We regret to announce that there is an error in one of fund numbers in the acknowledgements of the paper titled“Saturated Cavity Ring-Down Spectroscopy of ^(12)C^(16)O_(2) near 1.57μm”due to the author’s typing er...We regret to announce that there is an error in one of fund numbers in the acknowledgements of the paper titled“Saturated Cavity Ring-Down Spectroscopy of ^(12)C^(16)O_(2) near 1.57μm”due to the author’s typing errors.The acknowledgements were published in Chin.J.Chem.Phys.37,17(2024).展开更多
Threshold photoelectron-photoion coincidence (TPEPICO) is a powerful method to prepare and analyze internal energy- or state-selected ions. Here, we review the state-of-the-art TPEPICO imaging technique combining with...Threshold photoelectron-photoion coincidence (TPEPICO) is a powerful method to prepare and analyze internal energy- or state-selected ions. Here, we review the state-of-the-art TPEPICO imaging technique combining with tunable vacuum ultraviolet (VUV) synchrotron radiation and its recent applications at Hefei Light Source (HLS), especially on the fundamental data measurement and the dissociation dynamics of ions. By applying the double velocity map imaging for both electrons and ions in coincidence, the collection efficiency of the charged particles, the electron energy resolution and the resolving power of the released kinetic energy in dissociation have been greatly improved. The kinetic energy and the angular distributions of fragment ions dissociated from parent ions with definitive internal energy or state have been acquired directly from TPEPICO images. Some dissociation mechanisms involving non-adiabatic quantum effects, like conical intersection and internal conversion, have been revealed. Moreover, the mass-selected threshold photoelectron spectroscopy (MS-TPES) shows tremendous advantages in isomer-specific analysis of complex systems.展开更多
Electron transfer (ET) reactions between 1,8-dihydroxyanthraquinone (DHAQ) and two DNA bases, adenine (A) and cytosine (C), have been investigated in CH3CN/H20 solution with nanosecond time-resolved laser flas...Electron transfer (ET) reactions between 1,8-dihydroxyanthraquinone (DHAQ) and two DNA bases, adenine (A) and cytosine (C), have been investigated in CH3CN/H20 solution with nanosecond time-resolved laser flash photolysis. After irradiation at 355 nm, the triplet DHAQ is produced via intersystem crossing and reacts with two nucleobases. ET processes for both reactions have been definitely identified, in which two bases play a significant role of electron donor. Based on the measured decay dynamics of various intermediates and the corresponding quenching rates, an initial ET process followed by a secondary proton-transfer reaction is suggested for both the overall reactions. By plotting the observed quenching rate against the concentration of two DNA bases, the bimolecular quenching rate constants are determined as 9.0-10s L/(mol.s) for the 3DHAQ*+C reaction and 3.3x10^8 L/(mol.s) for the 3DHAQ*+A reaction, respectively.展开更多
Raman spectra of 1,2,4-triazole-3-carboxylate (TC- anion) and its ring-deprotonated deriva- tive (dpTC2- dianion) in aqueous solutions were measured respectively. The density func- tional theory calculations were perf...Raman spectra of 1,2,4-triazole-3-carboxylate (TC- anion) and its ring-deprotonated deriva- tive (dpTC2- dianion) in aqueous solutions were measured respectively. The density func- tional theory calculations were performed using MN15 functional and PCM solvent model to investigate their structures, as well as the vibrational frequencies and Raman intensi- ties. With the aid of the calculated spectra, all the observed Raman bands of dpTC2- were clearly assigned, with taking into account the deuteration shifts. Moreover, various protonic tautomers of TC- anion were compared in the present theoretical calculations, and 2H- tautomer was found more stable. The experimental Raman spectrum of TC- solution was roughly consistent with the calculated spectrum of the monomeric 2H-tautomer of TC-, but some splits existed for a few bands when compared to the calculated spectra, which might be contributed by the hydrogen-bonding dimers of TC-.展开更多
Combining Raman spectroscopy with density functional theory, the populations of the trans- and gaucheethanol conformers are investigated in carbon tetrachloride (CC14) and carbon disulfide (CS2). The spectral cont...Combining Raman spectroscopy with density functional theory, the populations of the trans- and gaucheethanol conformers are investigated in carbon tetrachloride (CC14) and carbon disulfide (CS2). The spectral contributions of two ethanol conformers are identified in OH stretching region. The energy difference between both conformers is estimated with the aid of the calculated Raman cross sections. It can be seen that the trans- ethanol is more stable in CC14 and CS2 solutions. The spectra are also obtained at different temperatures, and it is found the van't Hoff analysis is invalid in these solutions. By taking accounts of the Boltzmann distribution and theoretical Raman cross section, the energy difference is found to be increased with temperature, which shows the weak intermolecular interactions can enhance the population of transethanol.展开更多
