SCIENTIFIC
PAPERS
176) Z. Brabcová, Th. Karapantsios, M. Kostoglou, P. Basařová, K. Matis, Bubble–particle collision interaction in flotation systems, Coll. Surf. A 473, 95-103 (2015).
175) G.Z. Kyzas and K.A.
Matis, Nanoadsorbents for pollutants removal: A review, J. Molecular Liquids 203,
159–168 (2015).
174) G.Z. Kyzas and K.A. Matis, Layered double hydroxides and
certain environmental applications (the contribution of
LGICT), in Layered
Double Hydroxides (LDHs): Synthesis, Characterization and Applications, ed. I.T. Sherman, Nova Science Publishers, New York (2015), pp.
121-132.
173) G.Z. Kyzas, J. Fu, N.K.
Lazaridis, D.N. Bikiaris and K.A. Matis, New approaches on the removal of
pharmaceuticals from wastewaters with adsorbent materials, J. Molecular Liquids209, 87-93 (2015).
172) E.A. Deliyanni, G.Z. Kyzas,
K.S. Triantafyllidis and K.A. Matis, Activated carbons for heavy metal
ions removal: A systematic review of recent literature focused on lead and
arsenic ions, Open
Chem. 13,
1–7 (2015).
171)
G.Z. Kyzas, M.P. Symeonidou and K.A. Matis,
Technologies of winery wastewater treatment: a critical approach, Desalination Water Treatment (2014).
170) M.R. Mahmoud, N.K. Lazaridis and K.A. Matis, Study of flotation conditions for
cadmium(II) removal from aqueous solutions, Process Safety Environ. Protection, 94, 203-211 (2015).
169)
G.Z. Kyzas, J. Fu and K.A. Matis, New biosorbent
materials: Selectivity and bioengineering insights,
Special Issue "Advances in Bioseparation Engineering", Guest Editors K.A. Matis and G.Z. Kyzas, Processes 2(1), 419-440 (2014).
168)
G.Z. Kyzas and K.A. Matis,
Flotation of biological materials,
Special Issue "Advances in Bioseparation Engineering", Guest
Editors K.A. Matis
and G.Z. Kyzas,
Processes
2(1), 293-310 (2014).
167)
G.Z. Kyzas, E.A. Deliyanni and K.A. Matis, Graphene oxide and its application
as adsorbent to wastewater treatment, J.
Chem. Tech. Biotechnol. 89, 196-205 (2013).
166) G.Z. Kyzas, E.A. Deliyanni , S.I. Bele, K.A. Matis, Nano-adsorbent
for arsenates:
iron oxyhydroxide impregnated microporous activated carbon, Current Environmental Engineering in
press (2013).
165) G.
Kyzas , J. Fu and K.A. Matis, The change from past to future for adsorbent
materials in treatment of dyeing
wastewaters, Materials 6, 5131-5158
(2013).
164) C.K. Nitsos, K.A.
Matis and K.S. Triantafyllidis, Optimization
of hydrothermal pretreatment of lignocellulosic biomass in the bioethanol
production process, ChemSusChem 6,
110-122 (2013).
163) E.
Deliyanni, T.J. Bandosz and K.A. Matis, Impregnation of activated carbon by
iron-hydroxide and its effect on arsenate removal, J. Chem. Tech. Biotechnol. 88,:
1058–1066 (2013).
162) C.K. Nitsos, C.M. Mihailof, K.A.
Matis, A.A. Lappas and K.S. Triantafyllidis, The role of catalytic pretreatment in biomass valorization towards fuels
and chemicals, in The Role of Catalysis for the Sustainable Production of Bio-fuels
and Bio-chemicals, K.S. Triantafyllidis, A.A. Lappas and M.
Stöcker (eds.), Elsevier (2013), pp. 217-260.
161) E.
Deliyanni, A. Arabatzidou, N. Tzoupanos and K.A. Matis, Adsorption of Pb2+
using mesoporous activated carbon and its effects on surface modifications, Adsorption
Sci. Tech. 30, 627-646 (2012).
160) E.A.
Deliyanni, N.K. Lazaridis and K.A. Matis, Arsenates sorption by nanocrystalline
hybrid surfactant-akaganéite, Sep.
Sci. Tech. 47, 2331–2339
(2012).
159)
A.I. Zouboulis and K.A. Matis, Cadmium ion removal by electroflotation onto
sewage sludge biomass, K.A. Matis, guest editor, special issue: Metal ions
Removal from Liquid Effluents, part 2, Int.
J. Envir. Waste Management 9(3/4),
245-256 (2012).
158)
D.D. Asouhidou, K.S. Triantafyllidis, N.K. Lazaridis and K.A. Matis, Adsorption
of reactive dyes from aqueous solutions by layered double hydroxides, J. Chem. Tech. Biotechnol. 87,
575–582 (2012).
157) K.A.
Matis, guest editor, Int. J. Envir. Waste Management,
special issue: Metal ions Removal from Liquid Effluents, 8 (3/4), (2011): (a) V.A. Emmanouil, Th.D. Karapantsios and K.A.
Matis, Two-and three-phase simulations of an ill-functioning dissolved-air
flotation tank, pp. 215-228; (b) E.N. Peleka, N.K. Lazaridis and K.A. Matis, A
hybrid flotation-microfiltration for effluent treatment, pp. 273-285; (c) E.A.
Deliyanni, E.N. Peleka, G.P. Gallios and K.A. Matis, A critical review of the
separation of arsenic oxyanions from dilute aqueous solution (the contribution
of LGICT), pp. 286-304.
156) D.
Zamboulis, E.N. Peleka, N.K. Lazaridis and K.A. Matis, Metal ion separation and
recovery from environmental sources using various flotation and sorption
techniques, J. Chem. Tech. Biotechnol.
86 (3), 335–344 (2011).
155) Å.Í.
Peleka and K.A. Matis, Water separation processes and sustainability, Ind. Eng. Chem. Res. 50 (2),
421–430 (2011).
154) K.S.
