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成果及论文

发明专利

授权专利

1. 何锋,黄丹维,吴骏,谷亚威,胡二丹. 一种基于硫化零价铁活化双氧水快速去除有机污染物的方法[P]. CN106396074B, 2019-10-29

2. 何锋,谷亚威,万顺利. 一种铁-硫化亚铁复合体的制备方法[P]. CN106536097B, 2020-05-29.

3. 何锋,万武波,张艳. 一种石墨烯基油水分离泡沫材料及其制备方法和应用[P]. CN107570127B, 2020-11-06

受理专利

1. 何锋. 一种铁炭复合体及其制备与应用[P]. 201410851250.6, 2014-12-31

2. 何锋,万武波,杨壮. 一种无选择性疏油亲水材料及其制备方法和应用[P]. 201810981853.6, 2018-08-27

3. 何锋,蔡世超,谷亚威. 一种硫化零价铁的制备方法及其应用[P]. 201811634376.2, 2018-12-29

4. 何锋,齐建龙,巩莉. 一种活化球磨零价铁材料的制备方法[P]. 201910217607.8, 2019-03-21

5. 何锋,谷亚威,蔡世超. 一种炭硫掺杂零价铁复合材料的制备方法及其应用[P]. 201910772382.2, 2019-08-21

6. 何锋,杨壮,万武波. 一种超耐用疏水性三维多孔油水分离海绵材料及其制备方法和应用[P]. 201911376354.5, 2019-12-27

7. 何锋,黄贤亮,万武波,杨壮. 一种超疏水破乳油水分离膜材料及其制备方法和应用[P].  202010128067.9, 2020-02-28

8. 何锋,谭晶莹,洪杰. 一种球磨生物炭载硫化钠米零价铁复合材料及其制备方法和应用[P]. 202010309402.5, 2020-04-20.

9. 巩莉;邱晓江;何锋. 一种氮掺杂零价铁复合材料的制备方法及应用[P].202010715293.7, 2020-07-23

10. 巩莉;胡瑶;何锋. 一种硬脂酸改性零价铁复合材料的制备方法及其应用[P]. 202010874867.5, 2020-08-27

11. 何锋,巩莉,邱晓江,胡瑶,原群森. 一种氮硫掺杂的零价铁复合材料的制备方法及应用[P]. 202011101637.1, 2020-10-15.

12. 何锋,方蒋栋,万武波,杨德志,黄贤亮,陈鹏. 一种超疏水性二维抗污染破乳油水分离膜材料及其制备方法和应用[P]. 浙江省:CN113058439A, 2021-07-02.

13. 何锋,许文强,夏晨芸. 一种芳香族羧酸改性的零价铁剂及其制备方法和应用. 浙江省:202110641985.62021-06-09. 

14. 何锋,蔡世超,曹振宇. 一种钴修饰的硫化零价铁及其制备方法和应用. 浙江省:202110702053.8, 2021-06-24.

15. 何锋,杨德志,万武波,方蒋栋,陈鹏. 一种超疏水玻纤复合油水分离材料及其制备方法和应用[P];202110289015.4, 2021-03-18.

16. 何锋,孙瑞,杨德志. 一种富羰基炭材料及其制备方法和应用[P];202110289195.6, 2021-03-18.

17. 何锋,俞烨,杨德志. 一种降解地下水中三氯乙烯的方法[P];202110422397.3, 2021-04-29.

发表论文

2021

1. Cai, S.; Chen, B.; Qiu, X.; Li, J.; Tratnyek, P. G.; He, F*, Sulfidation of Zero-Valent Iron by Direct Reaction with Elemental Sulfur in Water: Efficiencies, Mechanism, and Dechlorination of Trichloroethylene. Environmental science & technology 2021, 55, (1), 645-654.

2. Wan, S.; Yu, C.; Li, Y.; Lu, Z.; Wang, Y.; Wang, Y.; He, F.*, Highly selective and ultrafast removal of cadmium and copper from water by magnetic core-shell microsphere. Chemical Engineering Journal 2021, 405, 126576.

3. Gong, L.; Qi, J.; Lv, N.; Qiu, X.; Gu, Y.; Zhao, J.; He, F.* Mechanistic Role of Nitrate Anion in TCE Dechlorination by Ball Milled ZVI and Sulfidated ZVI: Experimental Investigation and Theoretical Analysis. J. Hazard. Mater. 2021, 403, 123844. 

4. Zou, H.; Zhao, J.; He, F.*; Zhong, Z.; Huang, J.; Zheng, Y.; Zhang, Y.; Yang, Y.; Yu, F.; Bashir, M. A.; Gao, B., Ball milling biochar iron oxide composites for the removal of chromium (Cr(VI)) from water: Performance and mechanisms. Journal of Hazardous Materials 2021, 413, 125252.

5. Gong, L.; Qiu, X.; Tratnyek, P. G.; Liu, C.; He, F.*, FeNX(C)-Coated Microscale Zero-Valent Iron for Fast and Stable Trichloroethylene Dechlorination in both Acidic and Basic pH Conditions. Environmental Science & Technology 2021, 55, (8), 5393-5402.

6. Zheng, W.; Wang, Y.; Shuai, L.; Wang, X.; He, F.*; Lei, C.; Li, Z.; Yang, B.; Lei, L.; Yuan, C.; Qiu, M.*; Hou, Y.*; Feng, X., Highly Boosted Reaction Kinetics in Carbon Dioxide Electroreduction by Surface-Introduced Electronegative Dopants. Advanced Functional Materials 2021, 31, (15), 2008146.