Understanding the inuence of nanoparticles on the formation of protein amyloid brillation is cru-cial to extend their application in related biological diagnosis and nanomedicines.In this work,Ra-man spectroscopy was ...Understanding the inuence of nanoparticles on the formation of protein amyloid brillation is cru-cial to extend their application in related biological diagnosis and nanomedicines.In this work,Ra-man spectroscopy was used to probe the amyloid brillation of hen egg-white lysozyme in the pres-ence of silver nanoparticles(Ag-NPs)at di erent concentrations,combined with atomic force mi-croscopy and thioavin T(ThT)uorescence assays.Four representative Raman indicators were utilized to monitor transformation of the protein tertiary and secondary structures at the molecular level:the Trp doublet bands at 1340 and 1360 cm^(-1),the disul de stretching vibrational peak at 507 cm^(-1),the N-Cα-C stretching vibration at 933 cm^(-1),and the amide I band.All experimental results con rmed the concentration-dependent inuence of AgNPs on the hen egg-white lysozyme amyloid brillation kinetics.In the presence of AgNPs at low concentration(17μg/mL),electrostatic interaction of the nanoparticles stabilizes disul de bonds,and protects the Trp residues from exposure to hydrophilic environment,thus leading to formation of amorphous aggregates rather than brils.However,with the action of AgNPs at high concentration(1700μg/mL),the native disul de bonds of hen egg-white lysozyme are broken to form Ag-S bonds owing to the competition of electrostatic interaction from a great deal of nanoparticles.As for providing functional surfaces for protein to interact with,AgNPs play a bridge role in direct transformation from-helices to organized-sheets.The present investigation sheds light on the controversial e ects of AgNPs on the kinetics of hen egg-white lysozyme amyloid brillation.展开更多
The absorption spectra of acetylene molecules was measured under jet-cooled conditions in the wavelength range of 142.8-152.3 nm, with a tunable and highly resolved vacuum ultraviolet (VUV) laser generated by two-ph...The absorption spectra of acetylene molecules was measured under jet-cooled conditions in the wavelength range of 142.8-152.3 nm, with a tunable and highly resolved vacuum ultraviolet (VUV) laser generated by two-photon resonant four wave difference frequency mixing processes. Due to the sufficient vibrational and rotational cooling effect of the molecular beam and the higher resolution VUV laser, the observed absorption spectra exhibit more distinct spectral features than the previous works measured at room temperature. The major three vibrational bands are assigned as a C-C symmetry stretching vibrational progress (v2=0.2) of the C^1Πu state of acetylene. The observed shoulder peak at 148,2 nm is assigned to the first overtone band of the trans-bending mode V4 of the C^1Πu state of acetylene. Additionally, the two components, 4^20(μ^1Π) and 4^20(k^1Πu), are suggested to exhibit in the present absorption spectra, due to their Renner-Teller effect and transition selection rule. All band origins and bandwidths are obtained subsequently, and it is found that bandwidths are broadened and lifetimes decrease gradually with the excitation of vibration.展开更多
A light-induced,nickel-catalyzed three-component arylsulfonation of 1,3-enynes in the absence of photocatalyst is reported.This methodology exhibited mild conditions,broad scope and high efficiency,and its synthetic u...A light-induced,nickel-catalyzed three-component arylsulfonation of 1,3-enynes in the absence of photocatalyst is reported.This methodology exhibited mild conditions,broad scope and high efficiency,and its synthetic utility has been demonstrated by a concise total synthesis of sulfone-containing drug molecule.Detailed mechanistic studies indicated that this light induced nickel catalysis is autopromoted by in situ produced allene,which plays a key role as co-ligand in the photoactive excited state Ni(Ⅰ)species for the LMCT process.The detailed elucidation of this light-induced nickel catalytic cycle may shed some lights on the exploitation of new catalytic activity and establishment of novel methods.展开更多
基金jointly supported by the National Natural Science Foundation of China(No.22273093,No.41905018,No.21903080)the Ministry of Science and Technology of China(No.2022YFF0606500)。
文摘We regret to announce that there is an error in one of fund numbers in the acknowledgements of the paper titled“Saturated Cavity Ring-Down Spectroscopy of ^(12)C^(16)O_(2) near 1.57μm”due to the author’s typing errors.The acknowledgements were published in Chin.J.Chem.Phys.37,17(2024).
