TY  - JOUR
AU  - Šoštarić, Tatjana D.
AU  - Petrović, Marija S.
AU  - Pastor, Ferenc
AU  - Lončarević, Davor
AU  - Petrović, Jelena T.
AU  - Milojković, Jelena V.
AU  - Stojanović, Mirjana D.
PY  - 2018
UR  - https://cherry.chem.bg.ac.rs/handle/123456789/2152
AB  - Locally available apricot (Prunus armeniaca L.) shells classified as a waste product from fruit processing, were alkali activated in order to develop an efficient heavy metal ions sorbent for water purification. To examine the changes occurred after alkali treatment, raw (SH) and modified apricot shells (SHM) were thoroughly characterized in terms of their chemical composition and surface properties. Chemical analysis revealed that alkaline treatment causes the disintegration of hemicellulose (its content decreased from 19.2 to 3.5%), which was in accordance with FTIR results. SEM micrographs and the mercury intrusion porosimetry revealed a larger surface area and porosity of SHM. Bohem's acid-base titration method indicated that the most of the SHM surface carboxylic groups were in sodium salt form and together with the pH of points of zero charge showed increase of surface alkalinity after modification. Treatment with NaOH enhanced the adsorption capacity by 154, 61 and 90% for Cu2+, Zn2+ and Pb2+, respectively. The amount of cations released from SHM was almost equal to the amount of adsorbed metal ions, suggesting ion exchange mechanism. The pseudo-second order kinetic indicated that the heavy metals cations were bound predominantly by complexation. In order to establish the effectiveness of the biosorbent in real wastewater sample, SHM was employed for cleaning-up of drain water emanating from atomic adsorption spectrophotometer. The SHM showed high removal efficiency towards multiple metal ions. The amounts of Fe, Pb, Cu and Cr ions were reduced by 97, 87, 81 and 80%, respectively, while Ni and Zn amounts were reduced for 33 and 14%. Used biosorbent SHM can be successfully regenerated with HCl (desorption  gt  95%) and after regeneration biosorbent can be reused or it can be safely disposed. (C) 2018 Elsevier B.V. All rights reserved.
PB  - Elsevier Science Bv, Amsterdam
T2  - Journal of Molecular Liquids
T1  - Study of heavy metals biosorption on native and alkali-treated apricot shells and its application in wastewater treatment
VL  - 259
SP  - 340
EP  - 349
DO  - 10.1016/j.molliq.2018.03.055
ER  - 

@article{
author = "Šoštarić, Tatjana D. and Petrović, Marija S. and Pastor, Ferenc and Lončarević, Davor and Petrović, Jelena T. and Milojković, Jelena V. and Stojanović, Mirjana D.",
year = "2018",
abstract = "Locally available apricot (Prunus armeniaca L.) shells classified as a waste product from fruit processing, were alkali activated in order to develop an efficient heavy metal ions sorbent for water purification. To examine the changes occurred after alkali treatment, raw (SH) and modified apricot shells (SHM) were thoroughly characterized in terms of their chemical composition and surface properties. Chemical analysis revealed that alkaline treatment causes the disintegration of hemicellulose (its content decreased from 19.2 to 3.5%), which was in accordance with FTIR results. SEM micrographs and the mercury intrusion porosimetry revealed a larger surface area and porosity of SHM. Bohem's acid-base titration method indicated that the most of the SHM surface carboxylic groups were in sodium salt form and together with the pH of points of zero charge showed increase of surface alkalinity after modification. Treatment with NaOH enhanced the adsorption capacity by 154, 61 and 90% for Cu2+, Zn2+ and Pb2+, respectively. The amount of cations released from SHM was almost equal to the amount of adsorbed metal ions, suggesting ion exchange mechanism. The pseudo-second order kinetic indicated that the heavy metals cations were bound predominantly by complexation. In order to establish the effectiveness of the biosorbent in real wastewater sample, SHM was employed for cleaning-up of drain water emanating from atomic adsorption spectrophotometer. The SHM showed high removal efficiency towards multiple metal ions. The amounts of Fe, Pb, Cu and Cr ions were reduced by 97, 87, 81 and 80%, respectively, while Ni and Zn amounts were reduced for 33 and 14%. Used biosorbent SHM can be successfully regenerated with HCl (desorption  gt  95%) and after regeneration biosorbent can be reused or it can be safely disposed. (C) 2018 Elsevier B.V. All rights reserved.",
publisher = "Elsevier Science Bv, Amsterdam",
journal = "Journal of Molecular Liquids",
title = "Study of heavy metals biosorption on native and alkali-treated apricot shells and its application in wastewater treatment",
volume = "259",
pages = "340-349",
doi = "10.1016/j.molliq.2018.03.055"
}

