removing unwanted copper layer, the traces with even thicknesses and square profiles are achieved and thus conform to requirements of the high density interconnection (HDI) technology.

A method of encapsulating an electronic assembly comprises disposing a plurality of electrically non-conductive particles on a substrate which carries one or more components of the electronic assembly; introducing a reactive parylene monomer in a vapor form into interstitial spaces among the plurality of the electrically non-conductive particles; and forming a parylene binder in the interstitial spaces of the electrically non-conductive particles from the reactive parylene monomer.

The present disclosure provides a two component releasable thermal gel that is useful in transferring heat from heat generating electronic devices, such as computer chips, to heat dissipating structures, such as heat spreaders and heat sinks. The two component releasable thermal gel is mixed before the point of application and facilitates catalytic cross-linking. The thermal gel includes a first component including a primary silicone oil, an inhibitor, a catalyst, and at least one thermally conductive filler, and a second component including a primary silicone oil, a cross linking silicone oil, and at least one thermally conductive filler, wherein the ratio of total content of SiH groups to total content of vinyl groups in the thermal gel is between 0.03 to 10. The thermal gel is releasable from a substrate upon which the thermal gel is applied.

A printed electric circuit comprises a printed planar substrate. The printed planar surface comprises one or more traces integrated into the printed planar structure. The one or more traces comprise a hydrophilic additive to create ion reservoirs within an organic semiconductor layer.

A substrate includes a substrate body, a flux coating portion which is coated with flux promoting solder fluidity on a surface of the substrate body, a conduction portion which is disposed on the surface of the substrate body to be separated from the flux coating portion and is conductive, and a silk portion which is disposed between the flux coating portion and the conduction portion on the surface of the substrate body and is provided by silk printing.

[Problem] Provided is a composite member which can contribute to simple formation and/or increased quality of fine wiring. [Solution] A composite member 100 according to one embodiment of the present invention includes a base material, an aliphatic polycarbonate-containing layer with multiple island-shaped portions arranged on the base material, and a metal ink, wherein at least a surface of the aliphatic polycarbonate-containing layer with multiple island-shaped portions has a contact angle of 50 or more between pure water and the surface when exposed to ultraviolet light including a wavelength of 180 nm or more and 370 nm or less for 15 minutes, and the metal ink is arranged on the base material at at least a portion of a region sandwiched by the precursor layers.