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Optica Publishing Group
  • Current Optics and Photonics
  • Vol. 6,
  • Issue 3,
  • pp. 337-343
  • (2022)

Terahertz Spectral Characteristics of Electrolyte Solutions under Different Magnetic Fields

Open Access Open Access

Abstract

Microfluidic chips are new devices that can manipulate liquids at the micrometer level, and terahertz (THz) time-domain spectroscopy has good applicability in biochemical detection. The combination of these two technologies can shorten the distance between sample and THz wave, reduce THz wave absorption by water, and more effectively analyze the kinetics of biochemical reactions in aqueous solutions. This study investigates the effects of different external magnetic field intensities on the THz transmission characteristics of deionized water, CuSO4, CuCl2, (CH3COO)2Cu, Na2SO4, NaCl, and CH3COONa; the THz spectral intensity of the sample solutions decrease with increasing intensity of the applied magnetic field. Analysis shows that the magnetic field leads to a change in the dipole moment of water molecules in water and electrolyte solutions, which enhances not only the hydrogen-bond networking ability of water but also the hydration around ions in electrolyte solutions, increasing the number of hydrogen bonds. Increasing the intensity of this magnetic field further promotes the hydrogen-bond association between water molecules, weakening the THz transmission intensity of the solution.

© 2022 Optical Society of Korea

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References

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    [Crossref]
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    [Crossref]
  4. N. Fan, B. Su, Y.-X. Wu, H.-F. Zhang, C. Zhang, S.-B. Zhang, C.-L. Zhang, "Sandwich terahertz microfluidic chip," Spectrosc. Spectr. Anal. 38, 1362‒1367 (2018)
  5. X.-F. Pang, B. Deng, "The changes of macroscopic features and microscopic structures of water under influence of magnetic field," Physica B 403, 3571‒3577 (2008)
    [Crossref]
  6. R. Cai, H. Yang, J. He, W. Zhu, "The effects of magnetic fields on water molecular hydrogen bonds," J. Mol. Struct. 938, 15‒19 (2009)
    [Crossref]
  7. K.-T. Chang, C.-I. Weng, "The effect of an external magnetic field on the structure of liquid water using molecular dynamics simulation," J. Appl. Phys. 100, (2006)
    [Crossref]
  8. X. Zhao, G. Wang, S. Shao, Q. Meng, J. Wang, S. Zhang, B. Su, C. Zhang, "Terahertz characteristics of magnetic fluid based on microfluidic technology," Int. J. Opt. 2021, (2021)
    [Crossref]
  9. M.-J. Tang, S.-H. Yan, M.-K. Zhang, D.-S. Wei, C.-L. Du, H.-L. Cui, "Detection of DNA RNA bases and rare bases by terahertz spectroscopy," Spectrosc. Spectr. Anal. 40, 2388‒2391 (2020)
  10. G.-Y. Wang, Z.-C. Bai, J.-H. Wang, B. Su, C.-L. Zhang, "Terahertz Absorption Characteristics of water based on microfluidic technology," Spectrosc. Spectr. Anal. 41, 1678‒1682 (2021)
  11. L.-G. Chen, "Terahertz spectroscopy of hydrate formation in alkali halide solution induced by low temperature," Ph. D. Thesis, Taijin University 134 (2021)
  12. H. Hosoda, H. Mori, N. Sogoshi, A. Nagasawa, S. Nakabayashi, "Refractive indices of water and aqueous electrolyte solutions under high magnetic fields," J. Phys. Chem. A 108, 1461‒1464 (2004)
    [Crossref]
  13. Z. W. Chen, "Discussion on the mechanism of water treatment by magnetic field," Physics 21, 109‒112 (1992)
  14. C. J. Fecko, J. D. Eaves, J. J. Loparo, A. Tokmakoff, P. L. Geissler, "Ultrafast hydrogen-bond dynamics in the infrared spectroscopy of water," Science 301, 1698‒1702 (2003)
    [Crossref] [PubMed]
  15. Y. Gu, S. Li, Y. Xu, J. Han, M. Gu, Z. Cai, Y. Lv, G. Xie, T. Ma, J. Luo, "The effect of magnetic field on the hydration of cation in solution revealed by THz spectroscopy and MDs," Colloids Surf. A 582, (2019)
    [Crossref]
  16. U. Heugen, G. Schwaab, E. Bru ̈ndermann, M. Heyden, X. Yu, D. M. Leitner, M. Havenith, "Solute-induced retardation of water dynamics probed directly by terahertz spectroscopy," Proc. Natl. Acad. Sci. U. S. A. 103, 12301‒12306 (2006)
    [Crossref] [PubMed]