Šoštarić, T. D., Petrović, M. S., Pastor, F., Lončarević, D., Petrović, J. T., Milojković, J. V.,& Stojanović, M. D.. (2018). Study of heavy metals biosorption on native and alkali-treated apricot shells and its application in wastewater treatment. in Journal of Molecular Liquids
Elsevier Science Bv, Amsterdam., 259, 340-349.
https://doi.org/10.1016/j.molliq.2018.03.055

Šoštarić TD, Petrović MS, Pastor F, Lončarević D, Petrović JT, Milojković JV, Stojanović MD. Study of heavy metals biosorption on native and alkali-treated apricot shells and its application in wastewater treatment. in Journal of Molecular Liquids. 2018;259:340-349.
doi:10.1016/j.molliq.2018.03.055 .

Šoštarić, Tatjana D., Petrović, Marija S., Pastor, Ferenc, Lončarević, Davor, Petrović, Jelena T., Milojković, Jelena V., Stojanović, Mirjana D., "Study of heavy metals biosorption on native and alkali-treated apricot shells and its application in wastewater treatment" in Journal of Molecular Liquids, 259 (2018):340-349,
https://doi.org/10.1016/j.molliq.2018.03.055 . .

TY  - DATA
AU  - Šoštarić, Tatjana D.
AU  - Petrović, Marija S.
AU  - Pastor, Ferenc
AU  - Lončarević, Davor
AU  - Petrović, Jelena T.
AU  - Milojković, Jelena V.
AU  - Stojanović, Mirjana D.
PY  - 2018
UR  - https://cherry.chem.bg.ac.rs/handle/123456789/2969
PB  - Elsevier Science Bv, Amsterdam
T2  - Journal of Molecular Liquids
T1  - Supplementary material for the article: Šoštarić, T. D.; Petrović, M. S.; Pastor, F. T.; Lončarević, D. R.; Petrović, J. T.; Milojković,  J. V.; Stojanović, M. D. Study of Heavy Metals Biosorption on Native and Alkali-Treated  Apricot Shells and Its Application in Wastewater Treatment. Journal of Molecular Liquids  2018, 259, 340–349. https://doi.org/10.1016/j.molliq.2018.03.055
UR  - https://hdl.handle.net/21.15107/rcub_cherry_2969
ER  - 

@misc{
author = "Šoštarić, Tatjana D. and Petrović, Marija S. and Pastor, Ferenc and Lončarević, Davor and Petrović, Jelena T. and Milojković, Jelena V. and Stojanović, Mirjana D.",
year = "2018",
publisher = "Elsevier Science Bv, Amsterdam",
journal = "Journal of Molecular Liquids",
title = "Supplementary material for the article: Šoštarić, T. D.; Petrović, M. S.; Pastor, F. T.; Lončarević, D. R.; Petrović, J. T.; Milojković,  J. V.; Stojanović, M. D. Study of Heavy Metals Biosorption on Native and Alkali-Treated  Apricot Shells and Its Application in Wastewater Treatment. Journal of Molecular Liquids  2018, 259, 340–349. https://doi.org/10.1016/j.molliq.2018.03.055",
url = "https://hdl.handle.net/21.15107/rcub_cherry_2969"
}

Šoštarić, T. D., Petrović, M. S., Pastor, F., Lončarević, D., Petrović, J. T., Milojković, J. V.,& Stojanović, M. D.. (2018). Supplementary material for the article: Šoštarić, T. D.; Petrović, M. S.; Pastor, F. T.; Lončarević, D. R.; Petrović, J. T.; Milojković,  J. V.; Stojanović, M. D. Study of Heavy Metals Biosorption on Native and Alkali-Treated  Apricot Shells and Its Application in Wastewater Treatment. Journal of Molecular Liquids  2018, 259, 340–349. https://doi.org/10.1016/j.molliq.2018.03.055. in Journal of Molecular Liquids
Elsevier Science Bv, Amsterdam..
https://hdl.handle.net/21.15107/rcub_cherry_2969

Šoštarić TD, Petrović MS, Pastor F, Lončarević D, Petrović JT, Milojković JV, Stojanović MD. Supplementary material for the article: Šoštarić, T. D.; Petrović, M. S.; Pastor, F. T.; Lončarević, D. R.; Petrović, J. T.; Milojković,  J. V.; Stojanović, M. D. Study of Heavy Metals Biosorption on Native and Alkali-Treated  Apricot Shells and Its Application in Wastewater Treatment. Journal of Molecular Liquids  2018, 259, 340–349. https://doi.org/10.1016/j.molliq.2018.03.055. in Journal of Molecular Liquids. 2018;.
https://hdl.handle.net/21.15107/rcub_cherry_2969 .

