Add to ORKGWe present a free-standing and flexible parylene-channel PCR device that allows a simple sealing mechanism to prevent bubbling caused by PCR temperature cycling. This sealing mechanism saves complicated, time-consuming in-channel valve fabrication processes and achieves excellent sealing performance. It is proven experimentally that this new PCR device plus its unique packaging is capable of locking PCR solution in the PCR chamber at 95°C for at least 5 hours without bubbling and leaking. As a result, we have successfully obtained the on chip PCR amplification without the bubble and leaking problem
A new micromachined circulating polymerase chain reaction ( PCR) chip is reported in this study. A n...
DoctorA parallel-processing four-station polymerase chain reaction (PCR) device has been developed, ...
We report a practical world-to-chip microfluidic interfacing method with built-in valves suitable fo...
We report here a novel chamber-sealing valve that is self-actuated by pressure change during the cyc...
On-chip polymerase chain reaction (PCR) is beginning to provide a viable alternative to conventional...
Polymerase chain reaction (PCR) has been one of the principal techniques of molecular biology and di...
Due to the difficulty in sample introduction, the presence of air bubbles and the complicated fabric...
In this thesis, a novel concept of rapid sub-microliter polymerase chain reaction (PCR) device is pr...
The polymerase chain reaction (PCR) is a powerful biochemical assay that is used in virtually all bi...
It is desirable that in analytical microfluidic systems such as chip-based liquid chromatography tha...
The polytetrafluoroethylene ( PTFE ) capillary-based continuous-flow polymerase chain reaction ( PCR...
Abstract Sensitive identification of the etiology of viral diseases is key to implementing appropria...
Here we reported a novel technology using parylene-cross-linking structure to achieve on-chip air-ga...
Sensitive identification of the etiology of viral diseases is key to implementing appropriate preven...
We present here a novel microchamber sealing valve that is self-actuated by a pressure change during...
A new micromachined circulating polymerase chain reaction ( PCR) chip is reported in this study. A n...
DoctorA parallel-processing four-station polymerase chain reaction (PCR) device has been developed, ...
We report a practical world-to-chip microfluidic interfacing method with built-in valves suitable fo...
We report here a novel chamber-sealing valve that is self-actuated by pressure change during the cyc...
On-chip polymerase chain reaction (PCR) is beginning to provide a viable alternative to conventional...
Polymerase chain reaction (PCR) has been one of the principal techniques of molecular biology and di...
Due to the difficulty in sample introduction, the presence of air bubbles and the complicated fabric...
In this thesis, a novel concept of rapid sub-microliter polymerase chain reaction (PCR) device is pr...
The polymerase chain reaction (PCR) is a powerful biochemical assay that is used in virtually all bi...
It is desirable that in analytical microfluidic systems such as chip-based liquid chromatography tha...
The polytetrafluoroethylene ( PTFE ) capillary-based continuous-flow polymerase chain reaction ( PCR...
Abstract Sensitive identification of the etiology of viral diseases is key to implementing appropria...
Here we reported a novel technology using parylene-cross-linking structure to achieve on-chip air-ga...
Sensitive identification of the etiology of viral diseases is key to implementing appropriate preven...
We present here a novel microchamber sealing valve that is self-actuated by a pressure change during...
A new micromachined circulating polymerase chain reaction ( PCR) chip is reported in this study. A n...
DoctorA parallel-processing four-station polymerase chain reaction (PCR) device has been developed, ...
We report a practical world-to-chip microfluidic interfacing method with built-in valves suitable fo...