2021 (3)

X. Zhao, G. Wang, S. Shao, Q. Meng, J. Wang, S. Zhang, B. Su, C. Zhang, "Terahertz characteristics of magnetic fluid based on microfluidic technology," Int. J. Opt. 2021, (2021)
[Crossref]

G.-Y. Wang, Z.-C. Bai, J.-H. Wang, B. Su, C.-L. Zhang, "Terahertz Absorption Characteristics of water based on microfluidic technology," Spectrosc. Spectr. Anal. 41, 1678‒1682 (2021)

L.-G. Chen, "Terahertz spectroscopy of hydrate formation in alkali halide solution induced by low temperature," Ph. D. Thesis, Taijin University 134 (2021)

2020 (1)

M.-J. Tang, S.-H. Yan, M.-K. Zhang, D.-S. Wei, C.-L. Du, H.-L. Cui, "Detection of DNA RNA bases and rare bases by terahertz spectroscopy," Spectrosc. Spectr. Anal. 40, 2388‒2391 (2020)

2019 (2)

Y.-X. Wu, B. Su, J.-S. He, C.-L. Zhang, "Research on terahertz absorption characteristics of electrolyte solution based on microfluidic chip," Spectrosc. Spectr. Anal. 39, 2348‒2353 (2019)

Y. Gu, S. Li, Y. Xu, J. Han, M. Gu, Z. Cai, Y. Lv, G. Xie, T. Ma, J. Luo, "The effect of magnetic field on the hydration of cation in solution revealed by THz spectroscopy and MDs," Colloids Surf. A 582, (2019)
[Crossref]

2018 (1)

N. Fan, B. Su, Y.-X. Wu, H.-F. Zhang, C. Zhang, S.-B. Zhang, C.-L. Zhang, "Sandwich terahertz microfluidic chip," Spectrosc. Spectr. Anal. 38, 1362‒1367 (2018)

2014 (1)

M. Mernea, O. Calborean, O. Grigore, T. Dascalu, D. F. Mihailescu, "Validation of protein structural models using THz spectroscopy: a promising approach to solve three-dimensional structures," Opt. Quantum Electron. 46, 505‒514 (2014)
[Crossref]

2012 (1)

S. Laurette, A. Treizebre, A. Elagli, B. Hatirnaz, R. Froidevaux, F. Affouard, L. Duponchel, B. Bocquet, "Highly sensitive terahertz spectroscopy in microsystem," RSC Adv. 2, 10064‒10071 (2012)
[Crossref]

2009 (1)

R. Cai, H. Yang, J. He, W. Zhu, "The effects of magnetic fields on water molecular hydrogen bonds," J. Mol. Struct. 938, 15‒19 (2009)
[Crossref]

2008 (1)

X.-F. Pang, B. Deng, "The changes of macroscopic features and microscopic structures of water under influence of magnetic field," Physica B 403, 3571‒3577 (2008)
[Crossref]

2006 (2)

K.-T. Chang, C.-I. Weng, "The effect of an external magnetic field on the structure of liquid water using molecular dynamics simulation," J. Appl. Phys. 100, (2006)
[Crossref]

U. Heugen, G. Schwaab, E. Bru ̈ndermann, M. Heyden, X. Yu, D. M. Leitner, M. Havenith, "Solute-induced retardation of water dynamics probed directly by terahertz spectroscopy," Proc. Natl. Acad. Sci. U. S. A. 103, 12301‒12306 (2006)
[Crossref] [PubMed]

2004 (1)

H. Hosoda, H. Mori, N. Sogoshi, A. Nagasawa, S. Nakabayashi, "Refractive indices of water and aqueous electrolyte solutions under high magnetic fields," J. Phys. Chem. A 108, 1461‒1464 (2004)
[Crossref]

2003 (1)

C. J. Fecko, J. D. Eaves, J. J. Loparo, A. Tokmakoff, P. L. Geissler, "Ultrafast hydrogen-bond dynamics in the infrared spectroscopy of water," Science 301, 1698‒1702 (2003)
[Crossref] [PubMed]

1992 (1)

Z. W. Chen, "Discussion on the mechanism of water treatment by magnetic field," Physics 21, 109‒112 (1992)

Affouard, F.

