In one aspect, the present disclosure provides organic semiconductors (OSNTs) as well as high-performance electrochemical devices based on the present OSNTs for the production of micro and nano-scale actuators. The present OSNTs may be used in several applications, including movable and implantable interface devices, such as flexible neural microelectrodes. Also provided herein are flexible neural microelectrodes based on conjugated polymer actuators

In one aspect, the present disclosure provides organic semiconductors (OSNTs) as well as high-performance electrochemical devices based on the present OSNTs for the production of micro and nano-scale actuators. The present OSNTs may be used in several applications, including movable and implantable interface devices, such as flexible neural microelectrodes. Also provided herein are flexible neural microelectrodes based on conjugated polymer actuators

Provided is a method of using an aptamer for detecting a glycated hemoglobin in a whole blood, the method includes that the aptamer is provided, the aptamer includes a DNA sequence selected from the group consisting of derived sequences of SEQ ID NOs: 1, 2, 3, and 4, in which the derived sequences refer to that 3′ end and/or 5′ end of the derived sequences are modified, and the derived sequences have 90% identity to the SEQ ID NOs: 1, 2, 3, and 4. The aptamer and the whole blood are contacted. A concentration of a conjugate of the aptamer and the glycated hemoglobin is estimated. Provided also is a nanoelectronic aptasensor including the above aptamer.

A method is provided for producing metal hybrid graphene. The method includes providing a ball mill chamber filled with inert gas and metal balls; inserting graphene, nanographite, and nanosized transition metal; into the chamber; turning the chamber; and extracting the metal hybrid graphene. The transition metal is at least one of nickel, copper, cobalt, tungsten, iron, chromium and/or manganese.

A fuel cell assembly includes multiple fuel cells that are electrically coupled. Each fuel cell includes an electrolyte, an anode, and a cathode that can be fabricated from decorated or non-decorated carbon particles. The carbon particles can be produced by a methane dissociating reactor that converts methane into solid carbon and hydrogen. The electrolyte particles form an electrolyte structure that has a pattern of grooves on the anode and cathode facing surfaces. The electrolyte structure is sintered with microwave energy to fuse the adjacent electrolyte particles at contact points. The anode and cathode layers are deposited on opposite sides of the electrolyte and sintered. The anode and cathode layers are then processed to form multiple electrically fuel cells. The anode layers of the fuel cells are electrically coupled with interconnects to cathode layers of the adjacent fuel cells.

A method for removing contaminants from a gas stream including contacting a gas stream comprising hydrocarbons and sulfur contaminants with a modified nanocomposite adsorbent. Also provided are compositions and processes for forming compositions of a modified nanocomposite adsorbent composition for removing sulfur contaminants from a hydrocarbon stream. Additionally, provided is system for removing sulfur impurities from a gaseous hydrocarbon stream, where the system includes a plurality of adsorbent vessels arranged in series, where the adsorbent vessels include an emulsion of a modified nanocomposite adsorbent composition.

Textile article comprising a textile substrate to which graphene is applied in an amount from 0.5 to 20 g of graphene per square meter of textile substrate, wherein said graphene is dispersed in a polymeric binder and forms a thermal circuit heatable by exposure to electromagnetic radiation. There is also described a filter comprising said textile article, for example a face mask for personal health protection.

Textile article comprising a textile substrate to which graphene is applied in an amount from 0.5 to 20 g of graphene per square meter of textile substrate, wherein said graphene is dispersed in a polymeric binder and forms a thermal circuit heatable by exposure to electromagnetic radiation. There is also described a filter comprising said textile article, for example a face mask for personal health protection.

Methods for fabricating stamps and systems for patterning a substrate, and devices resulting from those methods are provided.

Methods for fabricating stamps and systems for patterning a substrate, and devices resulting from those methods are provided.