XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3 3201
Lee, K., Lim, S., Go, N., Kim, J., Mun, J., Kim, T.-H.,
2018. Dopamine-grafted heparin as an additive to the
commercialized carboxymethyl cellulose/styrene-buta-
diene rubber binder for practical use of SiOx/graphite
composite anode. Scientific Reports 8, 11322.
Liu, J., Shi, H., Hu, X., Geng, Y., Yang, L., Shao, P., Luo,
X., 2022. Critical strategies for recycling process of
graphite from spent lithium-ion batteries: A review.
Science of The Total Environment 816, 151621.
Liu, J., Wang, H., Hu, T., Bai, X., Wang, S., Xie, W., Hao,
J., He, Y., 2020. Recovery of LiCoO2 and graphite
from spent lithium-ion batteries by cryogenic grind-
ing and froth flotation. Minerals Engineering 148,
106223.
Marion, C., Jordens, A., Li, R., Rudolph, M., Waters,
K.E., 2017. An evaluation of hydroxamate collectors
for malachite flotation. Separation and Purification
Technology 183, 258–269.
Marshall, G.M., Patarachao, B., Moran, K., Mercier,
P.H.J., 2014. Zircon mineral solids concentrated
from Athabasca oil sands froth treatment tailings:
Surface chemistry and flotation properties. Minerals
Engineering 65, 79–87.
May, F., Hamann, S., Quade, A., Brüser, V., 2017. Froth
flotation improvement by plasma pretreatment of sul-
fide minerals. Minerals Engineering 113, 95–101.
Nazari, S., Li, J., Khoshdast, H., Li, J., Ye, C., He, Y.,
Hassanzadeh, A., 2023. Effect of roasting pretreatment
on micro-nanobubble-assisted flotation of spent lith-
ium-ion batteries. Journal of Materials Research and
Technology 24, 2113–2128.
Nazari, S., Zhou, S., Hassanzadeh, A., Li, J., He, Y., Bu,
X., Kowalczuk, P.B., 2022. Influence of operating
parameters on nanobubble-assisted flotation of graph-
ite. Journal of Materials Research and Technology 20,
3891–3904.
Okyere, A.Y., Rajendran, S., Annor, G.A., 2022. Cold
plasma technologies: Their effect on starch properties
and industrial scale-up for starch modification. Current
Research in Food Science 5, 451–463.
Ordoñez, J., Gago, E.J., Girard, A., 2016. Processes and
technologies for the recycling and recovery of spent
lithium-ion batteries. Renewable and Sustainable
Energy Reviews 60, 195–205.
Peters, J.F., Baumann, M., Zimmermann, B., Braun, J.,
Weil, M., 2017. The environmental impact of Li-Ion
batteries and the role of key parameters—A review.
Renewable and Sustainable Energy Reviews 67,
491–506.
Ran, J., Li, Y., Zong, M., Xu, H., Jiang, M., Gao, E.,
Zhang, Z., 2023. Flotation separation of pyrite from
arsenopyrite by surface discharge plasma modification.
Separation and Purification Technology 314, 123579.
Ren, X., Tong, Z., Dai, Y., Ma, G., Lv, Z., Bu, X., Bilal,
M., Vakylabad, A.B., Hassanzadeh, A., 2023. Effects
of Mechanical Stirring and Ultrasound Treatment on
the Separation of Graphite Electrode Materials from
Copper Foils of Spent LIBs: A Comparative Study,
Separations, p. 246.
Roy, J.J., Rarotra, S., Krikstolaityte, V., Zhuoran, K.W.,
Cindy, Y.D.-I., Tan, X.Y., Carboni, M., Meyer, D., Yan,
Q., Srinivasan, M., 2022. Green Recycling Methods
to Treat Lithium-Ion Batteries E-Waste: A Circular
Approach to Sustainability. Advanced Materials 34,
2103346.
Samal, S., 2017. Thermal plasma technology: The prospec-
tive future in material processing. Journal of Cleaner
Production 142, 3131–3150.
Sattar, R., Ilyas, S., Bhatti, H.N., Ghaffar, A., 2019.
Resource recovery of critically-rare metals by hydro-
metallurgical recycling of spent lithium ion batteries.
Separation and Purification Technology 209, 725–733.
Tong, Z., Ren, X., Ni, M., Bu, X., Dong, L., 2023. Review
of Ultrasound-Assisted Recycling and Utilization of
Cathode Materials from Spent Lithium-Ion Batteries:
State-of-the-Art and Outlook. Energy &Fuels 37,
14574–14588.
Tudoran, C., Roşu, M.-C., Coroş, M., 2020. A concise
overview on plasma treatment for application on textile
and leather materials. Plasma Processes and Polymers
17, 2000046.
Vanderbruggen, A., Salces, A., Ferreira, A., Rudolph, M.,
Serna-Guerrero, R., 2022. Improving Separation
Efficiency in End-of-Life Lithium-Ion Batteries
Flotation Using Attrition Pre-Treatment, Minerals.
Vapur, H., Bayat, O., Uçurum, M., 2010. Coal flotation
optimization using modified flotation parameters
and combustible recovery in a Jameson cell. Energy
Conversion and Management 51, 1891–1897.
Verdugo, L., Zhang, L., Saito, K., Bruckard, W., Menacho,
J., Hoadley, A., 2022. Flotation behavior of the most
common electrode materials in lithium ion batteries.
Separation and Purification Technology 301, 121885.
Vesel, A., Mozetic, M., 2017. New developments in surface
functionalization of polymers using controlled plasma
treatments. Journal of Physics D: Applied Physics 50,
293001.
