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Vakgroep Groene Chemie en Technologie (UGent)
https://www.ugent.be/bw/gct/en

English name: Green Chemistry and Technology
Parent institute: Universiteit Gent; Faculteit Bio-ingenieurswetenschappen (UGent-FBW), more

Address:
Coupure Links 653
9000 Gent
Belgium

Tel.: +32-(0)9-264 59 04
Fax: +32-(0)9-264 62 44
E-mail:
 Persons | Institutes | Publications 
 
Type: Scientific

Persons (5)  Top | Institutes | Publications 

Associated to an institute part (66)

Child institutes (7)  Top | Persons | Publications 
  • Universiteit Gent; Faculteit Bio-ingenieurswetenschappen; Vakgroep Groene Chemie en Technologie; Heterocyclic synthesis and chemical modification of renewable resources research group (UGent-SynBioC), more
  • Universiteit Gent; Faculteit Bio-ingenieurswetenschappen; Vakgroep Groene Chemie en Technologie; Laboratorium voor Analytische Chemie en Toegepaste Ecochemie (UGent), more
  • Universiteit Gent; Faculteit Bio-ingenieurswetenschappen; Vakgroep Groene Chemie en Technologie; Laboratory of Industrial Water and Ecotechnology (UGent-LIWET), more
  • Universiteit Gent; Faculteit Bio-ingenieurswetenschappen; Vakgroep Groene Chemie en Technologie; Onderzoeksgroep Organische Milieuchemie en -Technologie (UGent-EnVOC), more
  • Universiteit Gent; Faculteit Bio-ingenieurswetenschappen; Vakgroep Groene Chemie en Technologie; Particle and Interfacial Technology Group (UGent-PaInT), more
  • Universiteit Gent; Faculteit Bio-ingenieurswetenschappen; Vakgroep Groene Chemie en Technologie; Thermochemical Conversion of Biomass (UGent-TCCB), more
  • Universiteit Gent; Isotope Bioscience Laboratory (UGent-ISOFYS), more

