Quantum dots as platforms for charge transfer-based biosensing: challenges and opportunities

Algar W. Russ; Stewart Michael H.; Scott Amy M.; Moon Woohyun J.; Medintz Igor L.

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Quantum dots as platforms for charge transfer-based biosensing: challenges and opportunities

机译：量子点作为基于电荷转移的生物传感平台：挑战与机遇

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Semiconductor quantumdots (QDs) have received significant attention as unique photoluminescent materials for biological imaging and sensing. Charge transfer (CT) modulation of QD emission has recently emerged as a promising detection modality in these applications; however, much still remains unknown about the mechanism through which an electron or hole transfers from a QD exciton to a redox active moiety in a bioconjugate construct. Here, we highlight the utility and challenges of CT for QD-based biosensing, particularly in comparison to Forster resonance energy transfer (FRET), and summarize the current understanding of this process, which is situated at the intersection between biological and photovoltaic research with QDs.

机译：半导体量子点（QD）作为用于生物成像和传感的独特光致发光材料已受到广泛关注。在这些应用中，QD发射的电荷转移（CT）调制近来已成为一种有前途的检测方式。然而，关于电子或空穴从QD激子转移到生物缀合物构建体中的氧化还原活性部分的机理仍然未知。在这里，我们重点介绍了CT在基于QD的生物传感中的实用性和挑战，特别是与Forster共振能量转移（FRET）相比，并总结了对该过程的当前理解，该理解位于具有QD的生物和光伏研究之间。

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《Journal of Materials Chemistry, B. materials for biology and medicine》 |2014年第45期|共12页
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Algar W. Russ; Stewart Michael H.; Scott Amy M.; Moon Woohyun J.; Medintz Igor L.;
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中图分类分析化学;
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1. Quantum dots as platforms for charge transfer-based biosensing: challenges and opportunities [J] . Algar W. Russ, Stewart Michael H., Scott Amy M., Journal of Materials Chemistry, B. materials for biology and medicine . 2014,第45期

机译：量子点作为基于电荷转移的生物传感平台：挑战与机遇
2. Ti_3C_2 MXene quantum dots/TiO_2 inverse opal heterojunction electrode platform for superior photoelectrochemical biosensing [J] . Chen Xu, Lia Jing, Pan Gencai, Sensors and Actuators . 2019,第JUNa期

机译：Ti_3C_2 MXene量子点/ TiO_2反蛋白石异质结电极平台，可提供出色的光电化学生物传感
3. Ti_3C_2 MXene quantum dots/TiO_2 inverse opal heterojunction electrode platform for superior photoelectrochemical biosensing [J] . Chen Xu, Lia Jing, Pan Gencai, Sensors and Actuators . 2019,第Juna期

机译：TI_3C_2 MXENE量子点/ TIO_2逆蛋白石异质结电极平台，用于优质光电化学生物传感
4. Using Metal Complex-Labeled Peptides for Charge Transfer-Based Biosensing with Semiconductor Quantum Dots [C] . Igor L. Medintz, Thomas Pons, Scott A. Trammell, Colloidal quantum dots for biomedical applications IV . 2009

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5. Quantum Computation: High-fidelity Quantum Gates on Quantum Dot Qubits in the Presence of 1/F Charge Noise Using Strong Drives, Numerical and Analytical Analysis [D] . Yang, Yuan-Chi. 2019

机译：量子计算：量子点上的高保真量子门在使用强大的驱动器，数值和分析分析的1 / F充电噪声存在下的Qubbits。
6. Carbon Dots and Graphene Quantum Dots in Electrochemical Biosensing [O] . Susana Campuzano, Paloma Yáñez-Sedeño, José M. Pingarrón 2019

机译：电化学生物传感中的碳点和石墨烯量子点
7. Ultrasensitive biosensing platform based on luminescence quenching ability of fullerenol quantum dots [O] . Hui Li, Hua Pang, Liangxiao Zhang, 2021

机译：基于富勒烯酚量子点的发光淬火能力的超敏感生物沉积平台
8. Quantum Dot / Optical Protein Bio-Nano Hybrid System for Biosensing Applications [R] . Griep, M., Lueking, D., Mackay, R., 2008

机译：用于生物传感应用的量子点/光学蛋白生物纳米混合系统

Quantum dots as platforms for charge transfer-based biosensing: challenges and opportunities

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