Bai, L., Jiang, Y., Xia, D.
, Wei, Z., Spinney, R., Dionysiou, D. D., Minakata, D., Xiao, R., Xie, H. B. & Chai, L. (2022).
Response to Comment on "mechanistic Understanding of Superoxide Radical-Mediated Degradation of Perfluorocarboxylic Acids".
Environmental Science and Technology,
56(8), 5289-5291.
https://doi.org/10.1021/acs.est.2c01335
Bai, L., He, L., Fu, Y., Chu, C.
, Wei, Z., Spinney, R., Dionysiou, D. D., Liang, Y. & Xiao, R. (2022).
New insight to superoxide radical-mediated degradation of pentachlorophenate: Kinetic determination and theoretical calculations.
Chemical Communications,
58(16), 2666-2669.
https://doi.org/10.1039/d1cc06834b
Weng, M., Cai, M.
, Xie, Z., Dong, C., Zhang, Y., Song, Z., Shi, Y., Jin, M., Wang, Q.
& Wei, Z. (2022).
Hydrodynamic cavitation-enhanced heterogeneous activation of persulfate for tetracycline degradation: Synergistic effects, degradation mechanism and pathways.
Chemical Engineering Journal,
431(Part 3), Article 134238.
https://doi.org/10.1016/j.cej.2021.134238
Lin, H., Tang, Y., Dong, Y.
, Wei, Z. & Liu, C. (2022).
Characterization of heavy metal migration, the microbial community, and potential bioremediating genera in a waste-rock pile field of the largest copper mine in Asia.
Journal of Cleaner Production,
351, Article 131569.
https://doi.org/10.1016/j.jclepro.2022.131569
Arana Juve, J. M., Li, F., Zhu, Y., Liu, W.
, Ottosen, L. D. M., Zhao, D.
& Wei, Z. (2022).
Concentrate and degrade PFOA with a photo-regenerable composite of In-doped TNTs@AC.
Chemosphere,
300, Article 134495.
https://doi.org/10.1016/j.chemosphere.2022.134495
Min, X., Chu, C., Luo, Z., Ma, J., Fu, Y.
, Wei, Z., Spinney, R., Dionysiou, D. D. & Xiao, R. (2022).
Transformation of phenol and nitrobenzene by superoxide radicals: Kinetics and mechanisms.
Chemical Engineering Journal,
442(Part 1), Article 136134.
https://doi.org/10.1016/j.cej.2022.136134
Poulsen, J. S., Jonge, N. D.
, Vieira Macêdo, W., Dalby, F. R., Feilberg, A. & Nielsen, J. L. (2022).
Characterisation of cellulose-degrading organisms in an anaerobic digester.
Bioresource Technology,
351, Article 126933.
https://doi.org/10.1016/j.biortech.2022.126933
Cai, M., Qian, Z.
, Xiong, X., Dong, C., Song, Z., Shi, Y.
, Wei, Z. & Jin, M. (2022).
Cationic polyacrylamide (CPAM) enhanced pressurized vertical electro-osmotic dewatering of activated sludge.
Science of the total Environment,
818, Article 151787.
https://doi.org/10.1016/j.scitotenv.2021.151787
Tian, Y., Arata, C., Boedicker, E., Lunderberg, D. M., Patel, S., Sankhyan, S.
, Kristensen, K., Misztal, P. K., Farmer, D. K., Vance, M., Novoselac, A., Nazaroff, W. W. & Goldstein, A. H. (2021).
Indoor emissions of total and fluorescent supermicron particles during HOMEChem.
Indoor Air,
31(1), 88-98.
https://doi.org/10.1111/ina.12731
Lunderberg, D. M., Misztal, P. K., Liu, Y., Arata, C., Tian, Y.
, Kristensen, K., Weber, R. J., Nazaroff, W. W. & Goldstein, A. H. (2021).
High-Resolution Exposure Assessment for Volatile Organic Compounds in Two California Residences.
Environmental Science and Technology,
55(10), 6740-6751.
https://doi.org/10.1021/acs.est.0c08304
Lunderberg, D. M., Liu, Y., Misztal, P. K., Arata, C., Tian, Y.
, Kristensen, K., Nazaroff, W. W. & Goldstein, A. H. (2021).
Intake fractions for volatile organic compounds in two occupied California residences.
Environmental Science and Technology Letters,
8(5), 386-391.
https://doi.org/10.1021/acs.estlett.1c00265
Su, Z., Liu, T.
, Seviour, T., Li, S., Tian, L., Zhang, G. & Yu, W. (2022).
Identifying active concentrations of biopolymers for enhancing membrane nanofiltration performance: From bench-scale tests to real production considerations.
Science of the total Environment,
818, Article 151808.
https://doi.org/10.1016/j.scitotenv.2021.151808
Luo, Z., Spinney, R.