S. Laurette, A. Treizebre, A. Elagli, B. Hatirnaz, R. Froidevaux, F. Affouard, L. Duponchel, B. Bocquet, "Highly sensitive terahertz spectroscopy in microsystem," RSC Adv. 2, 10064‒10071 (2012)
[Crossref]

Bai, Z.-C.

G.-Y. Wang, Z.-C. Bai, J.-H. Wang, B. Su, C.-L. Zhang, "Terahertz Absorption Characteristics of water based on microfluidic technology," Spectrosc. Spectr. Anal. 41, 1678‒1682 (2021)

Bocquet, B.

S. Laurette, A. Treizebre, A. Elagli, B. Hatirnaz, R. Froidevaux, F. Affouard, L. Duponchel, B. Bocquet, "Highly sensitive terahertz spectroscopy in microsystem," RSC Adv. 2, 10064‒10071 (2012)
[Crossref]

Bru ¨ndermann, E.

U. Heugen, G. Schwaab, E. Bru ̈ndermann, M. Heyden, X. Yu, D. M. Leitner, M. Havenith, "Solute-induced retardation of water dynamics probed directly by terahertz spectroscopy," Proc. Natl. Acad. Sci. U. S. A. 103, 12301‒12306 (2006)
[Crossref] [PubMed]

Cai, R.

R. Cai, H. Yang, J. He, W. Zhu, "The effects of magnetic fields on water molecular hydrogen bonds," J. Mol. Struct. 938, 15‒19 (2009)
[Crossref]

Cai, Z.

Y. Gu, S. Li, Y. Xu, J. Han, M. Gu, Z. Cai, Y. Lv, G. Xie, T. Ma, J. Luo, "The effect of magnetic field on the hydration of cation in solution revealed by THz spectroscopy and MDs," Colloids Surf. A 582, (2019)
[Crossref]

Calborean, O.

M. Mernea, O. Calborean, O. Grigore, T. Dascalu, D. F. Mihailescu, "Validation of protein structural models using THz spectroscopy: a promising approach to solve three-dimensional structures," Opt. Quantum Electron. 46, 505‒514 (2014)
[Crossref]

Chang, K.-T.

K.-T. Chang, C.-I. Weng, "The effect of an external magnetic field on the structure of liquid water using molecular dynamics simulation," J. Appl. Phys. 100, (2006)
[Crossref]

Chen, L.-G.

L.-G. Chen, "Terahertz spectroscopy of hydrate formation in alkali halide solution induced by low temperature," Ph. D. Thesis, Taijin University 134 (2021)

Chen, Z. W.

Z. W. Chen, "Discussion on the mechanism of water treatment by magnetic field," Physics 21, 109‒112 (1992)

Cui, H.-L.

M.-J. Tang, S.-H. Yan, M.-K. Zhang, D.-S. Wei, C.-L. Du, H.-L. Cui, "Detection of DNA RNA bases and rare bases by terahertz spectroscopy," Spectrosc. Spectr. Anal. 40, 2388‒2391 (2020)

Dascalu, T.

M. Mernea, O. Calborean, O. Grigore, T. Dascalu, D. F. Mihailescu, "Validation of protein structural models using THz spectroscopy: a promising approach to solve three-dimensional structures," Opt. Quantum Electron. 46, 505‒514 (2014)
[Crossref]

Deng, B.

X.-F. Pang, B. Deng, "The changes of macroscopic features and microscopic structures of water under influence of magnetic field," Physica B 403, 3571‒3577 (2008)
[Crossref]

Du, C.-L.

M.-J. Tang, S.-H. Yan, M.-K. Zhang, D.-S. Wei, C.-L. Du, H.-L. Cui, "Detection of DNA RNA bases and rare bases by terahertz spectroscopy," Spectrosc. Spectr. Anal. 40, 2388‒2391 (2020)

Duponchel, L.

