Top

Metallurgical and Materials Transactions B

Published in:

25-09-2019

Highly Efficient Separation/Recycling Palladium(II) Ions from Aqueous Solutions by Silica Gel-Coated Graphene Oxide Modified with Mercapto Groups

Authors: Min Li, Si Tang, Jian Feng, Kun Huang, Xiaojing Meng, Feng Gao, Songshan Jiang

Published in: Metallurgical and Materials Transactions B | Issue 6/2019

Activate our intelligent search to find suitable subject content or patents.

search-config

AI-assisted search

Off

Abstract

The separation and recovery of precious metals from secondary resources is an extremely important and challenging task. Herein, a novel sorbent is successfully prepared by chemical grafting and utilized for the extraction and separation of Pd(II) ions from aqueous solutions. Various characterization techniques, including Fourier transform infrared spectroscopy, scanning electron microscopy, Brunauer–Emmett–Teller, X-ray photoelectron spectroscopy, and element analysis, are employed to study the structure, morphology, porous nature, and chemical composition of the as-prepared SiO₂@GO-SH nanocomposites. The adsorption of Pd(II) ions on the SiO₂@GO-SH can be described by the pseudo-second-order model and Langmuir isotherm model. The adsorption equilibrium has been attained within 90 min and the maximum adsorption capacity of 423.2 mg g⁻¹ was attained at pH 3.5 and T = 308 K. The results reveal that SiO₂@GO-SH exhibits an excellent adsorption performance towards Pd(II) ions. In addition, we have proposed the adsorption mechanism for Pd(II) ions on the SiO₂@GO-SH surface. The adsorption of Pd(II) in SiO₂@GO-SH is a chemisorption process, where partial adsorbed Pd(II) ions are reduced to Pd(0) by functional groups (-SH) in the SiO₂@GO-SH. The results indicate that SiO₂@GO-SH can serve as a promising sorbent for the efficient separation and recovery of palladium from the palladium-containing secondary resources.

previous article Kinetics of the Carbothermic Reduction of Manganese Oxide from Slag

next article Cationic Effect of Ferrous Ions on Sulfide Capacity of CaO-FetO-Al2O3-SiO2 Slag System

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

über 102.000 Bücher
über 537 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Finance + Banking
Management + Führung
Marketing + Vertrieb
Maschinenbau + Werkstoffe
Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

inform now

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

über 67.000 Bücher
über 390 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Maschinenbau + Werkstoffe

Jetzt Wissensvorsprung sichern!

inform now

K. Yamamoto, J. Li, J.A.O. Garber, J.D. Rolfes, G.B. Boursalian, J.C. Borghs, C. Genicot, J. Jacq, M. van Gastel, F. Neese and T. Ritter, Nature., 2018, vol. 554, pp. 511.

D. Fujita, Y. Ueda, S. Sato, N. Mizuno, T. Kumasaka and M. Fujita, Nature., 2016, vol. 540, pp. 563.

Y. Taninouchi and T.H. Okabe, Metall. Mater. Trans. B., 2018, vol. 49, pp. 1781.

Report on Critical raw materials for the EU-European Commission, 2014.

S. Sharma, A.S. KrishnaKumar and N. Rajesh, Rsc Adv, 2017, vol. 7, pp. 52133-142.

D. Fontana, M. Pietrantonio, S. Pucciarmati, G.N. Torelli, C. Bonomi and F. Masi, J. Mater Cycles Waste, 2018, vol. 20, pp. 1199.

S. Lin, J.K. Bediako, C. Cho, M. Song, Y. Zhao, J. Kim, J. Choi and Y. Yun, Chem. Eng. J., 2018, vol. 345, pp. 337 .

S. Nagireddi, A.K. Golder and R. Uppaluri, J. Wat. Pro. Eng., 2017, vol. 19, pp. 8-17.

L. Zhong, J. Zhang, Q. Zhang, M. Chen and Z. Huang, Rsc Adv, 2017, vol. 7, pp. 39244 .

10.

Y. Dai, Y. Liu and A. Zhang, J. Porous Mat., 2017, vol. 24, pp. 1037.

11.

Z. Peng, Z. Li, X. Lin, H. Tang, L. Ye, Y. Ma, M. Rao, Y. Zhang, G. Li and T. Jiang, Jom-US, 2017, vol. 69, pp. 1553.

12.

