Background: To explore the relationship between acute stress, social support and sleep disorder in grass-root military personnel, and construct the relational model through structural equation modeling. Methods: A tot...Background: To explore the relationship between acute stress, social support and sleep disorder in grass-root military personnel, and construct the relational model through structural equation modeling. Methods: A total of 2,411 grass-root military personnel were randomly selected by cluster sampling, and administered the Chinese Military Personnel Sleep Disorder Scale, Military Acute Stress Scale and Social Support Rating Scale.Results: The total score of acute stress scale was positively correlated with the total score and factor scores of sleep disorder scale(r=0.209~0.465, P【0.01); The total score of social support scale was positively correlated with the total score of acute stress scale and the total score and factor scores of sleep disorder scale(r=0.356~0.537, P【0.01). The analysis of mediating effects showed that lack of social support partially mediated between acute stress and the factors of sleep disorder. The analysis of structural equation model showed that acute stress not only had a direct effect on sleep disorder(the path coefficient was 0.29, P=0.000), but also on lack of social support(the path coefficient was 0.39, P=0.000); lack of social support had a direct effect on sleep disorder(the path coefficient was 0.48, P=0.000).Conclusions: Acute stress and lack of social support are two significant factors of sleep disorder in grass-root military personnel. Well-established social support could alleviate sleep disorder induced by acute stress. Lack of social support was a partial mediator between acute stress and sleep disorder.展开更多
Owing to the importance of excited state dynamical relaxation, the excited state intramolecular proton transfer(ESIPT) mechanism for a novel compound containing dual hydrogen bond(abbreviated as "1-enol") is...Owing to the importance of excited state dynamical relaxation, the excited state intramolecular proton transfer(ESIPT) mechanism for a novel compound containing dual hydrogen bond(abbreviated as "1-enol") is studied in this work.Using density functional theory(DFT) and time-dependent density functional theory(TDDFT) method, the experimental electronic spectra can be reproduced for 1-enol compound. We first verify the formation of dual intramolecular hydrogen bonds, and then confirm that the dual hydrogen bond should be strengthened in the first excited state. The photo-excitation process is analyzed by using frontier molecular orbital(HOMO and LUMO) for 1-enol compound. The obvious intramolecular charge transfer(ICT) provides the driving force to effectively facilitate the ESIPT process in the S1 state. Exploration of the constructed S0-state and S1-state potential energy surface(PES) reveals that only the excited state intramolecular single proton transfer occurs for 1-enol system, which makes up for the deficiencies in previous experiment.展开更多
In this work, we theoretically probe into the photo-induced hydrogen bonding effects between S0 state and S1 state as well as the excited state intramolecular proton transfer(ESIPT) behavior for a novel 2-[1,3]dithian...In this work, we theoretically probe into the photo-induced hydrogen bonding effects between S0 state and S1 state as well as the excited state intramolecular proton transfer(ESIPT) behavior for a novel 2-[1,3]dithian-2-yl-6-(7aH-indol-2-yl)-phenol(DIP) probe system. We first study the ground-state hydrogen bonding O–H··· N behavior for DIP. Then we analyze the primary geometrical parameters(i.e., bond length, bond angle, and infrared(IR) stretching vibrational mode)involved in hydrogen bond, and confirm that the O–H··· N of DIP should be strengthened in the first excited state. It is the significant prerequisite for ESIPT reaction. Combining the frontier molecular orbitals(MOs) with vertical excitation analyses, the intramolecular charge transfer(ICT) phenomenon can be found for the DIP system, which reveals that the charge redistribution facilitates ESIPT behavior. By constructing potential energy curves for DIP along the ESIPT reactional orientation, we obtain quite a small energy barrier(3.33 kcal/mol) and affirmed that the DIP molecule undergoes ultrafast ESIPT process once it is excited to the S1 state and quickly transfers its proton, forming DIP-keto tautomer. That is why no fluorescence of DIP can be observed in experiment, which further reveals the ultrafast ESIPT mechanism proposed in this work.展开更多
The swelling behavior of 20% cold-worked 15-15Ti steels with (0.23-0.40) wt% titanium and (0.42-0.81) wt% silicon content after heavy-ion beam irradiation has been investigated by transmission electron microscopy....The swelling behavior of 20% cold-worked 15-15Ti steels with (0.23-0.40) wt% titanium and (0.42-0.81) wt% silicon content after heavy-ion beam irradiation has been investigated by transmission electron microscopy. The results show that 15-15Ti steel with higher titanium content displays lower swelling. As silicon content increases, the cavity size and the swelling of the 15-15Ti steels decrease obviously. Titanium and silicon may play important roles in suppressing the cavity nucleation and growth in 15-15Ti steel.展开更多
To the Editor: Although multifetal pregnancies are common, monozygotic triplets (MZTs) remain a relatively rare occurrence. MZT gestations present patients and physicians with a dilemma because the continuation of ...To the Editor: Although multifetal pregnancies are common, monozygotic triplets (MZTs) remain a relatively rare occurrence. MZT gestations present patients and physicians with a dilemma because the continuation of the pregnancy can seriously threaten the health of both the mother and fetuses, while selective fetal reduction carries the risk of losing all the fetuses and is associated with a high risk of obstetric complications, especially prematurity (〉90%). Here, we present two cases of MZT after in vitro fertilization (IVF).展开更多
