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Your search keyword '"Higashi, Masahiro"' showing total 559 results
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559 results on '"Higashi, Masahiro"'

1. Probing exciton dynamics with spectral selectivity through the use of quantum entangled photons

Author

Fujihashi, Yuta, Miwa, Kuniyuki, Higashi, Masahiro, and Ishizaki, Akihito

Subjects
Physics - Chemical Physics, Quantum Physics
Abstract

Quantum light is increasingly recognized as a promising resource for developing optical measurement techniques. Particular attention has been paid to enhancing the precision of the measurements beyond classical techniques by using nonclassical correlations between quantum entangled photons. Recent advances in quantum optics technology have made it possible to manipulate the spectral and temporal properties of entangled photons, and the photon correlations can facilitate the extraction of matter information with relatively simple optical systems compared to conventional schemes. In these respects, the applications of entangled photons to time-resolved spectroscopy can open new avenues for unambiguously extracting information on dynamical processes in complex molecular and materials systems. Here, we propose time-resolved spectroscopy in which specific signal contributions are selectively enhanced by harnessing the nonclassical correlations of entangled photons. The entanglement time characterizes the mutual delay between an entangled twin and determines the spectral distribution of the photon correlations. The entanglement time plays a dual role as the knob for controlling the accessible time region of dynamical processes and the degrees of spectral selectivity. In this sense, the role of the entanglement time is substantially equivalent to the temporal width of the classical laser pulse. The results demonstrate that the application of quantum entangled photons to time-resolved spectroscopy leads to monitoring dynamical processes in complex molecular and materials systems by selectively extracting desired signal contributions from congested spectra. We anticipate that more elaborately engineered photon states would broaden the availability of quantum light spectroscopy., Comment: 12+10 pages, 6+4 figures

Published
2022
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3. Myocardial fat accumulation is associated with cardiac dysfunction in patients with type 2 diabetes, especially in elderly or female patients: a retrospective observational study

Author

Kashiwagi-Takayama, Risa, Kozawa, Junji, Hosokawa, Yoshiya, Kato, Sarasa, Kawata, Satoshi, Ozawa, Harutoshi, Mineo, Ryohei, Ishibashi, Chisaki, Baden, Megu Y., Iwamoto, Ryuya, Saisho, Kenji, Fujita, Yukari, Tamba, Sachiko, Sugiyama, Takuya, Nishizawa, Hitoshi, Maeda, Norikazu, Yamamoto, Koji, Higashi, Masahiro, Yamada, Yuya, Sakata, Yasushi, Matsuzawa, Yuji, and Shimomura, Iichiro

Published
2023
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8. Intramolecular Vibrations Complement the Robustness of Primary Charge Separation in a Dimer Model of the Photosystem II Reaction Center

Author

Fujihashi, Yuta, Higashi, Masahiro, and Ishizaki, Akihito

Subjects
Physics - Chemical Physics
Abstract

The energy conversion of oxygenic photosynthesis is triggered by primary charge separation in proteins at the photosystem II reaction center. Here, we investigate the impacts of the protein environment and intramolecular vibrations on primary charge separation at the photosystem II reaction center. This is accomplished by combining the quantum dynamic theories of condensed phase electron transfer with quantum chemical calculations to evaluate the vibrational Huang-Rhys factors of chlorophyll and pheophytin molecules. We report that individual vibrational modes play a minor role in promoting the charge separation, contrary to the discussion in recent publications. Nevertheless, these small contributions accumulate to considerably influence the charge separation rate, resulting in sub-picosecond charge separation almost independent of the driving force and temperature. We suggest that the intramolecular vibrations complement the robustness of the charge separation in the photosystem II reaction center against the inherently large static disorder of the involved electronic energies., Comment: 9 pages

Published
2018
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9. Site-Dependent Fluctuations Optimize Electronic Energy Transfer in the Fenna–Matthews–Olson Protein