Triantafyllidis and K.A. Matis, guest editors, Innovations in Adsorption
Technology, Int. J. Envir. Tech. & Management 12(2/3/4),
(2010); A.I. Zouboulis and K.A. Matis, Hydrophobicity
in biosorptive flotation for metal ion removal, pp. 192-201.
153) (a)
M.X. Loukidou, E.N. Peleka, Th.D. Karapantsios and K.A. Matis, Biosorption of
metal ions, Trends Chem. Eng. 13, 53-64 (2011); (b) A.I. Zouboulis, N.K. Lazaridis, Th.D. Karapantsios and K.A. Matis, Heavy metals removal from industrial wastewaters by biosorption, Int. J. Envir. Eng. Sci. 1(1),
57-78 (2010).
152)
K.A. Matis and E.N. Peleka, Alternative flotation techniques for wastewater
treatment: focus on electroflotation, Sep.
Sci. Tech. 45, 2465-2474 (2010).
151) Å.Í. Peleka and K.A. Matis, Bioremoval of
metal ion and water treatment in a hybrid unit, Sep. Sci. Tech. 44, 3597-3614 (2009).
150) Å.Í. Peleka, P. Mavros, A.I. Zouboulis and
K.A. Matis, A hybrid flotation-microfiltration cell for effluent treatment, Desalination 248, 881-890 (2009).
ii)
A.I. Zouboulis, A. Kungolos, P. Samaras, K.A. Matis, Editorial, p. 880.
149) E.A. Deliyanni, E.N. Peleka and
K.A. Matis, Modeling the sorption of metal ions from aqueous solution by
iron-based adsorbents, J. Hazardous Mater. 172, 550-558 (2009).
148)
D.D. Asouhidou, K.S. Triantafyllidis, N.K. Lazaridis and K.A. Matis, Adsorption
of Remazol Red 3BS from aqueous solutions using APTES- and cyclodextrin-modified
HMS-type mesoporous silicas, Coll. Surf.
A 346, 83-90 (2009).
147)
A.I. Zouboulis and K.A. Matis, Biosorptive flotation for metal ions removal:
the influence of surface tension, Desalination
253, 1-13 (2009).
146)
A.I. Zouboulis and K.A. Matis, Bioremoval of toxic metals from aqueous mixtures
and recovery of biomass by dispersed-air flotation, Int. J. Envir. Eng. 1(2), 208-219 (2009).
145)
D.D. Asouhidou, K.S. Triantafyllidis, N.K. Lazaridis, K.A. Matis, S.-S. Kim and
T.J. Pinnavaia, Sorption of reactive dyes from aqueous solutions by ordered
hexagonal and disordered mesoporous carbons, Microporous and Mesoporous
Materials 117, 257-267 (2009).
144) Å.Í.
Peleka and K.A. Matis, Application of flotation as a pretreatment process
during desalination, Desalination 222,
1-8 (2008).
143)
(a) E.A. Deliyanni, E.N. Peleka and K.A. Matis, Removal of arsenites onto
akaganéite-type adsorbents, Int. J. Envir. Waste Management 2(3), 279-291 (2008);
(b)
A.I. Zouboulis, N.K. Lazaridis and K.A. Matis, The process of flotation: an
efficient solid/liquid separation technique for biological materials, Intl. J. Envir. & Pollution 32, 29-42 (2008);
(c) K.A. Matis, A.I. Zouboulis, N.K. Lazaridis and Th.D. Karapantsios,
Metal ions biosorption from dilute
aqueous solution, Intl. J. Envir.
& Pollution 34 (1-4), 231 - 245 (2008).
142) V.
Nenov, N.K. Lazaridis, C. Blöcher, B. Bonev and K.A. Matis, Metal recovery
from a copper mine effluent by a hybrid process, Chem. Eng. Process. 47, 596-602 (2008).
141) M.
Kostoglou, T.D. Karapantsios and K.A. Matis, CFD model for the design of large scale
flotation tanks for water and wastewater treatment, Ind. Eng. Chem. Res.,
46, 6590-6599 (2007).
140)
E.A. Deliyanni, E.N. Peleka and K.A. Matis, Effect of cationic surfactant on
the adsorption of arsenites onto akaganeite nanocrystals, Sep. Sci. Tech.,
42, 993-1012 (2007).
139)
G.P. Gallios, E.A. Deliyanni, E.N. Peleka and K.A. Matis, Flotation of chromite
and serpentine, Sep. Purif. Tech. 55, 232-237 (2007).
138)
E.A. Deliyanni, E.N. Peleka and Ê.Á. Ìatis, Removal of zinc ion from water by sorption onto
iron-based nanoadsorbent, J. Hazardous Mater.141, 176-184 (2007).
137)
K.A. Matis, guest editor, Intl. J. Envir.
& Pollution, special issue: Flotation in Wastewater Treatment, 30(2)
(2007):
i) K.A.
Matis, Preface, p. 177.
ii) V.
Emmanouil, E. Skaperdas, T.D. Karapantsios and K.A. Matis, Two phase
simulations of an off-nominally operating dissolved-air flotation tank, pp.
213-230.
iii) E.N. Peleka, K.A. Matis, C. Blöcher, V. Nenov
and V. Mavrov, The recovery of copper from a copper mine effluent in a hybrid
flotation / microfiltration cell, pp. 273-286.
iv) A.I. Zouboulis, K.A. Matis and N.K. Lazaridis, The application of
flotation for the downstream separation of microorganisms, pp. 287-295.
136)
E.N. Peleka, N.K. Lazaridis, P. Mavros and K.A. Matis, A new hybrid
flotation-microfiltration cell, Sep. Sci.
Tech. 41, 3229-3243 (2006).
135)
E.N. Peleka, P. Mavros, D. Zamboulis and K.A. Matis, Removal of phosphates from
water by a hybrid flotation-membrane filtration cell, Desalination 198,
198-207 (2006).
134)
E.N. Peleka, M.M. Fanidou, P.P. Mavros and K.A. Matis, A hybrid flotation-microfiltration
cell for S/L separation: operational characteristics, Desalination 194, 135-145 (2006).
