Fluctuation theorem in the quantum Otto engine with long-range interaction.

The fluctuation of the quantum Otto engine has recently received a lot of attention, while applying the many body with a long-range interaction to a quantum heat engine may enhance our ability of controlling it. Using the two-point measurement and its generalization, we explore the fluctuation theorem of work and heat in a single stroke as well as in a cycle. We discover that the fluctuations of work in a cycle as well as fluctuations of heat in a single stroke or cycle can be connected to the fluctuation of work in a single stroke. Then we numerically investigate the effect of a long-range interaction on these fluctuation theorems, and our result shows that the fluctuation can be improved by manipulating the long-range interaction.

Development of a split G-quadruplex and DAPI-based fluorescent probe for Hg(II) and Pb(II) ions detection.

A novel thymine- and guanine-rich oligonucleotide (ODN-7) was engineered explicitly for the detection of Hg(II) and Pb(II) by a single intercalated dye 4',6-diamidinyl-2-phenylindole (DAPI). Upon the introduction of Hg(II), a rapid formation of T-Hg(II)-T base pairs takes place, triggering the assembly of a split G-quadruplex structure, resulting in a strong fluorescence signal due to DAPI intercalating into the T-Hg(II)-T mismatch. The introduction of Pb(II) initiates an interaction with the split G-quadruplex, causing a significant conformational change in its structure. Consequently, the altered split G-quadruplex structure fails to facilitate the insertion of DAPI into the T-Hg(II)-T complexes, leading to fluorescence quenching. This strategy offers a straightforward means of detecting Hg(II) and Pb(II). Leveraging the split G-quadruplex, the ODN-7 sensor enables the detection limits (3σ) for Hg(II) and Pb(II) to reach an impressive low of 0.39 nM and 4.98 nM, respectively. It exhibited a favorable linear range of 0.39-900 nM for Hg(II) detection (R2 = 0.9993) and 4.98 nM-5 µM for Pb(II) determination (R2 = 0.9953), respectively. Furthermore, the proposed sensor had excellent selectivity for detecting Hg(II) and Pb(II). It was used in milk samples containing mixed Hg(II) and Pb(II) solutions, yielding recovery rates of 99.3-103.8% for Hg(II) detection and 100.1-104.1% for Pb(II) detection.

Recent Aptamer-Based Biosensors for Cd2+ Detection.

Cd2+, a major environmental pollutant, is heavily toxic to human health. Many traditional techniques are high-cost and complicated; thus, developing a simple, sensitive, convenient, and cheap monitoring approach is necessary. The aptamer can be obtained from a novel method called SELEX, which is widely used as a DNA biosensor for its easy acquisition and high affinity of the target, especially for heavy metal ions detection, such as Cd2+. In recent years, highly stable Cd2+ aptamer oligonucleotides (CAOs) were observed, and electrochemical, fluorescent, and colorimetric biosensors based on aptamers have been designed to monitor Cd2+. In addition, the monitoring sensitivity of aptamer-based biosensors is improved with signal amplification mechanisms such as hybridization chain reactions and enzyme-free methods. This paper reviews approaches to building biosensors for inspecting Cd2+ by electrochemical, fluorescent, and colorimetric methods. Finally, many practical applications of sensors and their implications for humans and the environment are discussed.

[Main components in different varieties of Xihuangcao by UPLC-Q-TOF-MS and UPLC-DAD].

This study established an ultra-high performance liquid chromatography coupled with quadrupole-time-of-flight mass spectrometry(UPLC-Q-TOF-MS) method to analyze the main components in different varieties of Xihuangcao and established a UPLC-DAD method to simultaneously determine the five active components(caffeic acid, rosmarinic acid, schaftoside, isoschaftoside, and oridonin).The chromatographic separation was performed on a Waters ACQUITY UPLC BEH C_(18) column(2.1 mm×100 mm, 1.7 µm) with a gradient elution of methanol(B)-water containing 0.1% formic acid(A) at a flow rate of 0.3 mL·min~(-1).The column temperature was 30 ℃.The Q-TOF-MS discriminant analysis was performed under positive electrospray ion mode and the split ratio was 1∶1. Quantitative analysis was carried out by UPLC-DAD.The determination wavelength was set at 245 nm.Thirty-two main components of Xihuangcao were separated and identified by UPLC-Q-TOF-MS, where 19 were identified in Rabdosia serra, nine in R.nervosa, 10 in R.lophanthoides, 15 in R.lophanthoides var.graciliflora, 10 in R.lophanthoides var.gerardianus, and seven in R.stracheyi.The UPLC-DVD method was developed for simultaneously determining five active components in different varieties of Xihuangcao.The standard curves for five compounds showed good linearity with correlation coefficients higher than 0.999 0.The precision, repeatability, and stability were good.The average recoveries(n=6) were between 97.01% and 102.7% with RSD<3.0%.The results of UPLC-Q-TOF-MS analysis provided a scientific basis for the use of R.stracheyi as a medicinal material of Xihuangcao and the equivalent use of R.lophanthoides var.gerardianus with R.lophanthoides var.graciliflora to some extent.The UPLC-DAD method for simultaneously determining five active components is simple, rapid, and accurate.This study can provide the basis for the quality control of different varieties of Xihuangcao.

Work Measurement in OPEN Quantum System.

Work is an important quantity in thermodynamics. In a closed quanutm system, the two-point energy measurements can be applied to measure the work but cannot be utilized in an open quantum system. With the two-point energy measurements, it has been shown that the work fluctuation satisfies the Jarzynski equality. We propose a scheme to measure the work in an open quantum system through the technique of reservoir engineering. Based on this scheme, we show that the work fluctuation in open quantum system may violate the Jarzynski equality. We apply our scheme to a two-level atom coupled to an engineered reservoir and numerically justify the general results, especially demonstrating that the second law of thermodynamics can be violated.

Quenching dissipative quantum Ising chain: an exact result for nonequilibrium dynamics.

To create a more comprehensive understanding of nonequilibrium dynamics of open quantum many-body systems, we visit an exactly solvable example, that is a quenched transverse-field Ising chain coupled to Markovian baths, which act locally on the Jordan-Wigner fermionic space. Performing explicit calculations on the heat transfer, transverse magnetization, and kink density, we find that the imbalance of two opposite damping mechanisms play a crucial role in constructing a nontrivial nonequilibrium steady state accompanied with a dissipative quantum phase transition, also that the competition between unitary drive and decoherence does not necessarily lead to a quasi-stationary state or prethermalization under certain ordinary relaxation.