S. Laurette, A. Treizebre, A. Elagli, B. Hatirnaz, R. Froidevaux, F. Affouard, L. Duponchel, B. Bocquet, "Highly sensitive terahertz spectroscopy in microsystem," RSC Adv. 2, 10064‒10071 (2012)
[Crossref]

Eaves, J. D.

C. J. Fecko, J. D. Eaves, J. J. Loparo, A. Tokmakoff, P. L. Geissler, "Ultrafast hydrogen-bond dynamics in the infrared spectroscopy of water," Science 301, 1698‒1702 (2003)
[Crossref] [PubMed]

Elagli, A.

S. Laurette, A. Treizebre, A. Elagli, B. Hatirnaz, R. Froidevaux, F. Affouard, L. Duponchel, B. Bocquet, "Highly sensitive terahertz spectroscopy in microsystem," RSC Adv. 2, 10064‒10071 (2012)
[Crossref]

Fan, N.

N. Fan, B. Su, Y.-X. Wu, H.-F. Zhang, C. Zhang, S.-B. Zhang, C.-L. Zhang, "Sandwich terahertz microfluidic chip," Spectrosc. Spectr. Anal. 38, 1362‒1367 (2018)

Fecko, C. J.

C. J. Fecko, J. D. Eaves, J. J. Loparo, A. Tokmakoff, P. L. Geissler, "Ultrafast hydrogen-bond dynamics in the infrared spectroscopy of water," Science 301, 1698‒1702 (2003)
[Crossref] [PubMed]

Froidevaux, R.

S. Laurette, A. Treizebre, A. Elagli, B. Hatirnaz, R. Froidevaux, F. Affouard, L. Duponchel, B. Bocquet, "Highly sensitive terahertz spectroscopy in microsystem," RSC Adv. 2, 10064‒10071 (2012)
[Crossref]

Geissler, P. L.

C. J. Fecko, J. D. Eaves, J. J. Loparo, A. Tokmakoff, P. L. Geissler, "Ultrafast hydrogen-bond dynamics in the infrared spectroscopy of water," Science 301, 1698‒1702 (2003)
[Crossref] [PubMed]

Grigore, O.

M. Mernea, O. Calborean, O. Grigore, T. Dascalu, D. F. Mihailescu, "Validation of protein structural models using THz spectroscopy: a promising approach to solve three-dimensional structures," Opt. Quantum Electron. 46, 505‒514 (2014)
[Crossref]

Gu, M.

Y. Gu, S. Li, Y. Xu, J. Han, M. Gu, Z. Cai, Y. Lv, G. Xie, T. Ma, J. Luo, "The effect of magnetic field on the hydration of cation in solution revealed by THz spectroscopy and MDs," Colloids Surf. A 582, (2019)
[Crossref]

Gu, Y.

Y. Gu, S. Li, Y. Xu, J. Han, M. Gu, Z. Cai, Y. Lv, G. Xie, T. Ma, J. Luo, "The effect of magnetic field on the hydration of cation in solution revealed by THz spectroscopy and MDs," Colloids Surf. A 582, (2019)
[Crossref]

Han, J.

Y. Gu, S. Li, Y. Xu, J. Han, M. Gu, Z. Cai, Y. Lv, G. Xie, T. Ma, J. Luo, "The effect of magnetic field on the hydration of cation in solution revealed by THz spectroscopy and MDs," Colloids Surf. A 582, (2019)
[Crossref]

Hatirnaz, B.

S. Laurette, A. Treizebre, A. Elagli, B. Hatirnaz, R. Froidevaux, F. Affouard, L. Duponchel, B. Bocquet, "Highly sensitive terahertz spectroscopy in microsystem," RSC Adv. 2, 10064‒10071 (2012)
[Crossref]

Havenith, M.

U. Heugen, G. Schwaab, E. Bru ̈ndermann, M. Heyden, X. Yu, D. M. Leitner, M. Havenith, "Solute-induced retardation of water dynamics probed directly by terahertz spectroscopy," Proc. Natl. Acad. Sci. U. S. A. 103, 12301‒12306 (2006)
[Crossref] [PubMed]

He, J.

