Add to ORKGIn this work a novel room-temperature bonding technique based on chemically activated Fluorinated Ethylene Propylene (FEP) sheet as an intermediate between chemically activated substrates is presented. Surfaces of silicon and glass substrates are chemically modified with APTES bearing amine terminal groups, while FEP sheet surfaces are treated to form carboxyl groups and subsequently activated by means of EDC-NHS chemistry. The activation procedures of silicon, glass and FEP sheet are characterized by contact angle measurements and XPS. Robust bonds are created at room-temperature by simply pressing two amine-terminated substrates together with activated FEP sheet in between. Average tensile strengths of 5.9 MPa and 5.2 MPa are achieved for...
A novel technique for bonding heterogeneous cyclic olefin co-polymer (COC) to a thin poly(dimethylsi...
This paper researches temporary bonding/debonding based on propylene carbonate (PPC). The highest sh...
This paper reports a versatile and irreversible bonding method for poly(dimethylsiloxane) (PDMS) and...
In this work a novel room-temperature bonding technique based on chemically activated Fluorinated Et...
Room-temperature Si/Si wafer direct bonding has been achieved successfully without wet chemistry tre...
A novel technique for bonding polymer substrates using PDMS-interface bonding is presented in this p...
In the fields of MicroElectroMechanical Systems (MEMS) and Lab On a Chip (LOC), a device is often fa...
We report here on the results of experiments concerning particular bonding processes potentially use...
The production of a new class of microfluidic devices built from thermoplastic materials has recentl...
In this paper, we introduce a new bonding technology for the assembly of micro- structured glass sub...
This paper gives an overview about possibilities for wafer level encapsulation of surface micromachi...
In microsystems technologies, frequently complex structures consisting of structured or plain silico...
In this article, a novel Pyrex reflow bonding technology is introduced which bonds two functional un...
A low-cost bonding method based on propylene carbonate (PPC) is proposed for applications of three-d...
Localized heating and bonding techniques have been developed for hermetic and vacuum packaging of ME...
A novel technique for bonding heterogeneous cyclic olefin co-polymer (COC) to a thin poly(dimethylsi...
This paper researches temporary bonding/debonding based on propylene carbonate (PPC). The highest sh...
This paper reports a versatile and irreversible bonding method for poly(dimethylsiloxane) (PDMS) and...
In this work a novel room-temperature bonding technique based on chemically activated Fluorinated Et...
Room-temperature Si/Si wafer direct bonding has been achieved successfully without wet chemistry tre...
A novel technique for bonding polymer substrates using PDMS-interface bonding is presented in this p...
In the fields of MicroElectroMechanical Systems (MEMS) and Lab On a Chip (LOC), a device is often fa...
We report here on the results of experiments concerning particular bonding processes potentially use...
The production of a new class of microfluidic devices built from thermoplastic materials has recentl...
In this paper, we introduce a new bonding technology for the assembly of micro- structured glass sub...
This paper gives an overview about possibilities for wafer level encapsulation of surface micromachi...
In microsystems technologies, frequently complex structures consisting of structured or plain silico...
In this article, a novel Pyrex reflow bonding technology is introduced which bonds two functional un...
A low-cost bonding method based on propylene carbonate (PPC) is proposed for applications of three-d...
Localized heating and bonding techniques have been developed for hermetic and vacuum packaging of ME...
A novel technique for bonding heterogeneous cyclic olefin co-polymer (COC) to a thin poly(dimethylsi...
This paper researches temporary bonding/debonding based on propylene carbonate (PPC). The highest sh...
This paper reports a versatile and irreversible bonding method for poly(dimethylsiloxane) (PDMS) and...