代表性科研项目: (1)国家自然科学基金“典型河口-近海环境微塑料协同卤代阻燃剂的运移和传输机制研究”(42307310)30万 主持 (2)山东省自然科学基金“典型河口-近海环境中微塑料对抗生素运移及向海传输机制的影响研究”(ZR2023QD143)15万 主持 (3)mkmksport高层次人才引进计划项目 20万,主持 (4)黄河口水体持久性有机污染物监测、传输模拟及对海洋环境影响预测项目 30万,主持 (5)日照黄海中心渔港东区远洋船舶码头项目和远洋船舶码头项目海洋环境影响预测项目 9.5万元,主持 (6)中国地质调查局开放基金项目 2万元 主持 (7)自然资源部第一海洋研究所开放基金项目 2万元 主持 (8)国家自然科学基金-山东省联合基金项目“山东半岛生物富集类卤代物的入海通量、行为过程与环境效应”(U1806207)结题,281万 参与 (9)国家自然科学基金“浮游生物对渤海环境中持久性卤代烃环境归趋的影响机制”(41773138)结题,68万 参与 代表性论文: [1] Liu, L; Zhen, X M; Wang, X M et al. Legacy and novel halogenated flame retardants in seawater and atmosphere of the Bohai Sea: Spatial trends, seasonal variations, and influencing factors [J]. Water Research 2020, 184: 116117(JCR一区;IF=13.4) [2] Zhang, Y R1; Liu, L1*; Liu, Y L et al. Deciphering the natural and anthropogenic drivers on the fate and risk of antibiotics and Antibiotic resistance genes (ARGs) in typical river-estuary system, China[J] Journal of Hazardous Materials 2024(JCR一区;IF=12.2) [3] Liu L, Li Y F; Li B W et al. Roles of suspended particle matters on the spatiotemporal dynamics and transport mechanisms of hydrophobic contaminants in the Yellow River Estuary. [J] The Innovation Geoscience 2025 [4] Liu L; Tang J H; Zhong G C et al. Spatial distribution and seasonal variation of four current-use pesticides (CUPs) in air and surface water of the Bohai Sea, China [J]. Science of the Total Environment 2018, 621: 516-523(JCR一区;IF=10.753) [5] Liu, L; Zhen, X M; Wang, X M et al. Spatio-temporal variations and input patterns on the traditional and novel brominated flame retardants (BFRs) in coastal rivers of North China [J]. Environment Pollution 2021, 283: 117093(JCR一区;IF=9.988) [6] Liu, L; Li Y F; Zhang J et al. Influence of hydrodynamic conditions on the fate of halogenated flame retardants along salinity gradients in a highly polluted micro-tidal estuary [J]. Science of the Total Environment 2023, 893, 164716(JCR一区;IF=10.753) [7] Liu, L;Wang, X Y.; Zhen X M et al. In situ integrated removal of tetracycline and cadmium from soil/water by the voltaic-cell-effect of the iron (II) sulfide-hydrogel [J]. Applied Surface Science. 2025(JCR一区;IF=6.3) [8] Yang, T.; Liu, Y L*.; Liu, L* et al. Insights and perspectives of chitosan-based hydrogels for the removal of heavy metals and dyes from wastewater. International Journal of Biological Macromolecules 2025(JCR一区;IF=8.5), 292: 139280. [9] Yang T Z; Liu, Y L*; Gong, H L; Liu, L* et al. Competitive removal of compound pollution via nano-magnetic Enteromorpha prolifera hydrogel: The binding ability of Cr(VI) is stronger than methyl orange. Applied Surface Science. 2023(JCR一区;IF=6.3) [10] Song, Z H; Liu, Y L*; Liu, L* et al. Reusable magnetically-modified Enteromorpha prolifera-based biochar hydrogels:Competitive removal of methyl orange and Cr(VI) composites. Carbon Research. 2024 [11] Cui, M; Liu, L* et al. Characterization of carbonaceous substances emitted from residential solid fuel combustion using real-world data from the Beijing-Tianjin-Hebei region [J]. Science of the Total Environment 2022, 4: 155529(JCR一区;IF=10.753) [12] Li, Y N; Zhen, X M; Liu, L et al. Species-specific and habitat-dependent bioaccumulation of halogenated flame retardants in marine organisms from estuary to coastal seas[J] Journal of Hazardous Materials 2024 (JCR一区;IF=12.2) [13] Zhen, X M; Liu, L; Wang, X M et al. Fates and ecological effects of current-use pesticides (CUPs) in a typical river-estuarine system of Laizhou Bay, North China [J]. Environment Pollution 2019, 252: 573-579(JCR一区;IF=9.988) [14] Zhen, X M, (...) Liu, L et al. Decabromodiphenyl ether versus decabromodiphenyl ethane: source, fate, and influencing factors in a coastal sea nearing source region [J]. Environmental Science & Technology: 2021, 55: 7376-7385(JCR一区;IF=11.357) [15] Naumann T, (...), Liu, L et al. Occurrence and ecological risk assessment of neonicotinoids and related insecticides in the bohai sea and its surrounding rivers, China[J]. Water Research: 2022, 209: 117912(JCR一区;IF=13.4) |
