LibCat » Книги » Приключения » unrecognised » Application of Nanotechnology in Mining Processes

Application of Nanotechnology in Mining Processes

Здесь есть возможность читать онлайн «Application of Nanotechnology in Mining Processes» — ознакомительный отрывок электронной книги совершенно бесплатно, а после прочтения отрывка купить полную версию. В некоторых случаях можно слушать аудио, скачать через торрент в формате fb2 и присутствует краткое содержание. Жанр: unrecognised, на английском языке. Описание произведения, (предисловие) а так же отзывы посетителей доступны на портале библиотеки ЛибКат.

Читать книгу

Название:
Application of Nanotechnology in Mining Processes
Автор:
Неизвестный Автор
Жанр:
unrecognised / на английском языке
Год:
неизвестен
ISBN:
нет данных
Рейтинг книги:
5 / 5. Голосов: 1
Избранное:

Добавить в избранное
Отзывы:
Написать комментарий
Ваша оценка:
- 100
- 1
- 2
- 3
- 4
- 5

Application of Nanotechnology in Mining Processes: краткое содержание, описание и аннотация

Предлагаем к чтению аннотацию, описание, краткое содержание или предисловие (зависит от того, что написал сам автор книги «Application of Nanotechnology in Mining Processes»). Если вы не нашли необходимую информацию о книге — напишите в комментариях, мы постараемся отыскать её.

>Application of Nanotechnology in Mining Processes
Nanotechnology has revolutionized processes in many industries but its application in the mining industry has not been widely discussed. This unique book provides an overview of the successful implementation of nanotechnology in some of the key environmental and beneficiation mining processes.
Audience

Application of Nanotechnology in Mining Processes — читать онлайн ознакомительный отрывок

Ниже представлен текст книги, разбитый по страницам. Система сохранения места последней прочитанной страницы, позволяет с удобством читать онлайн бесплатно книгу «Application of Nanotechnology in Mining Processes», без необходимости каждый раз заново искать на чём Вы остановились. Поставьте закладку, и сможете в любой момент перейти на страницу, на которой закончили чтение.

Тёмная тема

Шрифт:

↓

↑

Сбросить

Интервал:

↓

↑

Закладка:

Сделать

45. Wang, Q., Zhao, B., Li, G., Zhou, R., Application of rare earth modified Zr-based ceria-zirconia solid solution in three-way catalyst for automotive emission control. Environ. Sci. Technol ., 44, 10, 3870–5, 2010 May 15.

46. Naidu, G., Ryu, S., Thiruvenkatachari, R., Choi, Y., Jeong, S., Vigneswaran, S., A critical review on remediation, reuse, and resource recovery from acid mine drainage. Environ. Pollut ., 247, 1110–24, 2019 Apr 1.

47. Yilmaz, T., Yucel, A., Cakmak, Y., Uyanik, S., Yurtsever, A., Ucar, D., Treatment of acidic mine drainage in up-flow sulfidogenic reactor: Metal recovery and the pH neutralization. J. Water Process Eng ., 32, 100916, 2019 Dec 1.

48. Kefeni, K.K., Msagati, T.A., Mamba, B.B., Acid mine drainage: Prevention, treatment options, and resource recovery: A review. J. Cleaner Prod ., 151, 475–93, 2017 May 10.

49. Masindi, V., Ndiritu, J.G., Maree, J.P., Fractional and step-wise recovery of chemical species from acid mine drainage using calcined cryptocrystalline magnesite nano-sheets: An experimental and geochemical modelling approach. J. Environ. Chem. Eng ., 6, 2, 1634–50, 2018 Apr 1.

50. Tabelin, C.B., Park, I., Li, X., Seng, S., Villacorte-Tabelin, M., Igarashi, T., Ito, M., Hiroyoshi, N., Development of advanced pyrite passivation strategies towards sustainable management of acid mine drainage. IOP Conf. Ser.: Earth Environ. Sci ., 351, 1, 012010, 2019 Oct 1. IOP Publishing.

51. Rambabu, K., Banat, F., Pham, Q.M., Ho, S.H., Ren, N.Q., Show, P.L., Biological remediation of acid mine drainage: Review of past trends and current outlook. Environ. Sci. Ecotechnol ., 2, 100024, 2020 Apr 1.

52. Bethi, B., Sonawane, S.H., Bhanvase, B.A., Gumfekar, S.P., Nanomaterialsbased advanced oxidation processes for wastewater treatment: a review. Chem. Eng. Process.: Process Intensif ., 109, 178–189, 2016.

53. Beiki, S., Moniri, E., Hassani, A.H., Ahmad Panahi, H., Preparation and Characterization of Dendrimer-Modified Magnetite Nanoparticles for Adsorption of Humic Acid from Aqueous Solution. ChemistrySelect , 5, 24, 7197–204, 2020 Jun 30.

54. Augustus, E.N., Allen, E.T., Nimibofa, A., Donbebe, W., A review of synthesis, characterization and applications of functionalized dendrimers. Am. J. Polym. Sci ., 7, 8–14, 2017.

55. Han, Y.L., Kim, S.Y., Kim, T., Kim, K.H., Park, J.W., The role of terminal groups in dendrimer systems for the treatment of organic contaminants in aqueous environments. J. Cleaner Prod ., 250, 119494, 2020 Mar 20.

56. Arshadi, M., Mousavinia, F., Khalafi-Nezhad, A., Firouzabadi, H., Abbaspourrad, A., Adsorption of mercury ions from wastewater by a hyper-branched and multi-functionalized dendrimer modified mixed-oxides nanoparticles. J. Colloid Interface Sci ., 505, 293–306, 2017 Nov 1.