133) M.
Kostoglou, Th.D. Karapantsios and K.A. Matis, Modeling local flotation
frequency in a turbulent flow field, Adv.
Coll. Interface Sci. 122, 79-91 (2006).
132)
E.A. Deliyanni, L. Nalbandian and K.A. Matis, Adsorptive removal of arsenites
by a nanocrystalline hybrid surfactant-akaganeite sorbent, J. Coll. Interface Sci. 302, 458-466 (2006).
131)
Th.A. Ioannidis, A.I. Zouboulis and K.A. Matis, Effective treatment and
recovery of laurionite-type lead from toxic industrial solid wastes, Sep. Purific.Tech. 48, 50-61 (2006).
130) Water
Encyclopedia, J.
Lehr, editor-in-chief, Wiley, Hoboken, N.J. (2005):
i) T.
Erwe, V. Mavrov, E.N. Peleka and K.A. Matis, Bonding of toxic metal ions, Domestic, Municipal and Industrial Water
Supply and Waste Disposal, vol. 1, pp. 586-591.
ii)
T. Erwe, C. Blöcher, V. Mavrov and K.A. Matis, Application of
microfiltration to industrial wastewaters, vol. 1, pp. 591-595.
iv) K.A.
Matis and N.K. Lazaridis, Sorptive
filtration, Water Quality and Resource
Development, vol. 2, pp. 362-367.
v) Th.D. Karapantsios,
M.X. Loukidou and K.A. Matis, Sorption kinetics, Oceanography; Meteorology;Physics and
Chemistry; Water Law; and Water History, Art and Culture, vol. 4, pp.
564-569.
129)
(a) M. Lehmann, A.I. Zouboulis, K.A. Matis and A. Grohmann, Sorption of arsenic
oxyanions from aqueous solution on goethite: a study of process modeling, Microchim. Acta 151, 269-275 (2005); (b)
A.I Zouboulis and K.A. Matis, The removal of metal ions from solution by
flotation, in J.V. Livingston (ed.), Trends
in Water Pollution Research, Nova Sci. Publishers, London (2005), chapter
5, 24 pp.
128)
E.A. Deliyanni and K.A. Matis, Sorption of Cd ions onto akaganeite-type
nanocrystals, Sep. Purific. Tech. 45/2,
96-102 (2005).
127)
M.X. Loukidou, T.D. Karapantsios, A.I. Zouboulis and K.A. Matis, Cadmium(II)
biosorption by Aeromonas Caviae: kinetic modeling, Sep. Sci. Tech. 40,
1293-1311 (2005).
126)
A.I. Zouboulis, E.N. Peleka, D. Zamboulis and K.A. Matis, Application of
flotation for the separation of metal-loaded resins, Sep. Sci. Tech. 40,
861-876 (2005).
125)
K.A. Matis, N.K. Lazaridis, A.I. Zouboulis, G.P. Gallios and V. Mavrov, A
hybrid flotation-microfiltration process for metal ions recovery, J.
Membrane Sci. 247, 29-35 (2005).
ii)
E.N. Peleka, N.K. Lazaridis, P. Mavros, K.A. Matis, A new hybrid
flotation-micrpfiltration cell, Australasian
Inst. Min. Metal., Publ. ser. 251-256 (2005).
124)
N.K. Lazaridis, E.N. Peleka, Th.D. Karapantsios and K.A. Matis, Copper recovery from effluents by various
separation techniques, Hydrometallurgy 74, 149-156 (2004).
123)
N.K. Lazaridis, T.A. Pandi and K.A. Matis, Chromium(VI) removal from aqueous
solutions by Mg-Al-CO3 hydrotalcite: sorption-desorption kinetic and
equilibrium studies, Ind. Eng. Chem. Res. 43, 2209-2215 (2004).
122)
M.X. Loukidou, Th.D. Karapantsios, A.I. Zouboulis and K.A. Matis,
Diffusion kinetic study of cadmium(II) biosorption by Aeromonas caviae, J.
Chem. Tech. Biotechnol. 79, 711-719
(2004).
121)
M.X. Loukidou, A.I. Zouboulis, Th.D. Karapantsios and K.A. Matis,
Equilibrium and kinetic modeling of chromium(VI) biosorption by Aeromonas caviae, Coll. Surf. A 242,
93-104 (2004).
120)
(a) M.X. Loukidou, Th.D. Karapantsios, A.I. Zouboulis and K.A.
Matis, Diffusion kinetic study of chromium(VI) biosorption by Aeromonas
caviae, Ind. Eng. Chem. Res. 43, 1748-1755 (2004). (b) Reply to "Comment on the Removal Mechanism of Hexavalent
Chromium by Biomaterials or Biomaterials-Based Activated Carbons", Ind. Eng. Chem. Res. 45,
2408 (2006).
119)
K.A. Matis, E.N. Peleka, D. Zamboulis, T. Erwe, V. Mavrov, Air sparging during
the solid/liquid separation by microfiltration: application of flotation, Sep.
Purific. Tech. 40, 1-7 (2004).
118)
K.A. Matis, A.I. Zouboulis, G.P. Gallios, T. Erwe and C. Blöcher,
Application of flotation for the separation of metal-loaded zeolites, Chemosphere
55, 65-72 (2004).
117)
N.K. Lazaridis, C. Blöcher, J. Dorda, K.A. Matis, A hybrid MF process
based on flotation, J. Membrane Sci. 228, 83-88 (2004).
116)
D. Zamboulis, S.I. Pataroudi, A.I. Zouboulis, K.A. Matis, The application of
sorptive flotation for the removal of metal ions, Desalination 162, 159-168
(2004).
115)
E.A. Deliyanni, N.K. Lazaridis, E.N. Peleka, K.A. Matis, Metals removal from
aqueous solution by iron-based bonding agents, Envir. Sci. Pollution Res. 11,
18-21 (2004).