基金supported by the Instrument Developing Project of the Chinese Academy of Sciences (No.YZ200763)the National Natural Science Foundation of China (No.21027005, No.21573210 and No.21873089)+2 种基金the National Key Research and Development program (No.2016YFF0200502)the National Key Basic Research Foundation (No.2013CB834602)the Chinese Postdoctoral Foundation (No.2018M632535)
文摘Threshold photoelectron-photoion coincidence (TPEPICO) is a powerful method to prepare and analyze internal energy- or state-selected ions. Here, we review the state-of-the-art TPEPICO imaging technique combining with tunable vacuum ultraviolet (VUV) synchrotron radiation and its recent applications at Hefei Light Source (HLS), especially on the fundamental data measurement and the dissociation dynamics of ions. By applying the double velocity map imaging for both electrons and ions in coincidence, the collection efficiency of the charged particles, the electron energy resolution and the resolving power of the released kinetic energy in dissociation have been greatly improved. The kinetic energy and the angular distributions of fragment ions dissociated from parent ions with definitive internal energy or state have been acquired directly from TPEPICO images. Some dissociation mechanisms involving non-adiabatic quantum effects, like conical intersection and internal conversion, have been revealed. Moreover, the mass-selected threshold photoelectron spectroscopy (MS-TPES) shows tremendous advantages in isomer-specific analysis of complex systems.
文摘Electron transfer (ET) reactions between 1,8-dihydroxyanthraquinone (DHAQ) and two DNA bases, adenine (A) and cytosine (C), have been investigated in CH3CN/H20 solution with nanosecond time-resolved laser flash photolysis. After irradiation at 355 nm, the triplet DHAQ is produced via intersystem crossing and reacts with two nucleobases. ET processes for both reactions have been definitely identified, in which two bases play a significant role of electron donor. Based on the measured decay dynamics of various intermediates and the corresponding quenching rates, an initial ET process followed by a secondary proton-transfer reaction is suggested for both the overall reactions. By plotting the observed quenching rate against the concentration of two DNA bases, the bimolecular quenching rate constants are determined as 9.0-10s L/(mol.s) for the 3DHAQ*+C reaction and 3.3x10^8 L/(mol.s) for the 3DHAQ*+A reaction, respectively.
基金supported by the National Natural Science Foundation of China (No.21573208, No.21573210, and No.21873089)the National Key Basic Research Foundation of China (No.2013CB834602)
文摘Raman spectra of 1,2,4-triazole-3-carboxylate (TC- anion) and its ring-deprotonated deriva- tive (dpTC2- dianion) in aqueous solutions were measured respectively. The density func- tional theory calculations were performed using MN15 functional and PCM solvent model to investigate their structures, as well as the vibrational frequencies and Raman intensi- ties. With the aid of the calculated spectra, all the observed Raman bands of dpTC2- were clearly assigned, with taking into account the deuteration shifts. Moreover, various protonic tautomers of TC- anion were compared in the present theoretical calculations, and 2H- tautomer was found more stable. The experimental Raman spectrum of TC- solution was roughly consistent with the calculated spectrum of the monomeric 2H-tautomer of TC-, but some splits existed for a few bands when compared to the calculated spectra, which might be contributed by the hydrogen-bonding dimers of TC-.