基金supported by the special fund of applied military mental health project of the China, the Prevention and Treatment Centre for Psychological Diseases of PLA in the PLA 102nd Hospital, Public Health Division of Joint Logistics Department of Nanjing Military Command
文摘Background: To explore the relationship between acute stress, social support and sleep disorder in grass-root military personnel, and construct the relational model through structural equation modeling. Methods: A total of 2,411 grass-root military personnel were randomly selected by cluster sampling, and administered the Chinese Military Personnel Sleep Disorder Scale, Military Acute Stress Scale and Social Support Rating Scale.Results: The total score of acute stress scale was positively correlated with the total score and factor scores of sleep disorder scale(r=0.209~0.465, P【0.01); The total score of social support scale was positively correlated with the total score of acute stress scale and the total score and factor scores of sleep disorder scale(r=0.356~0.537, P【0.01). The analysis of mediating effects showed that lack of social support partially mediated between acute stress and the factors of sleep disorder. The analysis of structural equation model showed that acute stress not only had a direct effect on sleep disorder(the path coefficient was 0.29, P=0.000), but also on lack of social support(the path coefficient was 0.39, P=0.000); lack of social support had a direct effect on sleep disorder(the path coefficient was 0.48, P=0.000).Conclusions: Acute stress and lack of social support are two significant factors of sleep disorder in grass-root military personnel. Well-established social support could alleviate sleep disorder induced by acute stress. Lack of social support was a partial mediator between acute stress and sleep disorder.
基金Project supported by the National Natural Science Foundation of China(Grant No.11404112)the Funding Scheme for Young Teachers in Colleges and Universities in Henan Province,China(Grant No.2017GGJS077)the Key Scientific Research Project of Colleges and Universities of Henan Province,China(Grant No.18A140023)
文摘Owing to the importance of excited state dynamical relaxation, the excited state intramolecular proton transfer(ESIPT) mechanism for a novel compound containing dual hydrogen bond(abbreviated as "1-enol") is studied in this work.Using density functional theory(DFT) and time-dependent density functional theory(TDDFT) method, the experimental electronic spectra can be reproduced for 1-enol compound. We first verify the formation of dual intramolecular hydrogen bonds, and then confirm that the dual hydrogen bond should be strengthened in the first excited state. The photo-excitation process is analyzed by using frontier molecular orbital(HOMO and LUMO) for 1-enol compound. The obvious intramolecular charge transfer(ICT) provides the driving force to effectively facilitate the ESIPT process in the S1 state. Exploration of the constructed S0-state and S1-state potential energy surface(PES) reveals that only the excited state intramolecular single proton transfer occurs for 1-enol system, which makes up for the deficiencies in previous experiment.
基金Project supported by the National Natural Science Foundation of China(Grant No.11574083).
文摘In this work, we theoretically probe into the photo-induced hydrogen bonding effects between S0 state and S1 state as well as the excited state intramolecular proton transfer(ESIPT) behavior for a novel 2-[1,3]dithian-2-yl-6-(7aH-indol-2-yl)-phenol(DIP) probe system. We first study the ground-state hydrogen bonding O–H··· N behavior for DIP. Then we analyze the primary geometrical parameters(i.e., bond length, bond angle, and infrared(IR) stretching vibrational mode)involved in hydrogen bond, and confirm that the O–H··· N of DIP should be strengthened in the first excited state. It is the significant prerequisite for ESIPT reaction. Combining the frontier molecular orbitals(MOs) with vertical excitation analyses, the intramolecular charge transfer(ICT) phenomenon can be found for the DIP system, which reveals that the charge redistribution facilitates ESIPT behavior. By constructing potential energy curves for DIP along the ESIPT reactional orientation, we obtain quite a small energy barrier(3.33 kcal/mol) and affirmed that the DIP molecule undergoes ultrafast ESIPT process once it is excited to the S1 state and quickly transfers its proton, forming DIP-keto tautomer. That is why no fluorescence of DIP can be observed in experiment, which further reveals the ultrafast ESIPT mechanism proposed in this work.
基金supported from the National Natural Science Foundation of China(Grant Nos.11005158 and 9112600)the National major project of science and technology(Grant No.2012ZX06004-005-005)
文摘The swelling behavior of 20% cold-worked 15-15Ti steels with (0.23-0.40) wt% titanium and (0.42-0.81) wt% silicon content after heavy-ion beam irradiation has been investigated by transmission electron microscopy. The results show that 15-15Ti steel with higher titanium content displays lower swelling. As silicon content increases, the cavity size and the swelling of the 15-15Ti steels decrease obviously. Titanium and silicon may play important roles in suppressing the cavity nucleation and growth in 15-15Ti steel.
文摘To the Editor: Although multifetal pregnancies are common, monozygotic triplets (MZTs) remain a relatively rare occurrence. MZT gestations present patients and physicians with a dilemma because the continuation of the pregnancy can seriously threaten the health of both the mother and fetuses, while selective fetal reduction carries the risk of losing all the fetuses and is associated with a high risk of obstetric complications, especially prematurity (〉90%). Here, we present two cases of MZT after in vitro fertilization (IVF).