Šoštarić, Tatjana D., Petrović, Marija S., Pastor, Ferenc, Lončarević, Davor, Petrović, Jelena T., Milojković, Jelena V., Stojanović, Mirjana D., "Supplementary material for the article: Šoštarić, T. D.; Petrović, M. S.; Pastor, F. T.; Lončarević, D. R.; Petrović, J. T.; Milojković,  J. V.; Stojanović, M. D. Study of Heavy Metals Biosorption on Native and Alkali-Treated  Apricot Shells and Its Application in Wastewater Treatment. Journal of Molecular Liquids  2018, 259, 340–349. https://doi.org/10.1016/j.molliq.2018.03.055" in Journal of Molecular Liquids (2018),
https://hdl.handle.net/21.15107/rcub_cherry_2969 .

TY  - JOUR
AU  - Šoštarić, Tatjana D.
AU  - Petrović, Marija S.
AU  - Pastor, Ferenc
AU  - Lončarević, Davor
AU  - Petrović, Jelena T.
AU  - Milojković, Jelena V.
AU  - Stojanović, Mirjana D.
PY  - 2018
UR  - https://cherry.chem.bg.ac.rs/handle/123456789/2970
AB  - Locally available apricot (Prunus armeniaca L.) shells classified as a waste product from fruit processing, were alkali activated in order to develop an efficient heavy metal ions sorbent for water purification. To examine the changes occurred after alkali treatment, raw (SH) and modified apricot shells (SHM) were thoroughly characterized in terms of their chemical composition and surface properties. Chemical analysis revealed that alkaline treatment causes the disintegration of hemicellulose (its content decreased from 19.2 to 3.5%), which was in accordance with FTIR results. SEM micrographs and the mercury intrusion porosimetry revealed a larger surface area and porosity of SHM. Bohem's acid-base titration method indicated that the most of the SHM surface carboxylic groups were in sodium salt form and together with the pH of points of zero charge showed increase of surface alkalinity after modification. Treatment with NaOH enhanced the adsorption capacity by 154, 61 and 90% for Cu2+, Zn2+ and Pb2+, respectively. The amount of cations released from SHM was almost equal to the amount of adsorbed metal ions, suggesting ion exchange mechanism. The pseudo-second order kinetic indicated that the heavy metals cations were bound predominantly by complexation. In order to establish the effectiveness of the biosorbent in real wastewater sample, SHM was employed for cleaning-up of drain water emanating from atomic adsorption spectrophotometer. The SHM showed high removal efficiency towards multiple metal ions. The amounts of Fe, Pb, Cu and Cr ions were reduced by 97, 87, 81 and 80%, respectively, while Ni and Zn amounts were reduced for 33 and 14%. Used biosorbent SHM can be successfully regenerated with HCl (desorption  gt  95%) and after regeneration biosorbent can be reused or it can be safely disposed. (C) 2018 Elsevier B.V. All rights reserved.
PB  - Elsevier Science Bv, Amsterdam
T2  - Journal of Molecular Liquids
T1  - Study of heavy metals biosorption on native and alkali-treated apricot shells and its application in wastewater treatment
VL  - 259
SP  - 340
EP  - 349
DO  - 10.1016/j.molliq.2018.03.055
ER  - 