S. Sharma, C. Wu, R.T. Koodali and N. Rajesh, Rsc Adv, 2016, vol. 6, pp. 26668 .

13.

B. Zhang, S. Wang, L. Fu and L. Zhang, Polymers-basel, 2018, vol. 10, pp. 437 .

14.

İ. Duru, D. Ege and A.R. Kamali, J. Mater. Sci., 2016, vol. 51, pp. 6097 .

15.

Q. Ricoux, J.P. Méricq, D. Bouyer, V. Bocokić, L.C. Hernandez-Juarez, S. van Zutphen and C. Faur, Sep. Purif. Technol., 2017, vol. 174, pp. 159-165.

16.

B. Zhang, L. Fu, S. Wang and L. Zhang, Mater. Chem. Phys., 2018, vol. 214, pp. 533-539.

17.

G. Ge, X. Yuanlai, Y. Xinxin, W. Fen, Z. Fang, Y. Junxia and C. Ruan, Sci. Rep., 2017, vol. 7, 11290.

18.

M. Li, M. Li, C. Feng and Q. Zeng, Appl. Surf. Sci., 2014, vol. 314, pp. 1063-69.

19.

M. Li, X. Meng, X. Liang, J. Yuan, X. Hu, Z. Wu and X. Yuan, Hydrometallurgy, 2018, vol. 176, pp. 243 .

20.

S. Sivrikaya, H. Altundag, M. Zengin and M. Imamoglu, Sep. Sci. Technol., 2011, vol. 46, pp. 2032-2040.

21.

A.I.A. Sherlala, A.A.A. Raman, M.M. Bello and A. Asghar, Chemosphere, 2018, vol. 193, pp. 1004 .

22.

W. Peng, H. Li, Y. Liu and S. Song, J. Mol. Liq., 2017, vol. 230, pp. 496.

23.

S. Dey, S. Podder, A. Roychowdhury, D. Das and C.K. Ghosh (2018) J. Environ. Manag. 211, pp. 356-66.

24.

S. Koushkbaghi, A. Zakialamdari, M. Pishnamazi, H.F. Ramandi, M. Aliabadi and M. Irani, Chem. Eng. J., 2018, vol. 337, pp. 169.

25.

L. Yu, Q. Zhang, B. Yang, Q. Xu, Q. Xu and X. Hu, Sensor Actuat B-Chem, 2018, vol. 259, pp. 540.

26.

Q. Liu, J. Shi, J. Sun, T. Wang, L. Zeng and G. Jiang, Angew. Chem. Int. Edit, 2011, vol. 50, pp. 5913.

27.

D. Zhao, X. Gao, C. Wu, R. Xie, S. Feng and C. Chen, Appl. Surf. Sci., 2016, vol. 384, pp. 1.

28.

D. Zhao, Q. Zhang, H. Xuan, Y. Chen, K. Zhang, S. Feng, A. Alsaedi, T. Hayat and C. Chen, J. Colloid interf. Sci., 2017, vol. 506, pp. 300.

29.

H. Hosseinzadeh, S. Ramin, Int. J. Biol. Macromol., 2018, vol. 113, pp. 859.

30.

L. Cui, Y. Wang, L. Gao, L. Hu, L. Yan, Q. Wei and B. Du, Chem. Eng. J., 2015, vol. 281, pp. 1.

31.

C. He, Z. Yang, J. Ding, Y. Chen, X. Tong and Y. Li, Colloid Surface A, 2017, vol. 520, pp. 448.

32.

H.H. El-Maghrabi, S.M. Abdelmaged, A.A. Nada, F. Zahran, S.A. El-Wahab, D. Yahea, G.M. Hussein and M.S. Atrees, J. Hazard. Mater., 2017, vol. 322, pp. 370.

33.

S. Motahari, B.S. Heidari and G.H. Motlagh, J. Appl. Polym. Sci., 2015, vol. 132, 1. https://doi.org/10.1002/app.42543.CrossRef

34.

A.R. Keshtkar, M. Irani and M.A. Moosavian, J. Taiwan. Inst. Chem. E., 2013, vol. 44, pp. 279.

35.