Lee, K., Lim, S., Go, N., Kim, J., Mun, J., Kim, T.-H.,
2018. Dopamine-grafted heparin as an additive to the
commercialized carboxymethyl cellulose/styrene-buta-
diene rubber binder for practical use of SiOx/graphite
composite anode. Scientific Reports 8, 11322.
Liu, J., Shi, H., Hu, X., Geng, Y., Yang, L., Shao, P., Luo,
X., 2022. Critical strategies for recycling process of
graphite from spent lithium-ion batteries: A review.
Science of The Total Environment 816, 151621.
Liu, J., Wang, H., Hu, T., Bai, X., Wang, S., Xie, W., Hao,
J., He, Y., 2020. Recovery of LiCoO2 and graphite
from spent lithium-ion batteries by cryogenic grind-
ing and froth flotation. Minerals Engineering 148,
106223.
Marion, C., Jordens, A., Li, R., Rudolph, M., Waters,
K.E., 2017. An evaluation of hydroxamate collectors
for malachite flotation. Separation and Purification
Technology 183, 258–269.
Marshall, G.M., Patarachao, B., Moran, K., Mercier,
P.H.J., 2014. Zircon mineral solids concentrated
from Athabasca oil sands froth treatment tailings:
Surface chemistry and flotation properties. Minerals
Engineering 65, 79–87.
May, F., Hamann, S., Quade, A., Brüser, V., 2017. Froth
flotation improvement by plasma pretreatment of sul-
fide minerals. Minerals Engineering 113, 95–101.
Nazari, S., Li, J., Khoshdast, H., Li, J., Ye, C., He, Y.,
Hassanzadeh, A., 2023. Effect of roasting pretreatment
on micro-nanobubble-assisted flotation of spent lith-
ium-ion batteries. Journal of Materials Research and
Technology 24, 2113–2128.
Nazari, S., Zhou, S., Hassanzadeh, A., Li, J., He, Y., Bu,
X., Kowalczuk, P.B., 2022. Influence of operating
parameters on nanobubble-assisted flotation of graph-
ite. Journal of Materials Research and Technology 20,
3891–3904.
Okyere, A.Y., Rajendran, S., Annor, G.A., 2022. Cold
plasma technologies: Their effect on starch properties
and industrial scale-up for starch modification. Current
Research in Food Science 5, 451–463.
Ordoñez, J., Gago, E.J., Girard, A., 2016. Processes and
technologies for the recycling and recovery of spent
lithium-ion batteries. Renewable and Sustainable
Energy Reviews 60, 195–205.
Peters, J.F., Baumann, M., Zimmermann, B., Braun, J.,
Weil, M., 2017. The environmental impact of Li-Ion
batteries and the role of key parameters—A review.
Renewable and Sustainable Energy Reviews 67,
491–506.
Ran, J., Li, Y., Zong, M., Xu, H., Jiang, M., Gao, E.,
Zhang, Z., 2023. Flotation separation of pyrite from
arsenopyrite by surface discharge plasma modification.
Separation and Purification Technology 314, 123579.
Ren, X., Tong, Z., Dai, Y., Ma, G., Lv, Z., Bu, X., Bilal,
M., Vakylabad, A.B., Hassanzadeh, A., 2023. Effects
of Mechanical Stirring and Ultrasound Treatment on
the Separation of Graphite Electrode Materials from
Copper Foils of Spent LIBs: A Comparative Study,
Separations, p. 246.
Roy, J.J., Rarotra, S., Krikstolaityte, V., Zhuoran, K.W.,
Cindy, Y.D.-I., Tan, X.Y., Carboni, M., Meyer, D., Yan,
Q., Srinivasan, M., 2022. Green Recycling Methods
to Treat Lithium-Ion Batteries E-Waste: A Circular
Approach to Sustainability. Advanced Materials 34,
2103346.
Samal, S., 2017. Thermal plasma technology: The prospec-
tive future in material processing. Journal of Cleaner
Production 142, 3131–3150.
Sattar, R., Ilyas, S., Bhatti, H.N., Ghaffar, A., 2019.
Resource recovery of critically-rare metals by hydro-
metallurgical recycling of spent lithium ion batteries.
Separation and Purification Technology 209, 725–733.
Tong, Z., Ren, X., Ni, M., Bu, X., Dong, L., 2023. Review
of Ultrasound-Assisted Recycling and Utilization of
Cathode Materials from Spent Lithium-Ion Batteries:
State-of-the-Art and Outlook. Energy &Fuels 37,
14574–14588.
Tudoran, C., Roşu, M.-C., Coroş, M., 2020. A concise
overview on plasma treatment for application on textile
and leather materials. Plasma Processes and Polymers
17, 2000046.
Vanderbruggen, A., Salces, A., Ferreira, A., Rudolph, M.,
Serna-Guerrero, R., 2022. Improving Separation
Efficiency in End-of-Life Lithium-Ion Batteries
Flotation Using Attrition Pre-Treatment, Minerals.
Vapur, H., Bayat, O., Uçurum, M., 2010. Coal flotation
optimization using modified flotation parameters
and combustible recovery in a Jameson cell. Energy
Conversion and Management 51, 1891–1897.
Verdugo, L., Zhang, L., Saito, K., Bruckard, W., Menacho,
J., Hoadley, A., 2022. Flotation behavior of the most
common electrode materials in lithium ion batteries.
Separation and Purification Technology 301, 121885.
Vesel, A., Mozetic, M., 2017. New developments in surface
functionalization of polymers using controlled plasma
treatments. Journal of Physics D: Applied Physics 50,
293001.