, Wei, Z., Hu, W.-P., Villamena, F. A., Song, W., Dionysiou, D. D. & Xiao, R. (2021).
Reevaluation of the Reactivity of Superoxide Radicals with a Sulfonamide Antibiotic, Sulfacetamide: An Experimental and Theoretical Study.
ACS EST Water,
1(11), 2339-2347.
https://doi.org/10.1021/acsestwater.1c00193
Olesen, J. E., Feilberg, A., Lund, P., Jensen, S. K. & Christensen, J. H. (2021).
Skru ned for gassen i landbruget.
Jyllands-Posten,
Sektion 1, 33-33.
Wagner, C.
, Nyord, T., Vestergaard, A. V.
, Hafner, S. D. & Pacholski, A. S. (2021).
Acidification effects on in situ ammonia emissions and cereal yields depending on slurry type and application method.
Agriculture (Switzerland),
11(11), Article 1053.
https://doi.org/10.3390/agriculture11111053
Arata, C., Misztal, P. K., Tian, Y., Lunderberg, D. M.
, Kristensen, K., Novoselac, A., Vance, M. E., Farmer, D. K., Nazaroff, W. W. & Goldstein, A. H. (2021).
Volatile organic compound emissions during HOMEChem.
Indoor Air,
31(6), 2099-2117.
https://doi.org/10.1111/ina.12906
Dalby, F. R., Hafner, S. D., Petersen, S. O., Vanderzaag, A., Habtewold, J., Dunfield, K., Chantigny, M. H.
& Sommer, S. G. (2021).
A mechanistic model of methane emission from animal slurry with a focus on microbial groups.
PLOS ONE,
16(6), Article 0252881.
https://doi.org/10.1371/journal.pone.0252881
Sutaryo, S., Adiwinarti, R., Sudrajad, M. A., Sari, T. Y. K., Khayati, L. N.
, Ward, A. J. & Purnomoadi, A. (2021).
Enhancing methane production of dairy cow manure by co-digestion with modified cassava flour waste water.
Livestock Research for Rural Development,
33(6).
Fuchs, A.
, Dalby, F. R., Liu, D.
, Kai, P. & Feilberg, A. (2021).
Improved effect of manure acidification technology for gas emission mitigation by substituting sulfuric acid with acetic acid.
Cleaner Engineering and Technology,
4, Article 100263.
https://doi.org/10.1016/j.clet.2021.100263
Ma, J.
, Wei, Z., Spinney, R., Dionysiou, D. D. & Xiao, R. (2021).
Emerging investigator series: could the superoxide radical be implemented in decontamination processes? Environmental Science-Water Research & Technology,
7(11), 1966-1970.
https://doi.org/10.1039/d1ew00463h
Miller, A., Espanani, R.
, Junker, A., Hendry, D., Wilkinson, N., Bollinger, D., Abelleira-Pereira, J. N., Deshusses, M. A., Inniss , E. & Jacoby, W. (2015).
Supercritical water oxidation of a model fecal sludge without the use of a co-fuel.
Chemosphere,
141, 189-196.
https://doi.org/10.1016/j.chemosphere.2015.06.076
Pedersen, J., Nyord, T., Feilberg, A., Labouriau, R., Hunt, D. & Bittman, S. (2021).
Effect of reduced exposed surface area and enhanced infiltration on ammonia emission from untreated and separated cattle slurry.
Biosystems Engineering,
211, 141-151.
https://doi.org/10.1016/j.biosystemseng.2021.09.003
Adamsen, A. P. S., Petersen, S. O. & Kai, P., (2021).
Vurdering af drivhusgasreduktioner og uddybet beskrivelse af en række konkrete klimavirkemidler til foder, stald og lager, No. 2020-0166157, 18 p., Mar 27, 2021.
Gomes, A. M. R., Christensen, J. H.
, Gründger, F., Kjeldsen, K. U., Rysgaard, S. & Vergeynst, L. (2022).
Biodegradation of water-accommodated aromatic oil compounds in Arctic seawater at 0 °C.
Chemosphere,
286(Part 3), Article 131751.
https://doi.org/10.1016/j.chemosphere.2021.131751
He, L., Bai, L., Dionysiou, D. D.
, Wei, Z., Spinney, R., Chu, C., Lin, Z. & Xiao, R. (2021).
Applications of computational chemistry, artificial intelligence, and machine learning in aquatic chemistry research.
Chemical Engineering Journal,
426, Article 131810.
https://doi.org/10.1016/j.cej.2021.131810
Li, R., Kadrispahic, H., Koustrup Jørgensen, M.
, Berg, S., Thornberg, D., Tomasz Mielczarek, A.
& Bester, K. (2022).
Removal of micropollutants in a ceramic membrane bioreactor for the post-treatment of municipal wastewater.
Chemical Engineering Journal,
427, Article 131458.
https://doi.org/10.1016/j.cej.2021.131458