R. Cai, H. Yang, J. He, W. Zhu, "The effects of magnetic fields on water molecular hydrogen bonds," J. Mol. Struct. 938, 15‒19 (2009)
[Crossref]

He, J.-S.

Y.-X. Wu, B. Su, J.-S. He, C.-L. Zhang, "Research on terahertz absorption characteristics of electrolyte solution based on microfluidic chip," Spectrosc. Spectr. Anal. 39, 2348‒2353 (2019)

Heugen, U.

U. Heugen, G. Schwaab, E. Bru ̈ndermann, M. Heyden, X. Yu, D. M. Leitner, M. Havenith, "Solute-induced retardation of water dynamics probed directly by terahertz spectroscopy," Proc. Natl. Acad. Sci. U. S. A. 103, 12301‒12306 (2006)
[Crossref] [PubMed]

Heyden, M.

U. Heugen, G. Schwaab, E. Bru ̈ndermann, M. Heyden, X. Yu, D. M. Leitner, M. Havenith, "Solute-induced retardation of water dynamics probed directly by terahertz spectroscopy," Proc. Natl. Acad. Sci. U. S. A. 103, 12301‒12306 (2006)
[Crossref] [PubMed]

Hosoda, H.

H. Hosoda, H. Mori, N. Sogoshi, A. Nagasawa, S. Nakabayashi, "Refractive indices of water and aqueous electrolyte solutions under high magnetic fields," J. Phys. Chem. A 108, 1461‒1464 (2004)
[Crossref]

Laurette, S.

S. Laurette, A. Treizebre, A. Elagli, B. Hatirnaz, R. Froidevaux, F. Affouard, L. Duponchel, B. Bocquet, "Highly sensitive terahertz spectroscopy in microsystem," RSC Adv. 2, 10064‒10071 (2012)
[Crossref]

Leitner, D. M.

U. Heugen, G. Schwaab, E. Bru ̈ndermann, M. Heyden, X. Yu, D. M. Leitner, M. Havenith, "Solute-induced retardation of water dynamics probed directly by terahertz spectroscopy," Proc. Natl. Acad. Sci. U. S. A. 103, 12301‒12306 (2006)
[Crossref] [PubMed]

Li, S.

Y. Gu, S. Li, Y. Xu, J. Han, M. Gu, Z. Cai, Y. Lv, G. Xie, T. Ma, J. Luo, "The effect of magnetic field on the hydration of cation in solution revealed by THz spectroscopy and MDs," Colloids Surf. A 582, (2019)
[Crossref]

Loparo, J. J.

C. J. Fecko, J. D. Eaves, J. J. Loparo, A. Tokmakoff, P. L. Geissler, "Ultrafast hydrogen-bond dynamics in the infrared spectroscopy of water," Science 301, 1698‒1702 (2003)
[Crossref] [PubMed]

Luo, J.

Y. Gu, S. Li, Y. Xu, J. Han, M. Gu, Z. Cai, Y. Lv, G. Xie, T. Ma, J. Luo, "The effect of magnetic field on the hydration of cation in solution revealed by THz spectroscopy and MDs," Colloids Surf. A 582, (2019)
[Crossref]

Lv, Y.

Y. Gu, S. Li, Y. Xu, J. Han, M. Gu, Z. Cai, Y. Lv, G. Xie, T. Ma, J. Luo, "The effect of magnetic field on the hydration of cation in solution revealed by THz spectroscopy and MDs," Colloids Surf. A 582, (2019)
[Crossref]

Ma, T.

Y. Gu, S. Li, Y. Xu, J. Han, M. Gu, Z. Cai, Y. Lv, G. Xie, T. Ma, J. Luo, "The effect of magnetic field on the hydration of cation in solution revealed by THz spectroscopy and MDs," Colloids Surf. A 582, (2019)
[Crossref]

Meng, Q.

X. Zhao, G. Wang, S. Shao, Q. Meng, J. Wang, S. Zhang, B. Su, C. Zhang, "Terahertz characteristics of magnetic fluid based on microfluidic technology," Int. J. Opt. 2021, (2021)
[Crossref]

Mernea, M.

M. Mernea, O. Calborean, O. Grigore, T. Dascalu, D. F. Mihailescu, "Validation of protein structural models using THz spectroscopy: a promising approach to solve three-dimensional structures," Opt. Quantum Electron. 46, 505‒514 (2014)
[Crossref]

Mihailescu, D. F.