@article{
author = "Šoštarić, Tatjana D. and Petrović, Marija S. and Pastor, Ferenc and Lončarević, Davor and Petrović, Jelena T. and Milojković, Jelena V. and Stojanović, Mirjana D.",
year = "2018",
abstract = "Locally available apricot (Prunus armeniaca L.) shells classified as a waste product from fruit processing, were alkali activated in order to develop an efficient heavy metal ions sorbent for water purification. To examine the changes occurred after alkali treatment, raw (SH) and modified apricot shells (SHM) were thoroughly characterized in terms of their chemical composition and surface properties. Chemical analysis revealed that alkaline treatment causes the disintegration of hemicellulose (its content decreased from 19.2 to 3.5%), which was in accordance with FTIR results. SEM micrographs and the mercury intrusion porosimetry revealed a larger surface area and porosity of SHM. Bohem's acid-base titration method indicated that the most of the SHM surface carboxylic groups were in sodium salt form and together with the pH of points of zero charge showed increase of surface alkalinity after modification. Treatment with NaOH enhanced the adsorption capacity by 154, 61 and 90% for Cu2+, Zn2+ and Pb2+, respectively. The amount of cations released from SHM was almost equal to the amount of adsorbed metal ions, suggesting ion exchange mechanism. The pseudo-second order kinetic indicated that the heavy metals cations were bound predominantly by complexation. In order to establish the effectiveness of the biosorbent in real wastewater sample, SHM was employed for cleaning-up of drain water emanating from atomic adsorption spectrophotometer. The SHM showed high removal efficiency towards multiple metal ions. The amounts of Fe, Pb, Cu and Cr ions were reduced by 97, 87, 81 and 80%, respectively, while Ni and Zn amounts were reduced for 33 and 14%. Used biosorbent SHM can be successfully regenerated with HCl (desorption  gt  95%) and after regeneration biosorbent can be reused or it can be safely disposed. (C) 2018 Elsevier B.V. All rights reserved.",
publisher = "Elsevier Science Bv, Amsterdam",
journal = "Journal of Molecular Liquids",
title = "Study of heavy metals biosorption on native and alkali-treated apricot shells and its application in wastewater treatment",
volume = "259",
pages = "340-349",
doi = "10.1016/j.molliq.2018.03.055"
}

Šoštarić, T. D., Petrović, M. S., Pastor, F., Lončarević, D., Petrović, J. T., Milojković, J. V.,& Stojanović, M. D.. (2018). Study of heavy metals biosorption on native and alkali-treated apricot shells and its application in wastewater treatment. in Journal of Molecular Liquids
Elsevier Science Bv, Amsterdam., 259, 340-349.
https://doi.org/10.1016/j.molliq.2018.03.055

Šoštarić TD, Petrović MS, Pastor F, Lončarević D, Petrović JT, Milojković JV, Stojanović MD. Study of heavy metals biosorption on native and alkali-treated apricot shells and its application in wastewater treatment. in Journal of Molecular Liquids. 2018;259:340-349.
doi:10.1016/j.molliq.2018.03.055 .

Šoštarić, Tatjana D., Petrović, Marija S., Pastor, Ferenc, Lončarević, Davor, Petrović, Jelena T., Milojković, Jelena V., Stojanović, Mirjana D., "Study of heavy metals biosorption on native and alkali-treated apricot shells and its application in wastewater treatment" in Journal of Molecular Liquids, 259 (2018):340-349,
https://doi.org/10.1016/j.molliq.2018.03.055 . .

TY  - JOUR
AU  - Mihajlović, Marija
AU  - Petrović, Jelena T.
AU  - Maletić, Snežana
AU  - Isakovski-Kragulj, Marijana
AU  - Stojanović, Mirjana D.
AU  - Lopičić, Zorica
AU  - Trifunović, Snežana S.
PY  - 2018
UR  - https://cherry.chem.bg.ac.rs/handle/123456789/2100
AB  - In this study, hydrothermal carbonization (HTC) was employed for thermochemical conversion of energy crop Miscanthus x gigcuiteus GREEF et DEU. The effect of process temperatures, in the range between 180 and 220 degrees C, on the relevant characteristics of the obtained products, hydrochars and process waters, was investigated. The obtained results showed that the HTC promotes fuel properties and energy density of the solids regarding the feedstock. Furthermore, temperature governs the lowering of the volatiles, ash, and moisture in hydrochars, making its potential use as solid fuels more beneficial than the miscanthus. FT-IR spectroscopy and thermal analysis confirmed degradation of hemicellulose at temperatures above 200 degrees C, and an increase of the total content of cellulose and lignin in the hydrochars. In general, hydrochar obtained at 220 degrees C exhibited the best combustion characteristics and is, therefore, the most suitable for use as a solid biofuel. However, in the residual liquids, some amounts of fluorene, phenanthrene, fluoranthene, and pyrene were detected. The polluting potential, visible through the growth of TOC, COD and BOD values, of the analyzed process waters, increases with the rise in carbonization temperature. The TOC values (5.8-9.9 gC L-1) were on average lower than those reported for organic wastewaters ( gt  10 gC L-1). The proportion of hydrocarbons in the process water increases with the increase in the carbonization temperature from 2.92 to 20.9%. Consequently, bioassays with Vibrio fischeri showed a relatively high toxicity of the liquid phase, where a concentration of about 1% was causing bacteria inhibition of 50%.
PB  - Pergamon-Elsevier Science Ltd, Oxford
T2  - Energy Conversion and Management
T1  - Hydrothermal carbonization of Miscanthus x giganteus: Structural and fuel properties of hydrochars and organic profile with the ecotoxicological assessment of the liquid phase
VL  - 159
SP  - 254
EP  - 263
DO  - 10.1016/j.enconman.2018.01.003
ER  - 