114)
A.I. Zouboulis, M.X. Loukidou, K.A. Matis, Biosorption of toxic metals from
aqueous solutions by bacteria strains isolated from metal-polluted soils, Process
Biochem. 39, 909-916 (2004)
113)
A.I. Zouboulis, K.A. Matis, N.K. Lazaridis and P.N. Golyshin, The use of
biosurfactants in flotation: Application for the removal of metal ions, Minerals
Eng. 16, 1231-1236 (2003). ii) Erratum, ibid.
17, 105 (2004).
112)
M.X. Loukidou, K.A. Matis, A.I. Zouboulis and M. Liakopoulou-Kyriakidou,
Removal of As(V) from wastewaters by chemically modified fungal biomass, Wat.
Res. 37, 4544-4552 (2003).
111)
A.A. Tatsi, A.I. Zouboulis, K.A. Matis and P. Samaras, Coagulation-flocculation
pretreatment of sanitary landfill leachates, Chemosphere 53, 737-744
(2003).
110) C.
Blöcher, J. Dorda, V. Mavrov, H. Chmiel, N.K. Lazaridis, K.A. Matis,
Hybrid flotation-membrane filtration process for the removal of heavy metal
ions from wastewater, Water Res. 37, 4018-4026 (2003).
109)
K.A. Matis, A.I. Zouboulis and N.K. Lazaridis, Heavy metals removal by
biosorption and flotation, Water, Air, and Soil Pollution: Focus 3:
143-151 (2003).
108)
D.N. Bakoyannakis, E.A. Deliyanni, A.I. Zouboulis, K.A. Matis, L. Nalbandian and
Th. Kehagias, Akaganeite and goethite-type nanocrystals: synthesis and
characterization, Microporous Mesoporous Mater. 59, 35-42 (2003).
107)
(a) E.A. Deliyanni, D.N. Bakoyannakis, A.I. Zouboulis and K.A. Matis, Sorption
of As(V) ions by akaganeite-type nanocrystals, Chemosphere 50, 155-163
(2003); (b) P.M. Solozhenkin, E.A. Deliyanni, D.N. Bakoyannakis, A.I. Zouboulis
and K.A. Matis, Removal of As(V) ions from solution by akaganeite â-FeO(OH) nanocrystals, J. Min. Sci. 39, 287-296 (2003).
106)
A.I. Zouboulis, K.A. Matis, M. Loukidou and F. Šebesta, Metal biosorption
by PAN-immobilized fungal biomass in simulated wastewaters, Coll. Surf. A, 212,
185–195 (2003).
105)
(a) K.A. Matis, A.I. Zouboulis, N.K. Lazaridis, I.C. Hancock, Sorptive
flotation for metal ions recovery, Int. J. Miner. Process. 70, 99-108
(2003); (b) P.M. Solozhenkin, V.P. Nebera, A.I. Zouboulis and K.A. Matis, Metal
ion extraction by microorganism biomass and sorption flotation, J. Min. Sci. 39, 78-86 (2003).
104)
K.A. Matis and N.K. Lazaridis, Flotation techniques in water technology for
metals recovery: dispersed-air vs. dissolved-air flotation, J. Min. Metall.
A 38, 1-27 (2002).
103)
A.I. Zouboulis, N.K. Lazaridis and K.A. Matis, Removal of toxic metal ions from
aqueous systems by biosorptive flotation, J. Chem. Tech. Biotechnol. 77,
958-964 (2002).
102)
N.K. Lazaridis, A. Hourzemanoglou and K.A. Matis, Flotation of metal-loaded
clay anion exchangers. Part II: the case of arsenates, Chemosphere 47,
319-324 (2002).
101) M.
Palaiomylitou, K.A. Matis, A.I. Zouboulis and D.A. Kyriakidis, Optimization and
kinetic description of the production of highly active ice nucleation protein
overexpressed in E. coli, Biotech. Bioeng., 78, 321-332
(2002).
100)
K.A. Matis and A.I. Zouboulis, Flotation techniques in water technology for
metals recovery: the impact of speciation, Sep. Sci. Tech. 36,
3777-3800 (2001).
99)
A.I. Zouboulis, K.A. Matis and N.K. Lazaridis, Removal of metal ions from
simulated wastewater by Saccharomyces yeast biomass; combining
biosorption and flotation processes, Sep. Sci. Tech. 36, 349-365 (2001).
98)
A.I. Zouboulis, K.A. Matis, E.G. Rousou and D.A. Kyriakidis, Biosorptive
flotation for metal ions recovery, Wat. Sci. Tech. 43 (8), 123-129
(2001).
97) M.
Lehmann, A.I. Zouboulis and K.A. Matis, Modelling the sorption of metals from
aqueous solutions on goethite fixed-beds, Envir. Pollution 113, 121-128
(2001).
96) E.A.
Deliyanni, D.N. Bakoyannakis, A.I. Zouboulis, K.A. Matis and L. Nalbandian,
Akaganėite-type â-FeO(OH) nanocrystals: preparation and characterzation, Microporous
and Mesoporous Materials 42, 49-57 (2001).
95)
N.K. Lazaridis, K.A. Matis and M. Webb, Flotation of metal-loaded clay anion
exchangers. Part I: the case of chromates, Chemosphere 42, 373-378
(2001).
94) (a)
V.P. Nebera, P.M. Solozhenkin, A.I. Zouboulis and K.A. Matis, Removal of
chromium ions from mine waters and dilute aqueous solution with flotation
usage, Oxpaha Okpyx. Cped., no. 2, 57-60 (2000);
(b)
P.M. Solozhenkin, V.P. Nebera, A.I. Zouboulis and K.A. Matis, The biosorptive
flotation of metals, Doklady Akademii Nauk. 367 (5), 652-655 (1999);
(c) V.P. Nebera, P.M. Solozhenkin, A.I.
Zouboulis and K.A. Matis, Flotation of complex compounds of gold and silver, Russ.
J. Appl. Chem. 73, 1122-1126 (2000) (Russ.).
(d) P.M. Solozhenkin, E.A. Deliyanni, D.N. Bakoyannakis, A.I. Zouboulis, K.A. Matis, Removal of As(V) ions from solutions with nanocrystals,
Fiziko-Tekhnicheskie Problemy Razrabotki Poleznykh
Iskopaemykh (3), 92-102 (2003).