Author

Saito, Shinji, Higashi, Masahiro, and Fleming, Graham R

Subjects
Chemical Sciences, Physical Chemistry, Theoretical and Computational Chemistry, Affordable and Clean Energy, Bacterial Proteins, Bacteriochlorophylls, Chlorobi, Energy Transfer, Light-Harvesting Protein Complexes, Molecular Dynamics Simulation, Photosynthesis, Protein Structure, Quaternary, Quantum Theory, Physical Sciences, Engineering, Chemical sciences, Physical sciences
Abstract

Light absorbed by light-harvesting antennae is transferred to the reaction center (RC). The excitation energy transfer (EET) to the RC is known to proceed with nearly perfect quantum yield. However, understanding of EET is still limited at the molecular level. Here, we examine the dynamics in the Fenna-Matthews-Olson (FMO) protein by developing an efficient molecular dynamics simulation that can properly describe the electronic properties of bacteriochlorophylls. We find that the FMO protein consists of sites with heterogeneous fluctuations extending from fast to slow modulation. We also find that efficient EETs are facilitated by site-dependent fluctuations that enhance the resonance condition between neighboring sites with large site energy differences and circumvent exciton trapping on the pathway to the RC. Knowledge of site-dependent fluctuations is an important component of understanding optimization of EET in photosynthetic systems.

Published
2019

10. Probing exciton dynamics with spectral selectivity through the use of quantum entangled photons.

Author

Fujihashi, Yuta, Miwa, Kuniyuki, Higashi, Masahiro, and Ishizaki, Akihito

Subjects
PHOTON correlation, PHOTONS, TIME-resolved spectroscopy, QUANTUM networks (Optics), OPTICAL measurements, QUANTUM optics, QUANTUM correlations, LASER pulses, PHOTON pairs
Abstract

Quantum light is increasingly recognized as a promising resource for developing optical measurement techniques. Particular attention has been paid to enhancing the precision of the measurements beyond classical techniques by using nonclassical correlations between quantum entangled photons. Recent advances in the quantum optics technology have made it possible to manipulate spectral and temporal properties of entangled photons, and photon correlations can facilitate the extraction of matter information with relatively simple optical systems compared to conventional schemes. In these respects, the applications of entangled photons to time-resolved spectroscopy can open new avenues for unambiguously extracting information on dynamical processes in complex molecular and materials systems. Here, we propose time-resolved spectroscopy in which specific signal contributions are selectively enhanced by harnessing nonclassical correlations of entangled photons. The entanglement time characterizes the mutual delay between an entangled twin and determines the spectral distribution of photon correlations. The entanglement time plays a dual role as the knob for controlling the accessible time region of dynamical processes and the degrees of spectral selectivity. In this sense, the role of the entanglement time is substantially equivalent to the temporal width of the classical laser pulse. The results demonstrate that the application of quantum entangled photons to time-resolved spectroscopy leads to monitoring dynamical processes in complex molecular and materials systems by selectively extracting desired signal contributions from congested spectra. We anticipate that more elaborately engineered photon states would broaden the availability of quantum light spectroscopy. [ABSTRACT FROM AUTHOR]

Published
2023
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11. Rational design of metal–organic cages to increase the number of components via dihedral angle control.

Author

Abe, Tsukasa, Takeuchi, Keisuke, Higashi, Masahiro, Sato, Hirofumi, and Hiraoka, Shuichi

Subjects
DIHEDRAL angles, GEOMETRIC analysis, LIGANDS (Chemistry), PROBLEM solving, IONS
Abstract

The general principles of discrete, large self-assemblies composed of numerous components are not unveiled and the artificial formation of such entities is a challenging topic. In metal–organic cages, design strategies for tuning the coordination directions in multitopic ligands by the bend and twist angles were previously developed to solve this problem. In this study, the importance of remote geometric communications between components is emphasized, realizing several types of metal–organic assemblies based on dihedral angle control in multitopic ligands although they have the same coordination directions. Self-assembly of a tritopic ligand with dihedral angles θ = 36.5° and a cis-protected Pd(II) ion affords M9L6 and M12L8 cages as kinetic and thermodynamic products, respectively, whereas an M12L8 sheet is formed when θ = 90°. Geometric analyses of strains in the subcomponent rings reveals that remote geometric communications among neighboring multitopic ligands through coordination bonds are key for large assemblies. General design principles for self-assembly of discrete, large metal-organic cages composed of numerous components are challenging to develop. Here, the authors use remote geometric communications between components to realize several types of metal–organic assemblies based on dihedral angle control in multitopic ligands. [ABSTRACT FROM AUTHOR]