文摘Combining Raman spectroscopy with density functional theory, the populations of the trans- and gaucheethanol conformers are investigated in carbon tetrachloride (CC14) and carbon disulfide (CS2). The spectral contributions of two ethanol conformers are identified in OH stretching region. The energy difference between both conformers is estimated with the aid of the calculated Raman cross sections. It can be seen that the trans- ethanol is more stable in CC14 and CS2 solutions. The spectra are also obtained at different temperatures, and it is found the van't Hoff analysis is invalid in these solutions. By taking accounts of the Boltzmann distribution and theoretical Raman cross section, the energy difference is found to be increased with temperature, which shows the weak intermolecular interactions can enhance the population of transethanol.
基金This work was supported by the National Natu-ral Science Foundation of China(No.22073088 and No.21873089).
文摘Understanding the inuence of nanoparticles on the formation of protein amyloid brillation is cru-cial to extend their application in related biological diagnosis and nanomedicines.In this work,Ra-man spectroscopy was used to probe the amyloid brillation of hen egg-white lysozyme in the pres-ence of silver nanoparticles(Ag-NPs)at di erent concentrations,combined with atomic force mi-croscopy and thioavin T(ThT)uorescence assays.Four representative Raman indicators were utilized to monitor transformation of the protein tertiary and secondary structures at the molecular level:the Trp doublet bands at 1340 and 1360 cm^(-1),the disul de stretching vibrational peak at 507 cm^(-1),the N-Cα-C stretching vibration at 933 cm^(-1),and the amide I band.All experimental results con rmed the concentration-dependent inuence of AgNPs on the hen egg-white lysozyme amyloid brillation kinetics.In the presence of AgNPs at low concentration(17μg/mL),electrostatic interaction of the nanoparticles stabilizes disul de bonds,and protects the Trp residues from exposure to hydrophilic environment,thus leading to formation of amorphous aggregates rather than brils.However,with the action of AgNPs at high concentration(1700μg/mL),the native disul de bonds of hen egg-white lysozyme are broken to form Ag-S bonds owing to the competition of electrostatic interaction from a great deal of nanoparticles.As for providing functional surfaces for protein to interact with,AgNPs play a bridge role in direct transformation from-helices to organized-sheets.The present investigation sheds light on the controversial e ects of AgNPs on the kinetics of hen egg-white lysozyme amyloid brillation.
基金This work was supported by the National Natu- ral Science Foundation of China (No.20533070 and No.20603033), the National Key Basic Research Special Foundation (No.2007CB815204), and the Natural Science Foundation of Anhui Province, China (No.070415214). The authors also thank Prof. D. Gauyacq for providing their experimental data pub- lished in Ref.[23].
文摘The absorption spectra of acetylene molecules was measured under jet-cooled conditions in the wavelength range of 142.8-152.3 nm, with a tunable and highly resolved vacuum ultraviolet (VUV) laser generated by two-photon resonant four wave difference frequency mixing processes. Due to the sufficient vibrational and rotational cooling effect of the molecular beam and the higher resolution VUV laser, the observed absorption spectra exhibit more distinct spectral features than the previous works measured at room temperature. The major three vibrational bands are assigned as a C-C symmetry stretching vibrational progress (v2=0.2) of the C^1Πu state of acetylene. The observed shoulder peak at 148,2 nm is assigned to the first overtone band of the trans-bending mode V4 of the C^1Πu state of acetylene. Additionally, the two components, 4^20(μ^1Π) and 4^20(k^1Πu), are suggested to exhibit in the present absorption spectra, due to their Renner-Teller effect and transition selection rule. All band origins and bandwidths are obtained subsequently, and it is found that bandwidths are broadened and lifetimes decrease gradually with the excitation of vibration.
基金supported by the National Science Foundation of China(21602213,21971228)。
文摘A light-induced,nickel-catalyzed three-component arylsulfonation of 1,3-enynes in the absence of photocatalyst is reported.This methodology exhibited mild conditions,broad scope and high efficiency,and its synthetic utility has been demonstrated by a concise total synthesis of sulfone-containing drug molecule.Detailed mechanistic studies indicated that this light induced nickel catalysis is autopromoted by in situ produced allene,which plays a key role as co-ligand in the photoactive excited state Ni(Ⅰ)species for the LMCT process.The detailed elucidation of this light-induced nickel catalytic cycle may shed some lights on the exploitation of new catalytic activity and establishment of novel methods.