(e)
P.M. Solozhenkin, E.A. Deliyanni, D.N. Bakoyannakis, A.I. Zouboulis, K.A. Matis, Removal of As(V) ions from solution by akaganeite
â-FeO(OH) nanocrystals, Journal of Mining Science
39(3), 287-296 (2003).
(f)
P.M. Solozhenkin,.V.P. Nebera, A.I. Zouboulis, K.A.
Matis,.Metal ion extraction by microorganism biomass and sorption
flotation, Journal of Mining Science
39(1), 78-86 (2003).
(g)
A.I. Zouboulis, K.A. Matis, P.M. Solozhenkin,.V.P. Nebera, Recovery of cobalt from aqueous solutions by flotation,
Tsvetnye Metally (12) ,
10-12 (2002).
93) (a)
K.A. Matis, M. Lehmann and A.I. Zouboulis, Modelling sorption of metals from
aqueous solution onto mineral particles: The case of arsenic ions and goethite
ore, in P. Misaelides, F. Macašek, T.J. Pinnavaia and C. Colella (eds.), Natural
Microporous Materials in Environmental Technology, Kluwer Academic
Publishers, The Netherlands (1999), pp. 463-472.
(b) K.A. Matis, D. Zamboulis, A.I. Zouboulis
and N.K. Lazaridis, Goethite mineral as a sorbent for heavy metals, ibid.,
pp. 425-433.
92) M. Lehmann, A.I. Zouboulis
and K.A. Matis, Removal of metal ions from dilute aqueous solutions: a
comparative study of inorganic sorbent materials, Chemosphere 39, 881-892 (1999).
91) K.A. Matis, A.I. Zouboulis,
D. Zamboulis and A.V. Valtadorou, Sorption of As(V) by goethite particles
and study of their flocculation, Water,
Air and Soil Pollution 111, 297-316 (1999).
90) A.I. Zouboulis, E.G. Rousou,
K.A. Matis and I.C. Hancock, Removal of toxic metals from aqueous
mixtures: Part 1. Biosorption, J. Chem.
Tech. Biotechnol. 74, 429-436 (1999).
89) M.I. Kefala, A.I. Zouboulis
and K.A. Matis, Biosorption of cadmium ions by Actinomycetes and
separation by flotation, Envir. Pollution
104, 283-293 (1999).
88)
K.A. Matis and A.I. Zouboulis, Biosorptive flotation for separation of zinc and
cadmium from dilute solutions, Resource
Envir. Biotech. 2, 117-136 (1998).
87) S. Mandjiny, K.A. Matis, A.I. Zouboulis, M. Fedoroff,
J. Jean-Jean, J.C. Rouchaud, N. Toulhoat, V. Potocek, C.
Loos-Neskovic, P. Maireles-Torres and D. Jones, Calcium hydroxyapatites:
evaluation of sorption for cadmium ions in aqueous solution, J. Materials Sci. 33, 5433-5439 (1998).
86) (a)
T.J. Butter, L.M. Evison, I.C. Hancock, F.S. Holland, K.A. Matis, A. Philipson,
A.I. Sheikh and A.I. Zouboulis, The removal and recovery of cadmium from dilute
aqueous solutions by biosorption and electrolysis at laboratory scale, Wat. Res. 32 (2), 400-406 (1998).
(b) T.J. Butter, L.M. Evison, I.C. Hancock, F.S. Holland and K.A. Matis,
Removal and recovery of heavy metals from dilute aqueous streams by biosorption
and electrolysis, Med. Fac. Landbouww. Univ. Gent, 61 (4b), 1863-1870
(1996).
85)
G.P. Gallios and K.A. Matis (eds.), Mineral Processing and the Environment,
Kluwer Academic Publishers, Dordrecht (1998). It contains among others the
following chapters:
(a)
G.P. Gallios, K.A. Kydros and K.A.
Matis, Electrokinetic behaviour of sulphide minerals: a contribution to the
chemistry of flotation, pp. 25-42,
(b)
K.A. Matis, A.I. Zouboulis and N.K.
Lazaridis, Removal and recovery of metals from dilute solutions: applications
of flotation techniques, pp. 165-196,
(c)
A.I. Zouboulis and K.A. Matis, The
biosorption process: an innovation in reclamation of toxic metals, pp. 361-385.
84)
A.I. Zouboulis, K.A. Matis and I.C. Hancock, Biosorption of metals from dilute
aqueous solutions, Sep. Purif. Methods 26
(2), 255-295 (1997).
83)
K.A. Matis, A.I. Zouboulis, F.B. Malamas, M.D. Ramos Afonso and M.J. Hudson,
Flotation removal of As(V) onto goethite, Envir.
Pollution 97, 239-245 (1997).
82)
A.I. Zouboulis and K.A. Matis, Removal of metal ions from dilute solutions by
sorptive flotation, Crit. Rev. Envir.
Sci. Tech. 27 (3), 195-235
(1997).
81)
K.A. Matis, A.I. Zouboulis, S. Mandjiny and D. Zamboulis, Removal of cadmium
from dilute solutions by hydroxyapatite. Part III. Flocculation studies, Sep. Sci. Tech. 32, 2127-2148 (1997).
80)
A.I. Zouboulis, K.A. Matis, B.G. Lanara and C. Loos-Neskovic, Removal of
cadmium from dilute solutions by hydroxyapatite. Part II. Flotation studies, Sep. Sci. Tech. 32, 1755-1767 (1997).
79)
Zhao You-cai, A.I. Zouboulis and K.A. Matis, Flotation of molybdate oxyanions
in dilute solutions. Part II. Selective separation from phosphates, arsenates
and silicates, Hydrometallurgy 43,
155-167 (1996).
78) Zhao
You-cai, A.I. Zouboulis and K.A. Matis, Flotation of molybdate oxyanions in
dilute solutions. Part 1. Selective separation from arsenate, Hydrometallurgy 43, 143-154 (1996).
