Fandom

VroniPlag Wiki

Tim/Fragment 072 18

< Tim

31.268Seiten in
diesem Wiki
Seite hinzufügen
Diskussion0 Share

Störung durch Adblocker erkannt!


Wikia ist eine gebührenfreie Seite, die sich durch Werbung finanziert. Benutzer, die Adblocker einsetzen, haben eine modifizierte Ansicht der Seite.

Wikia ist nicht verfügbar, wenn du weitere Modifikationen in dem Adblocker-Programm gemacht hast. Wenn du sie entfernst, dann wird die Seite ohne Probleme geladen.


Typus
KomplettPlagiat
Bearbeiter
SleepyHollow02
Gesichtet
Yes.png
Untersuchte Arbeit:
Seite: 72, Zeilen: 18-32
Quelle: Shang Dong 2008
Seite(n): 1569, Zeilen: l.col, 1 ff.
There is an enormous demand for optical sensors in many areas, such as the environmental monitoring, industrial and food processing, healthcare, biomedical technology, and clinical analysis, where high sensitivity and ease of operation are two main issues (Shi et al., 2004; Jeronimo et al., 2007). Fluorescence technique can easily fulfill both requirements and has been widely applied in the fields of chemical sensing and biosensing (Jiang and Guo, 2004; Prodi, 2005; Lim and Lippard, 2007). In the design of fluorescence-based sensors, the fluorescence probes remain a key determinant to the future success of the sensor. Therefore, the development of fluorescence probes has been a long-term and attractive topic among the scientists (Callan et al., 2005; Demchenko, 2005). In this regard, many kinds of fluorophores have been developed, and already been applied in the sensors design. Unfortunately, the performance of these established fluorescent sensors are greatly limited by using the conventional fluorescence probes. For instance, organic fluorophores, which are most commonly used in fluorescence technique, suffer from low brightness and poor photostability, which lead to reduced sensitivity and stability of the sensor (Zhou and Zhou, 2004; [Demchenko, 2005; Prodi, 2005).] There is an enormous demand for optical sensors in many areas, such as the environmental monitoring, industrial and food processing, healthcare, biomedical technology, and clinical analysis, where high sensitivity and ease of operation are two main issues (Shi et al., 2004; Jeronimo et al., 2007). Fluorescence technique can easily fulfill both requirements and has been widely applied in the fields of chemical sensing and biosensing (Jiang and Guo, 2004; Prodi, 2005; Lim and Lippard, 2007). In the design of fluorescence-based sensors, the fluorescence probes remain a key determinant to the future success of the sensor. Therefore, the development of fluorescence probes has been a long-term and attractive topic among the scientists (Callan et al., 2005; Demchenko, 2005). In this regard, many kinds of fluorophores have been developed, and already been applied in the sensors design. Unfortunately, the performance of these established fluorescent sensors are greatly limited by using the conventional fluorescence probes. For instance, organic fluorophores, which are most commonly used in fluorescence technique, suffer from low brightness and poor photostability, which lead to reduced sensitivity and stability of the sensor (Zhou and Zhou, 2004; Demchenko, 2005; Prodi, 2005).
Anmerkungen

The source is not mentioned anywhere.

Sichter
(SleepyHollow02), Hindemith

Auch bei Fandom

Zufälliges Wiki