1. 2019
  2. He, S. (2019). Catalytic wet oxidation: Process and catalyst development and the application perspective. In Y-F. Han, J. J. Spivey, & D. Shekhawat (Eds.), Catalysis (pp. 37-71). (Catalysis; Vol. 31). Royal Society of Chemistry. https://doi.org/10.1039/9781788016971-00037
  3. 2018
  4. Yin, W., Venderbosch, R. H., & Heeres, H. J. (2018). 8 - Recent developments in the catalytic hydrotreatment of pyrolysis liquids. In Direct Thermochemical Liquefaction for Energy Applications (pp. 249-292). Elsevier. https://doi.org/10.1016/B978-0-08-101029-7.00007-2
  5. 2017
  6. Witono, J. R. B., Hashigata, K., Santoso, H., & Noordergraaf, I. W. (2017). Exploration of carbon based solid acid catalyst derived from corn starch for conversion of non-edible oil into biodiesel. In Z. B. B. Oral, & A. Y. Oral (Eds.), 3rd International Multidisciplinary Microscopy and Microanalysis Congress (InterM) - Proceedings (pp. 157-164). (Springer Proceedings in Physics; Vol. 186). Springer Science and Business Media, LLC. https://doi.org/10.1007/978-3-319-46601-9_19
  7. He, S., Krishnamurthy, K. R., & Seshan, K. (2017). Dehydrogenation of long chain n-paraffins to olefins – a perspective. In J. Spivey, & Y. Han (Eds.), Catalysis (Vol. 29, pp. 282-316). Royal Society of Chemistry. https://doi.org/10.1039/9781788010634-00282
  8. 2016
  9. Puccini, M., Licursi, D., Stefanelli, E., Vitolo, S., Galletti, A. M. R., & Heeres, H. J. (2016). Levulinic acid from orange peel waste by hydrothermal carbonization (HTC). In Chemical Engineering Transactions (Vol. 50, pp. 223-228). (Chemical Engineering Transactions; Vol. 50). Italian Association of Chemical Engineering - AIDIC. https://doi.org/10.3303/CET1650038
  10. 2015
  11. Venderbosch, R. H., & Heeres, H. (2015). Coprocessing of (upgraded) pyrolysis liquids in conventional oil refineries. In Biomass Power for the World: Transformations to Effective Use (pp. 515-540). Pan Stanford Publishing Pte. Ltd..
  12. 2010
  13. Dai, C., Liu, B., Girisuta, B., & Heeres, H. J. (2010). Research Progress on Furfural Residues Recycling: A Literature Review. In Proceedings of the 2010 International Conference on Environmental Engineering and Applications (ICEEA 2010) (pp. 238-241). University of Groningen, Research Institute of Technology and Management.
  14. 2009
  15. Kraai, G. N., Schuur, B., van Zwol, F., Haak, R. M., Minnaard, A. J., Feringa, B. L., ... de Vries, J. G. (2009). Process Intensification. Continuous Two-Phase Catalytic Reactions in a Table-Top Centrifugal Contact Separator. In ML. Prunier (Ed.), CATALYSIS OF ORGANIC REACTIONS (pp. 39-49). (Chemical Industries; Vol. 123). BOCA RATON: CRC Press, Taylor and Francis Group.
  16. 2007
  17. Melian-Cabrera, I., Osman, A. H., van Eck, E. R. H., Kentgens, A. P. M., Polushkin, E., Kapteijn, F., & Moulijn, J. A. (2007). Fenton detemplation of ordered (meso)porous materials. In R. Xu, Z. Gao, J. Chen, & W. Yan (Eds.), FROM ZEOLITES TO POROUS MOF MATERIALS: THE 40TH ANNIVERSARY OF INTERNATIONAL ZEOLITE CONFERENCE, PROCEEDINGS OF THE 15TH INTERNATIONAL ZEOLITE CONFERENCE (pp. 648-654). (Studies in Surface Science and Catalysis; Vol. 170). AMSTERDAM: Elsevier.
  18. 2006
  19. Stefanucci, G., Almbladh, C-O., Kurth, S., Gross, E. K. U., Rubio, A., Leeuwen, R. V., ... Barth, U. V. (2006). Time-Dependent Transport Through Single Molecules: Nonequilibrium Green’s Functions. In EPRINTS-BOOK-TITLE University of Groningen, The Zernike Institute for Advanced Materials.

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