77)
A.I. Zouboulis, Youcai Zhao and K.A. Matis, Separation of tungstates from aqueous
mixtures containing impurities (arsenate, phosphate and silicate anions) using
ion flotation, J. Chem. Tech. Biotechnol.
67, 195-203 (1996).
76)
K.A. Matis, A.I. Zouboulis, A.A. Grigoriadou, N.K. Lazaridis and L.V.
Ekateriniadou, Metal biosorption - flotation. Application to cadmium removal, Appl. Microbiol. Biotechnol. 45, 569-573
(1996).
75) P.
Solari, A.I. Zouboulis, K.A. Matis and G.A. Stalidis, Removal of toxic metals
by biosorption onto non-living sewage sludge, Sep. Sci. Tech. 31 (8), 1075-1092 (1996).
74)
Zhao Youcai, A.I. Zouboulis and K.A. Matis, Removal of molybdate and arsenate
from aqueous solutions by flotation, Sep.
Sci. Tech. 31 (6), 769-785 (1996).
73)
K.A. Matis (editor), Flotation Science
and Engineering, Marcel Dekker, New York (1995). It contains among others
the following chapters:
(a)
K.A. Matis and A.I. Zouboulis, An
overview of the process, pp. 1-44.
(b)
K.A. Matis and A.I. Zouboulis, The role
of bubble/particle size, pp. 63-87.
(c)
K.A. Kydros and K.A. Matis, Flotation of
iron sulfide minerals; electrokinetic aspects, pp. 127-155.
(d)
K.A. Matis and A.I. Zouboulis,
Electrolytic flotation: an unconventional technique, pp. 385-413.
(e)
N.K. Lazaridis, G.A. Stalidis and K.A.
Matis, Application of the factorial design to flotation experiments, pp.
441-454.
(f)
K.A. Kydros, K.A. Matis and P.K.
Spathis, The use of nitrogen in flotation, pp. 473-491.
(g)
G.P. Gallios, K.A. Matis and Th.N.
Balabanidis, Dissolved-air flotation of fine particles of salt-type minerals,
pp. 493-516.
(h)
A.I. Zouboulis and K.A. Matis, Metal ion
flotation in hydrometallurgy; the case of Ge recovery, pp. 517-550.
72)
A.I. Zouboulis, P. Solari, K.A. Matis and G.A. Stalidis, Toxic metals removal
from dilute solutions by biosorptive flotation, Wat. Sci. Tech. 32 (9-10), 211-220 (1995).
71)
A.I. Zoubouls and K.A. Matis, Removal of cadmium from dilute solutions by
flotation, Wat. Sci. Tech. 31 (3-4),
315-326 (1995).
70) S.
Mandjiny, A.I. Zouboulis and K.A. Matis, Removal of cadmium from dilute
solutions by hydroxyapatite. Part I. Sorption studies, Sep. Sci. Tech. 30 (15), 2963-2978 (1995).
69)
A.I. Zouboulis, K.A. Kydros and K.A. Matis, Removal of hexavalent chromium
anions from solutions by pyrite fines, Wat.
Res. 29, 1755-1760 (1995).
68)
K.A. Kydros, G.P. Gallios and K.A. Matis, Modification of pyrite and sphalerite
flotation by dextrin, Sep. Sci. Tech. 29
(17), 2263-2275 (1994).
67)
K.A. Kydros and K.A. Matis, Processing an auriferous pyrite concentrate in
presence of reducing agents, Can. Met.
Quart., 34, 15-20 (1995).
66)
K.A. Matis, A.I. Zouboulis and I.C. Hancock, Waste microbial biomass for
cadmium ion removal: application of flotation for downstream separation, Bioresource Tech. 49, 253-259 (1994).
65)
P.K. Spathis, Th.N. Balabanidis and K.A. Matis, Selective leaching of magnesite
with HCl acid solutions, Chim. Chron.
(New Ser.) 23, 51-62 (1994).
64)
A.I. Zouboulis, K.A. Kydros and K.A. Matis, Flotation of powdered activated
carbon with adsorbed gold(I)-thiourea complex, Hydrometallurgy 36, 39-51
(1994).
63)
K.A. Matis and A.I. Zouboulis, Flotation of cadmium-loaded biomass, Biotech. Bioeng. 44, 3, 354-360 (1994).
ii)
K.A. Matis, A.I. Zouboulis, I.C. Hancock, Biosorption and flotation for metal
effluent treatment, Inst. Chem. Engrs
Symp. Ser. 86-88 (1994).
62)
K.A. Kydros, G.P. Gallios and K.A. Matis, Electrolytic flotation of pyrite, J. Chem. Tech. Biotechnol. 59, 223-232
(1994).
61)
K.A. Matis, A.I. Zouboulis and I.C. Hancock, Biosorptive flotation in metal
ions recovery, Sep. Sci. Tech. 29 (8), 1055-1071 (1994).
60) M.
Koutlemani, P. Mavros, A.I. Zouboulis and K.A. Matis, Recovery of Co2+ ions from aqueous solution by froth flotation,
Sep. Sci. Tech. 29 (7), 867-886
(1994).
59)
A.I. Zouboulis and K.A. Matis, Flotation as a bioseparation process for fungi
removal, Biotech. Techniques 7,
867-872 (1993).
58) P.
Mavros, K.A. Kydros and K.A. Matis, Arsenopyrite enrichment by column
flotation, Miner. Engg. 6, 12,
1265-1277 (1993).
57)
K.A. Kydros, T.N. Angelidis and K.A. Matis, Selective flotation of an
auriferous bulk pyrite-arsenopyrite concentrate in presence of sodium
sulphoxy-salts, Miner. Engg. 6, 12,
1257-1264 (1993).
56)
A.I. Zouboulis, K.A. Kydros and K.A. Matis, Arsenic (III and V) removal from
solutions by pyrite fines, Sep. Sci.
Tech., 28 (15 &16), 2449-2463 (1993).