Published
2024
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16. Vibrational Frequency Fluctuations of Ionic and Non-ionic Vibrational Probe Molecules in Aqueous Solutions

Author

Okuda, Masaki, Higashi, Masahiro, Ohta, Kaoru, Saito, Shinji, Tominaga, Keisuke, Lotsch, H.K.V, Founding Editor, Rhodes, William T., Editor-in-Chief, Adibi, Ali, Series Editor, Asakura, Toshimitsu, Series Editor, Hänsch, Theodor W., Series Editor, Krausz, Ferenc, Series Editor, Masters, Barry R., Series Editor, Venghaus, Herbert, Series Editor, Weber, Horst, Series Editor, Weinfurter, Harald, Series Editor, Midorikawa, Katsumi, Series Editor, and Cho, Minhaeng, editor

Published
2019
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19. Reference interaction site model self-consistent field with constrained spatial electron density approach for nuclear magnetic shielding in solution.

Author

Imamura, Kosuke, Yokogawa, Daisuke, Higashi, Masahiro, and Sato, Hirofumi

Subjects
CHEMICAL shift (Nuclear magnetic resonance), ELECTRON density, RADIATION shielding, MAGNETIC shielding, NUCLEAR density, QUANTUM chemistry
Abstract

We propose a new hybrid approach combining quantum chemistry and statistical mechanics of liquids for calculating the nuclear magnetic resonance (NMR) chemical shifts of solvated molecules. Based on the reference interaction site model self-consistent field with constrained spatial electron density distribution (RISM–SCF–cSED) method, the electronic structure of molecules in solution is obtained, and the expression for the nuclear magnetic shielding tensor is derived as the second-order derivative of the Helmholtz energy of the solution system. We implemented a method for calculating chemical shifts and applied it to an adenine molecule in water, where hydrogen bonding plays a crucial role in electronic and solvation structures. We also performed the calculations of 17O chemical shifts, which showed remarkable solvent dependence. While converged results could not be sometimes obtained using the conventional method, in the present framework with RISM–SCF–cSED, an adequate representation of electron density is guaranteed, making it possible to obtain an NMR shielding constant stably. This introduction of cSED is key to extending the method's applicability to obtain the chemical shift of various chemical species. The present demonstration illustrates our approach's superiority in terms of numerical robustness and accuracy. [ABSTRACT FROM AUTHOR]

Published
2022
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20. Extraction of local spin-coupled states by second quantized operators.

Author

Nakatani, Kaho, Higashi, Masahiro, and Sato, Hirofumi

Subjects
*WAVE functions, *RING formation (Chemistry), *CHEMICAL bonds, *CHEMICAL reactions, *BIORTHOGONAL systems, *STATISTICAL correlation, *RESONANCE
Abstract

We present a methodology for analyzing chemical bonds embedded in the electronic wave function of molecules, especially in terms of spin correlations or so-called "local spin." In this paper, based on biorthogonal second quantization, the spin correlation functions of molecules are naturally introduced, which enables us to extract local singlet and local triplet elements from the wave function. We also clarify the relationship between these spin correlations and traditional chemical concepts, i.e., resonance structures. Several chemical reactions, including the intramolecular radical cyclization and the formation of preoxetane, are demonstrated to verify the analysis method numerically. [ABSTRACT FROM AUTHOR]

Published
2022
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23. Excited states of chlorophyll a and b in solution by time-dependent density functional theory.