M. Mernea, O. Calborean, O. Grigore, T. Dascalu, D. F. Mihailescu, "Validation of protein structural models using THz spectroscopy: a promising approach to solve three-dimensional structures," Opt. Quantum Electron. 46, 505‒514 (2014)
[Crossref]

Mori, H.

H. Hosoda, H. Mori, N. Sogoshi, A. Nagasawa, S. Nakabayashi, "Refractive indices of water and aqueous electrolyte solutions under high magnetic fields," J. Phys. Chem. A 108, 1461‒1464 (2004)
[Crossref]

Nagasawa, A.

H. Hosoda, H. Mori, N. Sogoshi, A. Nagasawa, S. Nakabayashi, "Refractive indices of water and aqueous electrolyte solutions under high magnetic fields," J. Phys. Chem. A 108, 1461‒1464 (2004)
[Crossref]

Nakabayashi, S.

H. Hosoda, H. Mori, N. Sogoshi, A. Nagasawa, S. Nakabayashi, "Refractive indices of water and aqueous electrolyte solutions under high magnetic fields," J. Phys. Chem. A 108, 1461‒1464 (2004)
[Crossref]

Pang, X.-F.

X.-F. Pang, B. Deng, "The changes of macroscopic features and microscopic structures of water under influence of magnetic field," Physica B 403, 3571‒3577 (2008)
[Crossref]

Schwaab, G.

U. Heugen, G. Schwaab, E. Bru ̈ndermann, M. Heyden, X. Yu, D. M. Leitner, M. Havenith, "Solute-induced retardation of water dynamics probed directly by terahertz spectroscopy," Proc. Natl. Acad. Sci. U. S. A. 103, 12301‒12306 (2006)
[Crossref] [PubMed]

Shao, S.

X. Zhao, G. Wang, S. Shao, Q. Meng, J. Wang, S. Zhang, B. Su, C. Zhang, "Terahertz characteristics of magnetic fluid based on microfluidic technology," Int. J. Opt. 2021, (2021)
[Crossref]

Sogoshi, N.

H. Hosoda, H. Mori, N. Sogoshi, A. Nagasawa, S. Nakabayashi, "Refractive indices of water and aqueous electrolyte solutions under high magnetic fields," J. Phys. Chem. A 108, 1461‒1464 (2004)
[Crossref]

Su, B.

X. Zhao, G. Wang, S. Shao, Q. Meng, J. Wang, S. Zhang, B. Su, C. Zhang, "Terahertz characteristics of magnetic fluid based on microfluidic technology," Int. J. Opt. 2021, (2021)
[Crossref]

G.-Y. Wang, Z.-C. Bai, J.-H. Wang, B. Su, C.-L. Zhang, "Terahertz Absorption Characteristics of water based on microfluidic technology," Spectrosc. Spectr. Anal. 41, 1678‒1682 (2021)

Y.-X. Wu, B. Su, J.-S. He, C.-L. Zhang, "Research on terahertz absorption characteristics of electrolyte solution based on microfluidic chip," Spectrosc. Spectr. Anal. 39, 2348‒2353 (2019)

N. Fan, B. Su, Y.-X. Wu, H.-F. Zhang, C. Zhang, S.-B. Zhang, C.-L. Zhang, "Sandwich terahertz microfluidic chip," Spectrosc. Spectr. Anal. 38, 1362‒1367 (2018)

Tang, M.-J.

M.-J. Tang, S.-H. Yan, M.-K. Zhang, D.-S. Wei, C.-L. Du, H.-L. Cui, "Detection of DNA RNA bases and rare bases by terahertz spectroscopy," Spectrosc. Spectr. Anal. 40, 2388‒2391 (2020)

Tokmakoff, A.

C. J. Fecko, J. D. Eaves, J. J. Loparo, A. Tokmakoff, P. L. Geissler, "Ultrafast hydrogen-bond dynamics in the infrared spectroscopy of water," Science 301, 1698‒1702 (2003)
[Crossref] [PubMed]

Treizebre, A.