55)
K.A. Kydros, K.A. Matis, I.N. Papadoyannis and P. Mavros, Selective separation
of arsenopyrite from an auriferous pyrites concentrate by sulphonate flotation,
Int. J. Miner. Process. 38, 141-151
(1993).
54)
K.A. Matis, G.P. Gallios and K.A.
Kydros, Separation of fines by flotation techniques, Sep. Tech. 3, 76-90 (1993).
53)
T.N. Angelidis, K.A. Kydros and K.A. Matis, A fundamental rotating disc study
of gold dissolution in iodine-iodide solutions, Hydrometallurgy 34, 49-64 (1993).
52)
A.I. Zouboulis, K.A. Kydros and K.A. Matis, Recovery of gold from thiourea
solutions by flotation, Hydrometallurgy 34,
79-90 (1993).
51)
A.I. Zouboulis, K.A. Kydros and K.A. Matis, Removal of toxic metal ions from
solutions using industrial solid by-products, Wat. Sci. Tech. 27, 10, 83-93 (1993).
50)
K.A. Kydros, K.A. Matis and G.A. Stalidis, Cationic flotation of pyrites, J. Coll. Interface Sci. 155,
409-414 (1993).
49)
K.A. Matis, (a) Electrolytic flotation, "Innovations in Flotation
Technology", P. Mavros and K.A. Matis (eds.), Kluwer Academic,
Dordrecht (1992), pp. 301-304; summary of a lecture given during the NATO
Advanced Study Institute (Director K.A. Matis) held in Chalkidiki, Greece, from
12-25 May 1991.
(b)
G.P. Gallios and K.A. Matis, Flotation of salt-type minerals, ibid. pp. 357-382.
(c)
A.I. Zouboulis, K.A. Matis and G.A. Stalidis, Flotation in wastewater
treatment, ibid. pp. 475-498.
48)
A.I. Zouboulis, K.A. Kydros and K.A. Matis, Adsorbing flotation of copper
hydroxo-precipitates by pyrite fines, Sep.
Sci. Tech. 27, 15, 2143-2155 (1992).
47)
N.K. Lazaridis, K.A. Matis, G.A. Stalidis and P. Mavros, Dissolved-air
flotation of metal ions, Sep. Sci. Tech.
27, 13, 1743-1758 (1992).
46)
K.A. Matis, A.I. Zouboulis and K.A. Kydros, Removal of copper ions during
flotation of pyrite fines, Fresenius
Envir. Bullet. 1, 450-455 (1992).
45)
K.A. Matis, K.A. Kydros and G.P. Gallios, Processing a bulk pyrite concentrate
by flotation reagents, Miner. Engg. 5,
3-5, 331-342 (1992).
44)
K.A. Matis and P. Mavros, Foam / froth flotation : Part II. Removal of
particulate matter, Sep. Purif. Methods
20, 2, 163-198 (1991) R.
43)
K.A. Matis and P. Mavros, Recovery of metals by ion flotation from dilute
aqueous solutions, Sep. Purif. Methods 20,
1, 1-48 (1991) R.
42)
K.A. Matis, P. Mavros and K.A. Kydros, A dissolved-air flotation micro-cell for
floatability tests with particulate systems, Sep. Tech. 1, 255-258 (1991).
41)
A.I. Zouboulis, D. Zamboulis and K.A. Matis, Foam flotation of zeolites:
application on zinc ion removal, Sep.
Sci. Tech. 26 (3), 355-365 (1991).
40)
A.I. Zouboulis, K.A. Matis and D. Zamboulis, Foam flotation for fine particles
removal from water: The example of zeolites, Toxicol. Envir. Chem. 31-32, 611-619 (1991).
39)
G.P. Gallios and K.A. Matis, Fatty acids removal from effluent on mineral fines, Envir. Tech. 11, 811-820 (1990).
38)
A.I. Zouboulis, K.A. Matis and G.A. Stalidis, Parameters influencing flotation
in the removal of metal ions, Int. J.
Envir. Studies (Section B) 35,
183-196 (1990).
37)
A.I. Zouboulis, K.A. Matis and N.K. Lazaridis, Separation of germanium from
lead in solutions by flotation, Sep. Sci.
Tech. 25 (4), 463-476 (1990).
36) P.
Mavros, N.K. Lazaridis, K.A. Matis and G.A. Stalidis, A study of flotation
column performance for the recovery of fine particles, Sep. Sci. Tech. 25 (1-2), 155-170 (1990).
35)
A.I. Zouboulis and K.A. Matis, Ionenflotation von chrom, 2nd Int. Fachtagung "Fortschritte in Theorie und Praxis der
Aufbereitungstechnik", Freiberg (1989), pp. 418-423.
34)
G.P. Gallios and K.A. Matis, Kinetic study of flotation of magnesian carbonate
ores, Tech. Chron.9, 3, C 23-40
(!989) (in Greek with English extended abstract).
33)
K.A. Matis, I.N. Papadoyannis and A.I. Zouboulis, Possibilities of Ge recovery
from fly ash, Chim. Chron. (New Ser.) 18,
2-3, 85-97 (1989).
32) K.A.
Matis, G.P. Gallios, G.A. Stalidis and C.T. Hollick, Flotation of magnesite and
dolomite by fatty acids, Trans. IMM 98,
C 99-105 (1989).
31)
G.A. Stalidis, N.K. Lazaridis, K.A. Matis and I.N. Papadoyannis, Continuous
precipitate flotation of CuS / ZnS, Sep.
Sci. Tech. 24 (12), 1033-1046 (1989).
30)
A.I. Zouboulis and K.A. Matis, Electrolytic flotation of chromium from dilute
solutions, Envir. Tech. Let. 10,
601-612 (1989).
29) P.
Mavros, N.K. Lazaridis and K.A. Matis, A study and modelling of liquid phase
mixing in a flotation column, Int. J.
Miner. Process. 26, 1-16 (1989).
28)
K.A. Matis, G.P. Gallios and A.I. Zouboulis, Adsorption of fatty acids on fine
mineral particles as a purification method of industrial wastewaters, Toxicol. Envir. Chem. 20-21, 425-435
(1989).