57. Arshadi, M., Mousavinia, F., Khalafi-Nezhad, A., Firouzabadi, H., Abbaspourrad, A., Adsorption of mercury ions from wastewater by a hyper-branched and multi-functionalized dendrimer modified mixed-oxides nanoparticles. J. Colloid Interface Sci ., 505, 293–306, 2017 Nov 1.

58. Sajid, M., Dendrimers based sorbents: Promising materials for analytical extractions. TrAC Trends Anal. Chem ., 98, 114–27, 2018 Jan 1.

59. Han, Y.L., Kim, S.Y., Kim, T., Kim, K.H., Park, J.W., The role of terminal groups in dendrimer systems for the treatment of organic contaminants in aqueous environments. J. Clean. Prod ., 250, 119494, 2020 Mar 20.

60. Yen, C.H., Lien, H.L., Chung, J.S., Yeh, H.D., Adsorption of precious metals in water by dendrimer modified magnetic nanoparticles. J. Hazard. Mater ., 322, 215–22, 2017 Jan 15.

61. Fox, L.J., Richardson, R.M., Briscoe, W.H., PAMAM dendrimer-cell membrane interactions. Adv. Colloid Interface Sci ., 257, 1–8, 2018 Jul 1.

62. Hu, H., Wang, H., Liang, S., Li, X., Wang, D., Synthesis and characterization of a PAMAM dendrimer nanocarrier functionalized by HA for targeted gene delivery systems and evaluation in vitro . J. Biomater. Sci. Polym. Ed ., 32, 2, 205–28, 2021 Jan 22.

63. Sohail, I., Bhatti, I.A., Ashar, A., Sarim, F.M., Mohsin, M., Naveed, R., Yasir, M., Iqbal, M., Nazir, A., Polyamidoamine (PAMAM) dendrimers synthesis, characterization and adsorptive removal of nickel ions from aqueous solution. J. Mater. Res. Technol ., 9, 1, 498–506, 2020 Jan 1.

64. Ertürk, A.S. and Elmacı, G., PAMAM dendrimer functionalized manganese ferrite magnetic nanoparticles: microwave-assisted synthesis and characterization. J. Inorg. Organomet. Polym. Mater ., 28, 5, 2100–7, 2018 Sep.

65. Kaczorowska, M.A. and Cooper, H.J., Electron capture dissociation and collision-induced dissociation of metal ion (Ag+, Cu2+, Zn2+, Fe2+, and Fe3+) complexes of polyamidoamine (PAMAM) dendrimers. J. Am. Soc. Mass Spectrom ., 20, 4, 674–81, 2008 Dec 27.

66. Chou, C.M. and Lien, H.L., Dendrimer-conjugated magnetic nanoparticles for removal of zinc (II) from aqueous solutions. J. Nanopart. Res ., 13, 5, 2099–107, 2011 May.

67. Hughes, D.L., Afsar, A., Laventine, D.M., Shaw, E.J., Harwood, L.M., Hodson, M.E., Metal removal from soil leachates using DTPA-functionalised maghemite nanoparticles, a potential soil washing technology. Chemosphere ., 209, 480–8, 2018 Oct 1.

68. Gwenzi, W., Mangori, L., Danha, C., Chaukura, N., Dunjana, N., Sanganyado, E., Sources, behaviour, and environmental and human health risks of high-technology rare earth elements as emerging contaminants. Sci. Total Environ ., 636, 299–313, 2018 Sep 15.

69. Fu, T., Niu, Y., Zhou, Y., Wang, K., Mu, Q., Qu, R., Chen, H., Yuan, B., Yang, H., Adsorption of Mn (II) from aqueous solution by silica-gel supported polyamidoamine dendrimers: Experimental and DFT study. J. Taiwan Inst. Chem. Eng ., 97, 189–99, 2019 Apr 1.

70. Ma, Y.X., Kou, Y.L., Xing, D., Jin, P.S., Shao, W.J., Li, X., Du, X.Y., La, P.Q., Synthesis of magnetic graphene oxide grafted polymaleicamide dendrimer nanohybrids for adsorption of Pb (II) in aqueous solution. J. Hazard. Mater ., 340, 407–16, 2017 Oct 15.

71. Grasso, V.B., Rare earth elements in national defense: Background, oversight issues, and options for Congress , September, Library Of Congress Washington DC Congressional Research Service, 2013.

72. Castillo, V.A., Barakat, M.A., Ramadan, M.H., Woodcock, H.L., Kuhn, J.N., Metal ion remediation by polyamidoamine dendrimers: a comparison of metal ion, oxidation state, and titania immobilization. Int. J. Environ. Sci. Technol ., 11, 6, 1497–502, 2014 Sep 1.

73. Shi, X., Thomas, T.P., Myc, L.A., Kotlyar, A., Baker Jr., J.R., Synthesis, characterization, and intracellular uptake of carboxyl-terminated poly (amidoamine) dendrimer-stabilized iron oxide nanoparticles. Phys. Chem. Chem. Phys ., 9, 42, 5712–20, 2007.

74. Rasoulnia, P., Barthen, R., Lakaniemi, A.M., A critical review of bioleaching of rare earth elements: The mechanisms and effect of process parameters. Crit. Rev. Environ. Sci. Technol ., 51, 4, 378–427, 2021 Feb 16.

75. Cotton, S., Lanthanide and actinide chemistry , John Wiley & Sons, Rutland, UK, 2013 Mar 15.

1 *Corresponding author: ajohnleo33@gmail.com

Конец ознакомительного фрагмента.

Текст предоставлен ООО «ЛитРес».

Прочитайте эту книгу целиком, купив полную легальную версию на ЛитРес.