Microcosmic approach to marine chemistry—A Φ(Z/l, x) rule of chemical processes in seawater and its applications

Zhang Zhengbin; Liu Liansheng

doi:10.1007/BF02852890

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Microcosmic approach to marine chemistry—A Φ(Z/l, x) rule of chemical processes in seawater and its applications

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- Microcosmic approach to marine chemistry—A Φ(Z/l, x) rule of chemical processes in seawater and its applications
- Microcosmic approach to marine chemistry—A Φ(Z/l, x) rule of chemical processes in seawater and its applications
- 海洋湖沼学报（英文） 1982年1卷第1期页码：54-75
- Affiliations：
  
  Department of Marine Chemistry Shandong College of Oceanology
- Author bio：
- Funds：
  
  An erratum to this article is available at;http://dx.doi.org/10.1007/BF02900487;.
- DOI：10.1007/BF02852890
  中图分类号：
- 纸质出版：1982
- Accepted：
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Microcosmic approach to marine chemistry—A Φ(Z/l, x) rule of chemical processes in seawater and its applications[J]. 海洋湖沼学报（英文）, 1982,1(1):54-75.

Zhengbin, Z., Liansheng, L. Microcosmic approach to marine chemistry—A Φ(Z/l, x) rule of chemical processes in seawater and its applications., Chin. J. Ocean. Limnol. 1, 54–75 (1982). https://doi.org/10.1007/BF02852890
Microcosmic approach to marine chemistry—A Φ(Z/l, x) rule of chemical processes in seawater and its applications[J]. 海洋湖沼学报（英文）, 1982,1(1):54-75. DOI： 10.1007/BF02852890.

Zhengbin, Z., Liansheng, L. Microcosmic approach to marine chemistry—A Φ(Z/l, x) rule of chemical processes in seawater and its applications., Chin. J. Ocean. Limnol. 1, 54–75 (1982). https://doi.org/10.1007/BF02852890 DOI：

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Chang Chen-ping & Liu Lien-sheng, 1974a. Equilibrium theory of inorganic ion-exchangers in seawater.Scientia Sinica 17 (3): 270–282. (in Chinese)

——, 1974b. Adsorption of trace elements in seawater on hydrous metal oxides.Kexue Tongbao 19 (11): 514–520. (in Chinese)

—, 1974. S-shaped and straight line relations between the coordination numbers and the stepwise stability constants of complexes in solution. ibid.Kexue Tongbao 19 (2): 76–80. (in Chinese)

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Frank, H. S. & P. T. Thompson, 1959. A point of view on ion clouds, inThe Structure of Electrolytic Solutions (W. J. Hamer ed.), John Wiley, New York, p. 113.

Fujinaga, T., T. Kuwamoto, S. Murai, S. Kihara & E. Nakayama, 1971. Chemical studies of the ocean CI. Coprecipitation of chromium (III) and chromium (VI) onto ferric hydroxide precipitate.J. Chem. Soc. Japan 92 (4): 339–344. (in Japanese)

—, M. Koyama, K. Izutsu, S. Himeno & M. Kawashima, 1974. Chemical studies of the ocean CII. Coprecipitation of arsenic (V), arsenic (III) and antimony (III) on ferric and aluminium hydroxides. ibid.J. Chem. Soc. Japan 8: 1489–1493. (in Japanese)

Goldberg, E. D., 1954. Marine geochemistry. I. Chemical scavengers of the sea.J. Geol. 62: 249–265.

Ishibashi, M., T. Fujinaga, T. Kuwamoto & Y. Ogino, 1967. Chemical studies of the ocean XCIX. Coprecipitation of uranium (IV) with ferric hydroxide precipitate.J. Chem. Soc. Japan 88 (1): 73–76. (in Japanese)

——— & H. Sawamoto, 1964. Chemical studies of the ocean XCV. Coprecipitation of vanadium (IV) with ferric hydroxide. ibid.J. Chem. Soc. Japan 85 (11): 763–766. (in Japanese)

———, M. Koyama & S. Sugibayashi, 1960. Chemical studies of the ocean LXXXI. Coprecipitation of tungsten with ferric hydroxide. ibid.J. Chem. Soc. Japan 81: 392–395 (in Japanese)

———, 1958. Chemical studies of the ocean LXXVII. Coprecipitation of molybdenum with ferric hydroxide. ibid.J. Chem. Soc. Japan 79: 1496–1499. (in Japanese)

—, & M. Tabushi, 1959. Spectrophotometric determination of micro amount of phosphoric acid by solvent extraction as phosphomoly bated.Japan Analyst 8: 588–593. (in Japanese)

—, T. Fujinaga, T. Kuwamoto & S. Murai, 1967. Chemical studies of the ocean C. Coprecipitation of selenium (IV) with ferric hydroxide precipitate.J. Chem. Soc. Japan 88 (1): 76–80. (in Japanese)

—, & S. Higashi, 1958. On the regularities of the amount of elements dissolving in sea water (Part III).Bull. Soc. Salt. Sci. Tokyo 12 (6): 322–328. (in Japanese)

—, 1969. Distribution and regular relations of quantities of chemical elements in sea water including so-called nutrient elements.Morning Review Lectures, 2nd Int. Conf. Oceanogr. UNESCO, Paris, pp. 83–92.

Koyama, M., 1961. Oxidation states of ruthenium and its coprecipitation with ferric hydroxide.J. Chem. Soc. Japan 82 (9): 1182–1186. (in Japanese)

Kuwamoto, T., 1960. Chemical studies on the ocean LXXXIV. Coprecipitation of vanadium (V) with ferric hydroxide. ibid.J. Chem. Soc. Japan 81 (11): 1669–1673. (in Japanese)

Langergren, S. & O. Joensuu, 1965. Studies on trace element distribution in a sediment core from the Pacific Ocean, inProgress in Oceanography Vol. 3 (M. Sears, ed.), Pergamon, Oxford, pp. 179–189.

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Mitsuo Abe & Takuji Ito, 1965. Ion adsorptive properties of insoluble di- and trivalent metal hydroxides and hydrous oxides; Ion adsorptive properties of insoluble tetra-, penta-, hexa-valent metal hydrous oxides.J. Chem. Soc. Japan 86: (a) 817, (b) 1259. (in Japanese)

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—, 1973. Electrostatic force theory for a molecule and interacting molecules II. Shapes of the ground and excited state molecules. ibid.J. Am. Chem. Soc. 95: 354–361.

—, 1973. Electrostatic force theory for a molecule and interacting molecules. III. Overlap effect on the atomic dipole and exchange forces, orbital following and proceding, and the shapes of Xm ABYn molecules. ibid.J. Am. Chem. Soc. 95: 2084–2095.

—, & T. Koga, 1974. Electrostatic force theory for a molecule and interacting molecules IV. Longrange forces between two atoms. ibid.J. Am. Chem. Soc. 96: 6000–6008. (in Japanese).

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Pekárek, V. & V. Veselý, 1972. Synthetic inorganic ion-exchangers-II. Salt of heteropolyacids, insaluble ferrocyanides, synthetic aluminosilicates and miscellaneous exchangers.Talanta 19 (11): 1245–1283.

Raimes, S., 1972.Many Electron Theory, North Holland, Amsterdam.

Veselý, V. & V. Pekárek, 1972. Synthetic inorganic ion-exchangers-I. Hydrous oxides and acidic salts of multivalent metals.Talanta 19 (3): 219–262.

Zhou Shi-xun, 1961.Quantum Mechanics (in Chinese), Shanghai Sci. & Technology Publ. House. (a) p. 345, (b) p. 349.

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