27)
K.A. Matis and G.P. Gallios, Anionic flotation of magnesium carbonates by
modifiers, Int. J. Miner. Process. 25,
261-274 (1989).
26)
G.P. Gallios and K.A. Matis, Floatability of magnesium carbonates by sodium
oleate in presence of modifiers, Sep.
Sci. Tech. 24 (1-2), 129-143 (1989).
25)
G.A. Stalidis, K.A. Matis and N.K. Lazaridis, Selective separation of Cu, Zn
and As from solutions by flotation techniques, Sep. Sci. Tech. 24 (1-2), 97-109 (1989).
24)
K.A. Matis, G.P. Gallios and G.A. Stalidis, Applicability of electrolytic
flotation for the recovery of carbonate fines, Chim. Chron. (New Ser.) 17, 1, 29-51 (1988).
23)
G.A. Stalidis, K.A. Matis and N.K. Lazaridis, A statistical approach to
precipitate flotation of CuS / ZnS, Int.
J. Miner. Process. 24, 203-216 (1988).
22)
K.A. Matis and G.P. Gallios, Flotation of salt-type minerals by fatty acids, Tech. Chron. 8, 4, C 59-85 (1988) (in
Greek with English extended abstract).
21)
K.A. Matis, G.A. Stalidis and A.I. Zouboulis, Flotation of germanium from
dilute solutions, Sep. Sci. Tech. 23,
4/5, 347-362 (1988).
20)
A.I. Zouboulis and K.A. Matis, Separation of heavy metals from effluents by
flotation, "Pretreatment in Chemical
Water and Wastewater Treatment", H.H. Hahn and R. Klute (eds.), Springer
- Verlag, Berlin (1988), pp. 159-166.
19)
K.A. Matis, Th.N. Balabanidis and G.P. Gallios, Processing of magnesium
carbonate fines by dissolved-air flotation, Coll.
Surf. 29, 191-203 (1988).
18)
G.P. Gallios, K.A. Matis and E.S. Birda, A study of ˙-potential of
magnesium-containing minerals for their flotation, Tech. Chron.7, 3-4, C 21-51 (1987) (in Greek with English extended
abstract).
17)
K.A. Matis, I.N. Papadoyannis and A.I. Zouboulis, Separation of germanium and
arsenic from solutions by flotation, Int.
J. Miner. Process. 21, 83-92 (1987).
16)
A.I. Zouboulis, K.A. Matis and P.K. Spathis, Removal of zinc from solutions by
precipitate flotation, Tech. Chron.7,
1, C 5-27 (1987) (in Greek with English extended abstract).
15)
A.I. Zouboulis and K.A. Matis, Ion flotation in environmental technology, Chemosphere 16, 2-3, 623-631 (1987).
14)
K.A. Matis and G.P. Gallios, Dissolved-air and electrolytic flotation, in Mineral Processing at a Crossroads, B.A.
Wills and R.W. Barley (eds.), Martinus Nijhoff, Dordrecht (1986), pp. 37-70.
13)
G.A. Stalidis, K.A. Matis and A.I. Zouboulis, Flotation techniques for the
separation of trace pollutants, Chim.
Chron. (New Ser.) 15, 3, 133-146 (1986).
12)
I.N. Papadoyannis, K.A. Matis and A.I. Zouboulis, Extraction and flameless AAS
determination of germanium in lignite fly ash, Anal. Lett. 18 (A19), 2467-2475 (1985).
11) (i)
K.A. Matis, G.A. Stalidis and G.P. Gallios, Beneficiation of fine mineral
particles by electrolytic flotation, Tech.
Chron. 5, 4, C 35-56 (1985) (in Greek with English extended abstract).
(ii) K.A. Matis and G.P. Gallios,
Applicability of dissolved-air flotation for the recovery of fine mineral
particles, Chim. Chron. (New Ser.) 14,
219-226 (1985).
10)
G.P. Gallios and K.A. Matis, Flotation applied in wastewater engineering, Proc.
2nd Int. Symp. Envir. Pollut. and its
Impact on Life in the Mediterranean Region, MESAEP, Heraklion (1984) pp.
427-436.
9) K.A.
Matis and J.R. Backhurst, Laboratory studies of electrolytic flotation as a
separation method, "Solid-Liquid
Separation", J. Gregory (ed.), Ellis Horwood, London (1984), pp.
29-40.
8) K.A.
Matis and E. Deliyanni-Jannakoudaki, Portland cement with lignites fly ash, Chim. Chron. (Gen. Ed.) 48, 39-44 &
52 (1983) (Greek).
7) K.A.
Matis, (i) Nonideal flow and its application to flotation, Chim. Chron. (New Ser.) 11, 1, 51-58 (1982).
(ii) Electrolytic flotation
in industrial effluent treatment, Chim.
Chron. (New Ser.) 11, 2, 159-171 (1982).
6) J.R.
Backhurst and K.A. Matis, Electrolytic flotation in effluent treatment, J. Chem. Tech. Biotechnol. 31, 7,
431-434 (!981).
5) K.A.
Matis, The removal of organic entrainment in copper solvent extraction by
flotation, Chim. Chron. (New Ser.) 10,
1, 93-99 (1981).
4) K.A.
Matis, Treatment of industrial liquid wastes by electroflotation, Wat. Pollut. Control 79, 1, 136-142 (1980).
3) K.A.
Matis, Bubble measurements in electrolytic flotation (Short paper), Chim. Chron. (New Ser.) 9, 1, 71-76
(1980).
2) K.A.
Matis, Electroflotation and its application to the treatment of industrial
effluents, Tech. Chron. (Scient. Ed.)
4, C 19-24 (1979) (Greek with English
abstract).
1) K.A.
Matis, (i) Flotation techniques in effluent treatment, Chim. Chron. (Gen. Ed.) 44, 5, 54-58 (1979).
(ii) Flotation and its
application in industrial wastes treatment, ibid.
46, 3, 27-33 (1981) R (in Greek).