Author

Zhu, Zhe, Higashi, Masahiro, and Saito, Shinji

Subjects
*TIME-dependent density functional theory, *CHLOROPHYLL, *EXCITED states, *ENERGY transfer, *CHLOROPHYLL spectra, *ELECTRON delocalization, *DENSITY functional theory
Abstract

The ground state and excited state electronic properties of chlorophyll (Chl) a and Chl b in diethyl ether, acetone, and ethanol solutions are investigated using quantum mechanical and molecular mechanical calculations with density functional theory (DFT) and time-dependent DFT (TDDFT). Although the DFT/TDDFT methods are widely used, the electronic structures of molecules, especially large molecules, calculated with these methods are known to be strongly dependent on the functionals and the parameters used in the functionals. Here, we optimize the range-separated parameter, μ, of the CAM-B3LYP functional of Chl a and Chl b to reproduce the experimental excitation energy differences of these Chl molecules in solution. The optimal values of μ for Chl a and Chl b are smaller than the default value of μ and that for bacteriochlorophyll a, indicating the change in the electronic distribution, i.e., an increase in electron delocalization, within the molecule. We find that the electronic distribution of Chl b with an extra formyl group is different from that of Chl a. We also find that the polarity of the solution and hydrogen bond cause the decrease in the excitation energies and the increase in the widths of excitation energy distributions of Chl a and Chl b. The present results are expected to be useful for understanding the electronic properties of each pigment molecule in a local heterogeneous environment, which will play an important role in the excitation energy transfer in light-harvesting complex II. [ABSTRACT FROM AUTHOR]

Published
2022
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30. Correction to “Site-Dependent Fluctuations Optimize Electronic Energy Transfer in the Fenna–Matthews–Olson Protein”

Author

Saito, Shinji, Higashi, Masahiro, and Fleming, Graham R

Subjects
Chemical Sciences, Physical Chemistry, Theoretical and Computational Chemistry, Affordable and Clean Energy, Physical Sciences, Engineering, Chemical sciences, Physical sciences
Abstract

Revised Table 1 is provided. (Table Presented). The Supporting Information is available free of charge at https://pubs.acs.org/doi/10.1021/acs.jpcb.9b11080. Revised Table S1 of exciton energies and eigenfunctions (PDF).

Published
2019

32. Free Energy and Solvation Structure Analysis for Adsorption of Aromatic Molecules at Pt(111)/Water Interface by 3D-RISM Theory

Author

Takamatsu, Akihiko, Higashi, Masahiro, and Sato, Hirofumi

Subjects
Chemisorption, General Chemistry, Solid-liquid interface, 3D-RISM
Abstract

The free energy change of aromatic molecules adsorbed at a Pt(111)/water interface was analyzed using the three-dimensional reference interaction site model (3D-RISM) theory with density functional theory (DFT), compared with the reported experimental data. The changes in the solvation structure induced by molecular adsorption were discussed.

Published
2022

34. An emissive charge-transfer excited-state at the well-defined hetero-nanostructure interface of an organic conjugated molecule and two-dimensional inorganic nanosheet

Author

Umeyama, Tomokazu, Mizutani, Daizu, Ikeda, Yuki, Osterloh, W. Ryan, Yamamoto, Futa, Kato, Kosaku, Yamakata, Akira, Higashi, Masahiro, Urakami, Takumi, Sato, Hirofumi, Imahori, Hiroshi, Umeyama, Tomokazu, Mizutani, Daizu, Ikeda, Yuki, Osterloh, W. Ryan, Yamamoto, Futa, Kato, Kosaku, Yamakata, Akira, Higashi, Masahiro, Urakami, Takumi, Sato, Hirofumi, and Imahori, Hiroshi

Abstract

Precise engineering of excited-state interactions between an organic conjugated molecule and a two-dimensional semiconducting inorganic nanosheet, specifically the manipulation of charge-transfer excited (CTE) states, still remains a challenge for state-of-the-art photochemistry. Herein, we report a long-lived, highly emissive CTE state at structurally well-defined hetero-nanostructure interfaces of photoactive pyrene and two-dimensional MoS2 nanosheets via an N-benzylsuccinimide bridge (Py-Bn-MoS2). Spectroscopic measurements reveal that no charge-transfer state is formed in the ground state, but the locally-excited (LE) state of pyrene in Py-Bn-MoS2 efficiently generates an unusual emissive CTE state. Theoretical studies elucidate the interaction of MoS2 vacant orbitals with the pyrene LE state to form a CTE state that shows a distinct solvent dependence of the emission energy. This is the first example of organic-inorganic 2D hetero-nanostructures displaying mixed luminescence properties by an accurate design of the bridge structure, and therefore represents an important step in their applications for energy conversion and optoelectronic devices and sensors.