D. Perez-Quintanilla, I. Del Hierro, M. Fajardo and I. Sierra, Micropor. Mesopor. Mat., 2006, vol. 89, pp. 58.

36.

M. Li, C. Feng, M. Li, Q. Zeng, Q. Gan and H. Yang, Appl. Surf. Sci., 2015, vol. 332, pp. 463.

37.

T. Jiang, M. Dong, L. Yan, M. Fang and R. Liu, J. Nanosci. Nanotechno., 2018, vol. 18, pp. 4692.

38.

Z. Wang, P. Yin, R. Qu, H. Chen, C. Wang and S. Ren, Food Chem., 2013, vol. 136, pp. 1508.

39.

M. Li, C. Feng, M. Li, Q. Zeng and Q. Gan, Hydrometallurgy, 2015, vol. 154, pp. 63.

40.

M.B. Luo, Y.Y. Xiong, H.Q. Wu, X.F. Feng, J.Q. Li and F. Luo, T, Angew. Chem. Int. Edit, 2017, vol. 129, pp. 16594.

41.

J. Cao, G. Xu, Y. Xie, M. Tao and W. Zhang, Rsc Adv, 2016, vol. 6, pp. 58088.

42.

X. Liang, J. Han, Y. Xu, L. Wang, Y. Sun and X. Tan, Appl. Surf. Sci., 2014, vol. 322, pp. 194.

43.

N.H. Khdary, A.E.H. Gassim, A.G. Howard, T.S. Sakthivel and S. Seal, Anal Methods-UK, 2018, vol. 1, pp. 245.

44.

F. Porcaro, L. Carlini, A. Ugolini, D. Visaggio, P. Visca, I. Fratoddi, I. Venditti, C. Meneghini, L. Simonelli, C. Marini, W. Olszewski, N. Ramanan, I. Luisetto and C. Battocchio, Materials, 2016, vol. 9, pp. 1028.

45.

M. Wojnicki, R.P. Socha, Z. Pędzich, K. Mech, T. Tokarski and K. Fitzner, J. Chem. Eng. Data, 2018, vol. 63, pp. 702.

46.

S. Lin, W. Wei, X. Wu, T. Zhou, J. Mao and Y. Yun, J. Hazard. Mater., 2015, vol. 299, pp. 10 .

47.

S. Sharma and N. Rajesh, Chem. Eng. J., 2016, vol. 283, pp. 999 .

48.

S.W. Won, J. Park, J. Mao and Y. Yun, Bioresource Technol., 2011, vol. 102, pp. 3888 .

49.

T. Kimuro, M.R. Gandhi, U.M.R. Kunda, F. Hamada and M. Yamada, Hydrometallurgy, 2017, vol. 171, pp. 254 .

Title: Highly Efficient Separation/Recycling Palladium(II) Ions from Aqueous Solutions by Silica Gel-Coated Graphene Oxide Modified with Mercapto Groups
Authors: Min Li
Si Tang
Jian Feng
Kun Huang
Xiaojing Meng
Feng Gao
Songshan Jiang
Publication date: 25-09-2019
Publisher: Springer US
Published in: Metallurgical and Materials Transactions B / Issue 6/2019
Print ISSN: 1073-5615
Electronic ISSN: 1543-1916
DOI: https://doi.org/10.1007/s11663-019-01697-8

Springer Professional

Abstract

Please log in to get access to your license.

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft+Technik"

Springer Professional "Technik"

Other articles of this Issue 6/2019

Influence of Particle Size on Apparent Diffusivity During Spark Plasma Sintering of Crystalline Powders

A Thermodynamic Model Toward the Comprehension of Ferrous Burden Softening and Melting Using FactSage Macro-Processing

Agglomeration Mechanism of Complex Ti-Al Oxides in Liquid Ferrous Alloys Considering High-Temperature Interfacial Phenomenon

Numerical Prediction of Oscillation Behaviors of a Multiphase Core–Shell Droplet During Interfacial Tension Measurement

Thermal Behavior During the Selective Laser Melting Process of Ti-6Al-4V Powder in the Point Exposure Scan Pattern

Mechanisms and Kinetics of Reduction of Solid NiO in CO/CO2 and CO/Ar Gas Mixtures

Premium Partners