@article{
author = "Mihajlović, Marija and Petrović, Jelena T. and Maletić, Snežana and Isakovski-Kragulj, Marijana and Stojanović, Mirjana D. and Lopičić, Zorica and Trifunović, Snežana S.",
year = "2018",
abstract = "In this study, hydrothermal carbonization (HTC) was employed for thermochemical conversion of energy crop Miscanthus x gigcuiteus GREEF et DEU. The effect of process temperatures, in the range between 180 and 220 degrees C, on the relevant characteristics of the obtained products, hydrochars and process waters, was investigated. The obtained results showed that the HTC promotes fuel properties and energy density of the solids regarding the feedstock. Furthermore, temperature governs the lowering of the volatiles, ash, and moisture in hydrochars, making its potential use as solid fuels more beneficial than the miscanthus. FT-IR spectroscopy and thermal analysis confirmed degradation of hemicellulose at temperatures above 200 degrees C, and an increase of the total content of cellulose and lignin in the hydrochars. In general, hydrochar obtained at 220 degrees C exhibited the best combustion characteristics and is, therefore, the most suitable for use as a solid biofuel. However, in the residual liquids, some amounts of fluorene, phenanthrene, fluoranthene, and pyrene were detected. The polluting potential, visible through the growth of TOC, COD and BOD values, of the analyzed process waters, increases with the rise in carbonization temperature. The TOC values (5.8-9.9 gC L-1) were on average lower than those reported for organic wastewaters ( gt  10 gC L-1). The proportion of hydrocarbons in the process water increases with the increase in the carbonization temperature from 2.92 to 20.9%. Consequently, bioassays with Vibrio fischeri showed a relatively high toxicity of the liquid phase, where a concentration of about 1% was causing bacteria inhibition of 50%.",
publisher = "Pergamon-Elsevier Science Ltd, Oxford",
journal = "Energy Conversion and Management",
title = "Hydrothermal carbonization of Miscanthus x giganteus: Structural and fuel properties of hydrochars and organic profile with the ecotoxicological assessment of the liquid phase",
volume = "159",
pages = "254-263",
doi = "10.1016/j.enconman.2018.01.003"
}

Mihajlović, M., Petrović, J. T., Maletić, S., Isakovski-Kragulj, M., Stojanović, M. D., Lopičić, Z.,& Trifunović, S. S.. (2018). Hydrothermal carbonization of Miscanthus x giganteus: Structural and fuel properties of hydrochars and organic profile with the ecotoxicological assessment of the liquid phase. in Energy Conversion and Management
Pergamon-Elsevier Science Ltd, Oxford., 159, 254-263.
https://doi.org/10.1016/j.enconman.2018.01.003

Mihajlović M, Petrović JT, Maletić S, Isakovski-Kragulj M, Stojanović MD, Lopičić Z, Trifunović SS. Hydrothermal carbonization of Miscanthus x giganteus: Structural and fuel properties of hydrochars and organic profile with the ecotoxicological assessment of the liquid phase. in Energy Conversion and Management. 2018;159:254-263.
doi:10.1016/j.enconman.2018.01.003 .

Mihajlović, Marija, Petrović, Jelena T., Maletić, Snežana, Isakovski-Kragulj, Marijana, Stojanović, Mirjana D., Lopičić, Zorica, Trifunović, Snežana S., "Hydrothermal carbonization of Miscanthus x giganteus: Structural and fuel properties of hydrochars and organic profile with the ecotoxicological assessment of the liquid phase" in Energy Conversion and Management, 159 (2018):254-263,
https://doi.org/10.1016/j.enconman.2018.01.003 . .