Published
2023

36. Triglyceride deposit cardiomyovasculopathy: a rare cardiovascular disorder

Author

Li, Ming, Hirano, Ken-ichi, Ikeda, Yoshihiko, Higashi, Masahiro, Hashimoto, Chikako, Zhang, Bo, Kozawa, Junji, Sugimura, Koichiro, Miyauchi, Hideyuki, Suzuki, Akira, Hara, Yasuhiro, Takagi, Atsuko, Ikeda, Yasuyuki, Kobayashi, Kazuhiro, Futsukaichi, Yoshiaki, Zaima, Nobuhiro, Yamaguchi, Satoshi, Shrestha, Rojeet, Nakamura, Hiroshi, Kawaguchi, Katsuhiro, Sai, Eiryu, Hui, Shu-Ping, Nakano, Yusuke, Sawamura, Akinori, Inaba, Tohru, Sakata, Yasuhiko, Yasui, Yoko, Nagasawa, Yasuyuki, Kinugawa, Shintaro, Shimada, Kazunori, Yamada, Sohsuke, Hao, Hiroyuki, Nakatani, Daisaku, Ide, Tomomi, Amano, Tetsuya, Naito, Hiroaki, Nagasaka, Hironori, Kobayashi, Kunihisa, and on behalf of the Japan TGCV study group

Published
2019
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39. An emissive charge-transfer excited-state at the well-defined hetero-nanostructure interface of an organic conjugated molecule and two-dimensional inorganic nanosheet

Author

Umeyama, Tomokazu, primary, Mizutani, Daizu, additional, Ikeda, Yuki, additional, Osterloh, W. Ryan, additional, Yamamoto, Futa, additional, Kato, Kosaku, additional, Yamakata, Akira, additional, Higashi, Masahiro, additional, Urakami, Takumi, additional, Sato, Hirofumi, additional, and Imahori, Hiroshi, additional

Published
2023
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42. Additional file 1 of Myocardial fat accumulation is associated with cardiac dysfunction in patients with type 2 diabetes, especially in elderly or female patients: a retrospective observational study

Author

Kashiwagi-Takayama, Risa, Kozawa, Junji, Hosokawa, Yoshiya, Kato, Sarasa, Kawata, Satoshi, Ozawa, Harutoshi, Mineo, Ryohei, Ishibashi, Chisaki, Baden, Megu Y., Iwamoto, Ryuya, Saisho, Kenji, Fujita, Yukari, Tamba, Sachiko, Sugiyama, Takuya, Nishizawa, Hitoshi, Maeda, Norikazu, Yamamoto, Koji, Higashi, Masahiro, Yamada, Yuya, Sakata, Yasushi, Matsuzawa, Yuji, and Shimomura, Iichiro

Abstract

Additional file 1: Table S1. Clinical characteristics of older and younger subgroups. Table S2. Clinical characteristics of female and male subgroups. Table S3. Clinical characteristics of patients with complete cases for multiple regression analysis (total). Table S4. Clinical characteristics of older and younger subgroups with complete cases for multiple regression analysis. Table S5. Clinical characteristics of female and male subgroups with complete cases for multiple regression analysis. Figure S1 Flowchart for the recruitment of the patients. Figure S2. Method for measuring myocardial CT values on non-contrasted CT images. Figure S3. Multiple logistic regression analyses (total).

Published
2023
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45. Uniform potential difference scheme to evaluate effective electronic couplings for superexchange electron transfer in donor–bridge–acceptor systems.