S. Laurette, A. Treizebre, A. Elagli, B. Hatirnaz, R. Froidevaux, F. Affouard, L. Duponchel, B. Bocquet, "Highly sensitive terahertz spectroscopy in microsystem," RSC Adv. 2, 10064‒10071 (2012)
[Crossref]

Wang, G.

X. Zhao, G. Wang, S. Shao, Q. Meng, J. Wang, S. Zhang, B. Su, C. Zhang, "Terahertz characteristics of magnetic fluid based on microfluidic technology," Int. J. Opt. 2021, (2021)
[Crossref]

Wang, G.-Y.

G.-Y. Wang, Z.-C. Bai, J.-H. Wang, B. Su, C.-L. Zhang, "Terahertz Absorption Characteristics of water based on microfluidic technology," Spectrosc. Spectr. Anal. 41, 1678‒1682 (2021)

Wang, J.

X. Zhao, G. Wang, S. Shao, Q. Meng, J. Wang, S. Zhang, B. Su, C. Zhang, "Terahertz characteristics of magnetic fluid based on microfluidic technology," Int. J. Opt. 2021, (2021)
[Crossref]

Wang, J.-H.

G.-Y. Wang, Z.-C. Bai, J.-H. Wang, B. Su, C.-L. Zhang, "Terahertz Absorption Characteristics of water based on microfluidic technology," Spectrosc. Spectr. Anal. 41, 1678‒1682 (2021)

Wei, D.-S.

M.-J. Tang, S.-H. Yan, M.-K. Zhang, D.-S. Wei, C.-L. Du, H.-L. Cui, "Detection of DNA RNA bases and rare bases by terahertz spectroscopy," Spectrosc. Spectr. Anal. 40, 2388‒2391 (2020)

Weng, C.-I.

K.-T. Chang, C.-I. Weng, "The effect of an external magnetic field on the structure of liquid water using molecular dynamics simulation," J. Appl. Phys. 100, (2006)
[Crossref]

Wu, Y.-X.

Y.-X. Wu, B. Su, J.-S. He, C.-L. Zhang, "Research on terahertz absorption characteristics of electrolyte solution based on microfluidic chip," Spectrosc. Spectr. Anal. 39, 2348‒2353 (2019)

N. Fan, B. Su, Y.-X. Wu, H.-F. Zhang, C. Zhang, S.-B. Zhang, C.-L. Zhang, "Sandwich terahertz microfluidic chip," Spectrosc. Spectr. Anal. 38, 1362‒1367 (2018)

Xie, G.

Y. Gu, S. Li, Y. Xu, J. Han, M. Gu, Z. Cai, Y. Lv, G. Xie, T. Ma, J. Luo, "The effect of magnetic field on the hydration of cation in solution revealed by THz spectroscopy and MDs," Colloids Surf. A 582, (2019)
[Crossref]

Xu, Y.

Y. Gu, S. Li, Y. Xu, J. Han, M. Gu, Z. Cai, Y. Lv, G. Xie, T. Ma, J. Luo, "The effect of magnetic field on the hydration of cation in solution revealed by THz spectroscopy and MDs," Colloids Surf. A 582, (2019)
[Crossref]

Yan, S.-H.

M.-J. Tang, S.-H. Yan, M.-K. Zhang, D.-S. Wei, C.-L. Du, H.-L. Cui, "Detection of DNA RNA bases and rare bases by terahertz spectroscopy," Spectrosc. Spectr. Anal. 40, 2388‒2391 (2020)

Yang, H.

R. Cai, H. Yang, J. He, W. Zhu, "The effects of magnetic fields on water molecular hydrogen bonds," J. Mol. Struct. 938, 15‒19 (2009)
[Crossref]

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G.-Y. Wang, Z.-C. Bai, J.-H. Wang, B. Su, C.-L. Zhang, "Terahertz Absorption Characteristics of water based on microfluidic technology," Spectrosc. Spectr. Anal. 41, 1678‒1682 (2021)

Y.-X. Wu, B. Su, J.-S. He, C.-L. Zhang, "Research on terahertz absorption characteristics of electrolyte solution based on microfluidic chip," Spectrosc. Spectr. Anal. 39, 2348‒2353 (2019)

N. Fan, B. Su, Y.-X. Wu, H.-F. Zhang, C. Zhang, S.-B. Zhang, C.-L. Zhang, "Sandwich terahertz microfluidic chip," Spectrosc. Spectr. Anal. 38, 1362‒1367 (2018)

Zhang, H.-F.