TY  - DATA
AU  - Mihajlović, Marija
AU  - Petrović, Jelena T.
AU  - Maletić, Snežana
AU  - Isakovski-Kragulj, Marijana
AU  - Stojanović, Mirjana D.
AU  - Lopičić, Zorica
AU  - Trifunović, Snežana S.
PY  - 2018
UR  - https://cherry.chem.bg.ac.rs/handle/123456789/2971
PB  - Pergamon-Elsevier Science Ltd, Oxford
T2  - Energy Conversion and Management
T1  - Supplementary material for the article:
Mihajlović, M.; Petrović, J.; Maletić, S.; Isakovski, M. K.; Stojanović, M.; Lopičić, Z.; Trifunović, S. Hydrothermal Carbonization of Miscanthus × giganteus: Structural and Fuel Properties of Hydrochars and Organic Profile with the Ecotoxicological Assessment of the Liquid Phase. Energy Convers. Manage. 2018, 159, 254–263. https://doi.org/10.1016/j.enconman.2018.01.003
UR  - https://hdl.handle.net/21.15107/rcub_cherry_2971
ER  - 

@misc{
author = "Mihajlović, Marija and Petrović, Jelena T. and Maletić, Snežana and Isakovski-Kragulj, Marijana and Stojanović, Mirjana D. and Lopičić, Zorica and Trifunović, Snežana S.",
year = "2018",
publisher = "Pergamon-Elsevier Science Ltd, Oxford",
journal = "Energy Conversion and Management",
title = "Supplementary material for the article:
Mihajlović, M.; Petrović, J.; Maletić, S.; Isakovski, M. K.; Stojanović, M.; Lopičić, Z.; Trifunović, S. Hydrothermal Carbonization of Miscanthus × giganteus: Structural and Fuel Properties of Hydrochars and Organic Profile with the Ecotoxicological Assessment of the Liquid Phase. Energy Convers. Manage. 2018, 159, 254–263. https://doi.org/10.1016/j.enconman.2018.01.003",
url = "https://hdl.handle.net/21.15107/rcub_cherry_2971"
}

Mihajlović, M., Petrović, J. T., Maletić, S., Isakovski-Kragulj, M., Stojanović, M. D., Lopičić, Z.,& Trifunović, S. S.. (2018). Supplementary material for the article:
Mihajlović, M.; Petrović, J.; Maletić, S.; Isakovski, M. K.; Stojanović, M.; Lopičić, Z.; Trifunović, S. Hydrothermal Carbonization of Miscanthus × giganteus: Structural and Fuel Properties of Hydrochars and Organic Profile with the Ecotoxicological Assessment of the Liquid Phase. Energy Convers. Manage. 2018, 159, 254–263. https://doi.org/10.1016/j.enconman.2018.01.003. in Energy Conversion and Management
Pergamon-Elsevier Science Ltd, Oxford..
https://hdl.handle.net/21.15107/rcub_cherry_2971

Mihajlović M, Petrović JT, Maletić S, Isakovski-Kragulj M, Stojanović MD, Lopičić Z, Trifunović SS. Supplementary material for the article:
Mihajlović, M.; Petrović, J.; Maletić, S.; Isakovski, M. K.; Stojanović, M.; Lopičić, Z.; Trifunović, S. Hydrothermal Carbonization of Miscanthus × giganteus: Structural and Fuel Properties of Hydrochars and Organic Profile with the Ecotoxicological Assessment of the Liquid Phase. Energy Convers. Manage. 2018, 159, 254–263. https://doi.org/10.1016/j.enconman.2018.01.003. in Energy Conversion and Management. 2018;.
https://hdl.handle.net/21.15107/rcub_cherry_2971 .

Mihajlović, Marija, Petrović, Jelena T., Maletić, Snežana, Isakovski-Kragulj, Marijana, Stojanović, Mirjana D., Lopičić, Zorica, Trifunović, Snežana S., "Supplementary material for the article:
Mihajlović, M.; Petrović, J.; Maletić, S.; Isakovski, M. K.; Stojanović, M.; Lopičić, Z.; Trifunović, S. Hydrothermal Carbonization of Miscanthus × giganteus: Structural and Fuel Properties of Hydrochars and Organic Profile with the Ecotoxicological Assessment of the Liquid Phase. Energy Convers. Manage. 2018, 159, 254–263. https://doi.org/10.1016/j.enconman.2018.01.003" in Energy Conversion and Management (2018),
https://hdl.handle.net/21.15107/rcub_cherry_2971 .