Dual-Mode Electro-photonic Silicon Biosensors [electronic resource] / by José Juan Colás.

За: Інтелектуальна відповідальність: Вид матеріалу: Текст Серія: Springer Theses, Recognizing Outstanding Ph.D. ResearchПублікація: Cham : Springer International Publishing : Imprint: Springer, 2017Видання: 1st ed. 2017Опис: XV, 149 p. 105 illus., 89 illus. in color. online resourceТип вмісту:
  • text
Тип засобу:
  • computer
Тип носія:
  • online resource
ISBN:
  • 9783319605012
Тематика(и): Додаткові фізичні формати: Printed edition:: Немає назви; Printed edition:: Немає назви; Printed edition:: Немає назвиДесяткова класифікація Дьюї:
  • 571.4 23
Класифікація Бібліотеки Конгресу:
  • QH505
Електронне місцезнаходження та доступ:
Вміст:
Introduction -- Fundamentals of Label-Free Biosensing -- Fabrication and Experimental Techniques -- The Electro-photonic Silicon Biosensor -- Study and Application of Electrografted Layers of Diazonium Ions -- Tailoring Light-matter Interaction for Quantification of Biological and Molecular Layers -- Conclusions and Outlook.
У: Springer eBooksЗведення: This highly interdisciplinary thesis reports ontwo innovative photonic biosensors that combine multiple simultaneous measurements to provide unique insights into the activity and structure of surface immobilized biological molecules. In addition, it presents a new silicon photonic biosensor that exploits two cascaded resonant sensors to provide two independent measurements of a biological layer immobilized on the surface. By combining these two measurements, it is possible to unambiguously quantify the density and thickness of the molecular layer; here, the approach’s ability to study molecular conformation and conformational changes in real timeis demonstrated. The electrophotonic biosensor integrates silicon photonics with electrochemistry into a single technology. This multi-modal biosensor provides a number of unique capabilities that extend the functionality of conventional silicon photonics. For example, by combining the complementary information revealed by simultaneous electrochemical and photonic measurements, it is possible to provide unique insights into on-surface electrochemical processes. Furthermore, the ability to create electrochemical reactions directly on the silicon surface provides a novel approach for engineering the chemical functionality of the photonic sensors. The electrophotonic biosensor thus represents a critical advance towards the development of very high-density photonic sensor arrays for multiplexed diagnostics.
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Introduction -- Fundamentals of Label-Free Biosensing -- Fabrication and Experimental Techniques -- The Electro-photonic Silicon Biosensor -- Study and Application of Electrografted Layers of Diazonium Ions -- Tailoring Light-matter Interaction for Quantification of Biological and Molecular Layers -- Conclusions and Outlook.

This highly interdisciplinary thesis reports ontwo innovative photonic biosensors that combine multiple simultaneous measurements to provide unique insights into the activity and structure of surface immobilized biological molecules. In addition, it presents a new silicon photonic biosensor that exploits two cascaded resonant sensors to provide two independent measurements of a biological layer immobilized on the surface. By combining these two measurements, it is possible to unambiguously quantify the density and thickness of the molecular layer; here, the approach’s ability to study molecular conformation and conformational changes in real timeis demonstrated. The electrophotonic biosensor integrates silicon photonics with electrochemistry into a single technology. This multi-modal biosensor provides a number of unique capabilities that extend the functionality of conventional silicon photonics. For example, by combining the complementary information revealed by simultaneous electrochemical and photonic measurements, it is possible to provide unique insights into on-surface electrochemical processes. Furthermore, the ability to create electrochemical reactions directly on the silicon surface provides a novel approach for engineering the chemical functionality of the photonic sensors. The electrophotonic biosensor thus represents a critical advance towards the development of very high-density photonic sensor arrays for multiplexed diagnostics.

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