N. Fan, B. Su, Y.-X. Wu, H.-F. Zhang, C. Zhang, S.-B. Zhang, C.-L. Zhang, "Sandwich terahertz microfluidic chip," Spectrosc. Spectr. Anal. 38, 1362‒1367 (2018)

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M.-J. Tang, S.-H. Yan, M.-K. Zhang, D.-S. Wei, C.-L. Du, H.-L. Cui, "Detection of DNA RNA bases and rare bases by terahertz spectroscopy," Spectrosc. Spectr. Anal. 40, 2388‒2391 (2020)

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X. Zhao, G. Wang, S. Shao, Q. Meng, J. Wang, S. Zhang, B. Su, C. Zhang, "Terahertz characteristics of magnetic fluid based on microfluidic technology," Int. J. Opt. 2021, (2021)
[Crossref]

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N. Fan, B. Su, Y.-X. Wu, H.-F. Zhang, C. Zhang, S.-B. Zhang, C.-L. Zhang, "Sandwich terahertz microfluidic chip," Spectrosc. Spectr. Anal. 38, 1362‒1367 (2018)

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X. Zhao, G. Wang, S. Shao, Q. Meng, J. Wang, S. Zhang, B. Su, C. Zhang, "Terahertz characteristics of magnetic fluid based on microfluidic technology," Int. J. Opt. 2021, (2021)
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R. Cai, H. Yang, J. He, W. Zhu, "The effects of magnetic fields on water molecular hydrogen bonds," J. Mol. Struct. 938, 15‒19 (2009)
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X. Zhao, G. Wang, S. Shao, Q. Meng, J. Wang, S. Zhang, B. Su, C. Zhang, "Terahertz characteristics of magnetic fluid based on microfluidic technology," Int. J. Opt. 2021, (2021)
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R. Cai, H. Yang, J. He, W. Zhu, "The effects of magnetic fields on water molecular hydrogen bonds," J. Mol. Struct. 938, 15‒19 (2009)
[Crossref]

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L.-G. Chen, "Terahertz spectroscopy of hydrate formation in alkali halide solution induced by low temperature," Ph. D. Thesis, Taijin University 134 (2021)

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Physics (1)

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Proc. Natl. Acad. Sci. U. S. A. (1)

U. Heugen, G. Schwaab, E. Bru ̈ndermann, M. Heyden, X. Yu, D. M. Leitner, M. Havenith, "Solute-induced retardation of water dynamics probed directly by terahertz spectroscopy," Proc. Natl. Acad. Sci. U. S. A. 103, 12301‒12306 (2006)
[Crossref] [PubMed]

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S. Laurette, A. Treizebre, A. Elagli, B. Hatirnaz, R. Froidevaux, F. Affouard, L. Duponchel, B. Bocquet, "Highly sensitive terahertz spectroscopy in microsystem," RSC Adv. 2, 10064‒10071 (2012)
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Spectrosc. Spectr. Anal. (4)

N. Fan, B. Su, Y.-X. Wu, H.-F. Zhang, C. Zhang, S.-B. Zhang, C.-L. Zhang, "Sandwich terahertz microfluidic chip," Spectrosc. Spectr. Anal. 38, 1362‒1367 (2018)

Y.-X. Wu, B. Su, J.-S. He, C.-L. Zhang, "Research on terahertz absorption characteristics of electrolyte solution based on microfluidic chip," Spectrosc. Spectr. Anal. 39, 2348‒2353 (2019)

M.-J. Tang, S.-H. Yan, M.-K. Zhang, D.-S. Wei, C.-L. Du, H.-L. Cui, "Detection of DNA RNA bases and rare bases by terahertz spectroscopy," Spectrosc. Spectr. Anal. 40, 2388‒2391 (2020)

G.-Y. Wang, Z.-C. Bai, J.-H. Wang, B. Su, C.-L. Zhang, "Terahertz Absorption Characteristics of water based on microfluidic technology," Spectrosc. Spectr. Anal. 41, 1678‒1682 (2021)

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