Chunhua Ge scite author profile

We study the Doppler-broadened absorption of a weak monochromatic probe beam in a thermal rubidium vapour cell on the D lines. A detailed model of the susceptibility is developed which takes into account the absolute linestrengths of the allowed electric dipole transitions and the motion of the atoms parallel to the probe beam. All transitions from both hyperfine levels of the ground term of both isotopes are incorporated. The absorption and refractive index as a function of frequency are expressed in terms of the complementary error function. The absolute absorption profiles are compared with experiment, and are found to be in excellent agreement provided a sufficiently weak probe beam with an intensity under one thousandth of the saturation intensity is used. The importance of hyperfine pumping for open transitions is discussed in the context of achieving the weak-probe limit. Theory and experiment show excellent agreement, with an rms error better than 0.2% for the D 2 line at 16.5 • C.

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Enhancing Luminol Electrochemiluminescence by Combined Use of Cobalt-Based Metal Organic Frameworks and Silver Nanoparticles and Its Application in Ultrasensitive Detection of Cardiac Troponin I

Wang

et al. 2019

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Electrochemiluminescence (ECL) has emerged as one of the most important methods for in vitro diagnosis and detection, but it is still limited in sensitivity for ultrasensitive biodetections. Fast and ultrasensitive detection of biomolecules is critical, especially for the clinical detection of cardiac troponin I (cTnI) for cardiac infarction diagnosis. In this study, an effective tactic was developed to enhance ECL efficiency of the luminol system, by combined use of Co 2+ -based metal organic frameworks (MOF), zeolitic imidazolate frameworks (ZIF-67), and luminolcapped Ag nanoparticles (luminol-AgNPs). The integration leads to a pronounced ∼115-fold enhancement in luminol ECL. On the basis of this fascinating sensing platform, a robust label-free ECL immunosensor was constructed for ultrasensitive detection of cTnI, the main marker of myocardial infarction, with good stability and a detection limit as low as 0.58 fg mL −1 (S/N = 3).

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How can graphene reduce the flammability of polymer nanocomposites?

Huang¹,

Gao²,

Xu³

et al. 2012

Materials Letters

175

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Coating of multi-walled carbon nanotube with SnO2 films of controlled thickness and its application for Li-ion battery

Wang

Xia

2008

Journal of Power Sources

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[Mn^III(salen)]₆[Fe^III(bpmb)(CN)₂]₆⋅7 H₂O: A Cyanide‐Bridged Nanosized Molecular Wheel

et al. 2005

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Chunhua Ge

Absolute absorption on rubidium D lines: comparison between theory and experiment

Enhancing Luminol Electrochemiluminescence by Combined Use of Cobalt-Based Metal Organic Frameworks and Silver Nanoparticles and Its Application in Ultrasensitive Detection of Cardiac Troponin I

How can graphene reduce the flammability of polymer nanocomposites?

Coating of multi-walled carbon nanotube with SnO2 films of controlled thickness and its application for Li-ion battery

[Mn^III(salen)]₆[Fe^III(bpmb)(CN)₂]₆⋅7 H₂O: A Cyanide‐Bridged Nanosized Molecular Wheel

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Chunhua Ge

Absolute absorption on rubidium D lines: comparison between theory and experiment

Enhancing Luminol Electrochemiluminescence by Combined Use of Cobalt-Based Metal Organic Frameworks and Silver Nanoparticles and Its Application in Ultrasensitive Detection of Cardiac Troponin I

How can graphene reduce the flammability of polymer nanocomposites?

Coating of multi-walled carbon nanotube with SnO2 films of controlled thickness and its application for Li-ion battery

[MnIII(salen)]6[FeIII(bpmb)(CN)2]6⋅7 H2O: A Cyanide‐Bridged Nanosized Molecular Wheel

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[Mn^III(salen)]₆[Fe^III(bpmb)(CN)₂]₆⋅7 H₂O: A Cyanide‐Bridged Nanosized Molecular Wheel