Author

Nakano, Hiroshi, Higashi, Masahiro, and Sato, Hirofumi

Subjects
*CHARGE exchange, *VOLTAGE, *GREEN'S functions, *PERTURBATION theory, *ELECTRIC potential, *ELECTRON donors
Abstract

This article proposes an ab initio quantum chemical method to evaluate the effective electronic coupling that determines the rate of superexchange electron transfer in donor–bridge–acceptor (D–B–A) systems. The method utilizes the fragment charge difference to define electronic diabatic states and to apply an electrostatic potential in a form of a uniform potential difference that mimics solvation effects on the relative energies of the electronic states. The two-state generalized Mulliken–Hush method is used to obtain the effective electronic coupling as the nondiagonal element of the effective Hamiltonian that is derived based on the Green's function approach and the quasi-degenerate perturbation theory. A theoretical basis is provided for the dependence of the calculated effective electronic coupling on the applied potential and for how to find the optimal potential to give the desired effective electronic coupling that coincides with the result of the minimum energy splitting method. The method is applied to typical D–B–A molecules and gives the effective electronic couplings in reasonable agreement with the experimental estimates. [ABSTRACT FROM AUTHOR]

Published
2020
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46. Nuclear magnetic shielding of molecule in solution based on reference interaction site model self-consistent field with spatial electron density distribution.

Author

Imamura, Kosuke, Yamazaki, Takeshi, Yokogawa, Daisuke, Higashi, Masahiro, and Sato, Hirofumi

Subjects
ELECTRON distribution, MAGNETIC shielding, RADIATION shielding, SINGLE molecule magnets, SPATIAL distribution (Quantum optics), POLAR solvents, ELECTRON density
Abstract

A new method for calculating nuclear magnetic shielding in solutions is developed based on the reference interaction site model self-consistent field (RISM-SCF) with spatial electron density distribution (SEDD). In RISM-SCF-SEDD, the electrostatic interaction between the solute and the solvent is described by considering the spread of electron to obtain more realistic electronic structure in solutions. It is thus expected to allow us to predict more quantitative chemical shifts of a wide variety of chemical species in solutions. In this study, the method is applied to a water molecule in water and is validated by examining the dependence of the solvent temperature and density on chemical shifts. The dependence of solvent species is also investigated, and more accurate results are obtained for polar solvents compared to the previous RISM-SCF study. Another application example of this method is the 15N chemical shifts of two azines in water, which is difficult to predict with the polarizable continuum model (PCM). Our results are in good agreement with the previous quantum mechanical/molecular mechanics study and experimental results. It is also shown that our method gives more realistic results for methanol and acetone than the PCM. [ABSTRACT FROM AUTHOR]

Published
2020
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47. N,N'‐Difluoro‐2,2'‐bipyridinium Bis(tetrafluoroborate): a New Terminal Oxidant for Iodoarene‐catalyzed Fluorination Reactions.

Author

Kitamura, Tsugio, Kitamura, Daichi, Oyamada, Juzo, Higashi, Masahiro, and Kishikawa, Yosuke

Subjects
FLUORINATION, OXIDIZING agents, ALKENES, TETRAFLUOROBORATES, ALKANES, FLUORINE
Abstract

A new N−F reagent, N,N′‐difluoro‐2,2′‐bipyridinium bis(tetrafluoroborate), for iodoarene‐catalyzed fluorination reactions as a terminal oxidant is reported. This reaction is effective for the fluorination of simple alkenes, aromatic alkenes and 1,3‐dicarbonyl compounds, giving 1,2‐difluorinated alkanes, geminal difluorinated compounds, 2‐fluorinated‐1,3‐dicarbonyl compounds in good to high yields, respectively. This is a useful fluorination reaction that not only improves the issues of the fluorination reaction using conventional mCPBA as a terminal oxidant but also constructs a simpler catalytic cycle. The present N−F reagent can be recovered as 2,2'‐bipyridine. [ABSTRACT FROM AUTHOR]

Published
2023
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