Publications (13)  Top | Persons | Institutes 
    ( 13 peer reviewed ) split up filter
  • Peer reviewed article Konucu, M.; Eker-Develi, E.; Örek, H.; Basduvar, S.; Kideys, A.E. (2022). Marker pigments and carbon biomass of phytoplankton on the northeastern Mediterranean Sea coast. J. Exp. Mar. Biol. Ecol. 550: 151718. https://dx.doi.org/10.1016/j.jembe.2022.151718, more
  • Peer reviewed article Niu, Q.; Ghysels, S.; Wu, N.; Rousseau, D.P.L.; Pieters, J.; Prins, W.; Ronsse, F. (2022). Effects of demineralization on the composition of microalgae pyrolysis volatiles in py-GC-MS. Energy Convers. Mgmt. 251: 114979. https://dx.doi.org/10.1016/j.enconman.2021.114979, more
  • Peer reviewed article Soroush, S.; Ronsse, F.; Verberckmoes, A.; Verpoort, F.; Park, J.; Wu, D.; Heynderickx, P.M. (2022). Production of solid hydrochar from waste seaweed by hydrothermal carbonization: effect of process variables. Biomass Conversion and Biorefinery Online First. https://dx.doi.org/10.1007/s13399-022-02365-9, more
  • Peer reviewed article Gastineau, R.; Hansen, G.; Poulin, M.; Lemieux, C.; Turmel, M.; Bardeau, J.-F.; Leignel, V.; Hardivillier, Y.; Morançais, M.; Fleurence, J.; Gaudin, P.; Méléder, V.; Cox, E.J.; Davidovich, N.A.; Davidovich, O.I.; Witkowski, A.; Kaczmarska, I.; Ehrman, J.M.; Onís, E.S.; Quintana, A.M.; Mucko, M.; Mordret, S.; Sarno, D.; Jacquette, B.; Falaise, C.; Séveno, J.; Lindquist, N.L.; Kemp, P.S.; Eker-Develi, E.; Konucu, M.; Mouget, J.-L. (2021). Haslea silbo, a novel cosmopolitan species of blue diatoms. Biology-Basel 10(4): 328. https://dx.doi.org/10.3390/biology10040328, more
  • Peer reviewed article Gastineau, R.; Konucu, M.; Tekdal, D.; Lemieux, C.; Turmel, M.; Witkowski, A.; Eker-Develi, E. (2021). A gene-rich and compact chloroplast genome of the green alga Nephroselmis pyriformis (N.Carter) Ettl 1982 from the shores of Mersin (Eastern Mediterranean Sea). Mitochondrial DNA Part B: Resources 6(2): 308-310. https://hdl.handle.net/10.1080/23802359.2020.1866461, more
  • Peer reviewed article Niu, Q.; Wang, J.; Cao, C.; Cheng, Z.; Zhu, Y.; Wen, W.; Wang, J.; Pan, Y.; Yan, B.; Chen, G.; Ronsse, F. (2021). Comparative study of different algae pyrolysis using photoionization mass spectrometry and gas chromatography/mass spectrometry. Journal of Analytical and Applied Pyrolysis 155: 105068. https://dx.doi.org/10.1016/j.jaap.2021.105068, more
  • Peer reviewed article Préat, N.; Lefaible, N.; Alvarenga, R.A.F.; Taelman, S.E.; Dewulf, J. (2021). Development of a life cycle impact assessment framework accounting for biodiversity in deep seafloor ecosystems: a case study on the Clarion Clipperton Fracture Zone. Sci. Total Environ. 770: 144747. https://hdl.handle.net/10.1016/j.scitotenv.2020.144747, more
  • Peer reviewed article Zhang, L.; Li, Y.; Wang, W.; Zhang, W.; Zuo, Q.; Abdelkader, A.; Xi, K.; Heynderickx, P.M.; Kim, K.-H. (2021). The potential of microplastics as adsorbents of sodium dodecyl benzene sulfonate and chromium in an aqueous environment. Environ. Res. 197: 111057. https://dx.doi.org/10.1016/j.envres.2021.111057, more
  • Peer reviewed article Priharto, N.; Ronsse, F.; Prins, W.; Carleer, R.; Heeres, H.J. (2020). Experimental studies on a two-step fast pyrolysis-catalytic hydrotreatment process for hydrocarbons from microalgae (Nannochloropsis gaditana and Scenedesmus almeriensis). Fuel Processing Technology 206: 106466. https://hdl.handle.net/10.1016/j.fuproc.2020.106466, more
  • Peer reviewed article Van Melkebeke, M.; Janssen, C.; De Meester, S. (2020). Characteristics and sinking behavior of typical microplastics including the potential effect of biofouling: implications for remediation. Environ. Sci. Technol. 54(14): 8668-8680. https://dx.doi.org/10.1021/acs.est.9b07378, more
  • Peer reviewed article Wang, Q.; Hernández-Crespo, C.; Santoni, M.; Van Hulle, S.; Rousseau, D.P.L. (2020). Horizontal subsurface flow constructed wetlands as tertiary treatment: can they be an efficient barrier for microplastics pollution? Sci. Total Environ. 721: 137785. https://dx.doi.org/10.1016/j.scitotenv.2020.137785, more
  • Peer reviewed article Kantarli, I.C.; Pala, M.; Yildirim, Y.; Yanik, J.; Abreu, M.H. (2019). Fuel characteristics and combustion behavior of seaweed-derived hydrochars. Turkish Journal of Chemistry 43(2): 475-491. https://dx.doi.org/10.3906/kim-1807-7, more
  • Peer reviewed article Calatayud, M.; Xiong, C.; Du Laing, G.; Raber, G.; Francesconi, K.; Van de Wiele, T. (2018). Salivary and gut microbiomes play a significant role in in vitro oral bioaccessibility, biotransformation, and intestinal absorption of arsenic from food. Environ. Sci. Technol. 52(24): 14422-14435. https://dx.doi.org/10.1021/acs.est.8b04457, more

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