7. He, F.*; Yu, Y.; Wan, W.; Liang, L., Enhanced dechlorination of trichloroethene by sulfidated microscale zero-valent iron under low-frequency AC electromagnetic field. Journal of Hazardous Materials 2022, 423, 127020.

8. Zhao, J.; Su, A.; Tian, P.; Tang, X.; Collins, R. N.; He, F.*, Arsenic (III) removal by mechanochemically sulfidated microscale zero valent iron under anoxic and oxic conditions. Water Research 2021, 198, 117132.

9. Hong, J.; Wang, C.; Wagner, D. C.; Gardea-Torresdey, J. L.; He, F.*; Rico, C. M.*, Foliar application of nanoparticles: mechanisms of absorption, transfer, and multiple impacts. Environmental Science: Nano 2021, 8, (5), 1196-1210.

10. Wu, Z.; Lanson, B.; Feng, X.; Yin, H.; Tan, W.; He, F.; Liu, F., Transformation of the phyllomanganate vernadite to tectomanganates with small tunnel sizes: Favorable geochemical conditions and fate of associated Co. Geochimica et Cosmochimica Acta 2021, 295, 224-236.

2020

1. Wan, S.; Qiu, L.; Li, Y.; Sun, J.; Gao, B.; He, F.*; Wan, W., Accelerated antimony and copper removal by manganese oxide embedded in biochar with enlarged pore structure. Chemical Engineering Journal 2020, 402, 126021.

2. Wang, B.B.; Luo, Q.; Li, H.; Yao, Q.; Zhang, L.; Zou, J.T.; He, F.*, Characterization of aerobic granules formed in an aspartic acid fed sequencing batch reactor under unfavorable hydrodynamic selection conditions. Chemosphere 2020, 260, 127600-127600.

3. Sun, J.; Zheng, W.; Lyu, S.; He, F.*; Yang, B.; Li, Z.; Lei, L.; Hou, Y., Bi/Bi2O3 nanoparticles supported on N-doped reduced graphene oxide for highly efficient CO2 electroreduction to formate. Chinese Chemical Letters 2020, 31, (6), 1415-1421.

4. Gong, L.; Lv, N.; Qi, J.; Qiu, X.; Gu, Y.; He, F.*, Effects of non-reducible dissolved solutes on reductive dechlorination of trichloroethylene by ball milled zero valent irons. Journal of hazardous materials 2020, 396, 122620-122620.

5. Gong, L.; Shi, S.; Lv, N.; Xu, W.; Ye, Z.; Gao, B.; O'Carroll, D. M.; He, F.*, Sulfidation enhances stability and mobility of carboxymethyl cellulose stabilized nanoscale zero-valent iron in saturated porous media. Science of the total environment 2020, 718, 137427-137427.

6. He, F.*; Gong, L.; Fan, D.; Tratnyek, P. G.*; Lowry, G. V., Quantifying the efficiency and selectivity of organohalide dechlorination by zerovalent iron (invited review). Environmental science. Processes & impacts 2020.

7. Wan, S.; Qiu, L.; Tang, G.; Chen, W.; Li, Y.; Gao, B.; He, F.*, Ultrafast sequestration of cadmium and lead from water by manganese oxide supported on a macro-mesoporous biochar. Chem. Eng. J. 2020, 124095.

8. Xu, W.; Li, Z.; Shi, S.; Qi, J.; Cai, S.; Yu, Y.; O’Carroll, D. M.; He, F.*, Carboxymethyl cellulose stabilized and sulfidated nanoscale zero-valent iron: Characterization and trichloroethene dechlorination. Appl. Catal. B-Environ. 2020, 262, 118303.

9. Zheng, W.; Chen, F.; Zeng, Q.; Li, Z.; Yang, B.; Lei, L.; Zhang, Q.; He, F.; Wu, X.*; Hou, Y.*, A Universal Principle to Accurately Synthesize Atomically Dispersed Metal-N-4 Sites for CO2 Electroreduction. Nano-Micro Letters 2020, 12, (1).

10. Xiang, W.; Zhang, X.*; Chen, K.; Fang, J.; He, F.; Hu, X.; Tsang, D. C. W.; Ok, Y. S.; Gao, B.*, Enhanced adsorption performance and governing mechanisms of ball-milled biochar for the removal of volatile organic compounds (VOCs). Chemical Engineering Journal 2020, 385.

11. Zhang, X.; Xiang, W.; Wang, B.; Fang, J.; Zou, W.; He, F.; Li, Y.; Tsang, D. C. W.; Ok, Y. S.; Gao, B.*, Adsorption of acetone and cyclohexane onto  CO2 activated hydrochars. Chemosphere 2020, 245, 125664-125664.

12. Qu, P.; Li, Y.; Huang, H.; Wu, G.; Chen, J.; He, F.; Wang, H.; Gao, B.*, Foamed urea-formaldehyde microspheres for removal of heavy metals from aqueous solutions. Chemosphere 2020, 241.

13. Li, F.; Chen, J. J.; Hu, X.; He, F.; Bean, E.; Tsang, D. C. W.; Ok, Y. S.; Gao, B.*, Applications of carbonaceous adsorbents in the remediation of polycyclic aromatic hydrocarbon-contaminated sediments: A review. Journal of Cleaner Production 2020, 255, 13.

14. Xiang, W.; Zhang, X.*; Chen, J.; Zou, W.; He, F.; Hu, X.; Tsang, D. C. W.; Ok, Y. S.; Gao, B.*, Biochar technology in wastewater treatment: A critical review. Chemosphere 2020, 252, 126539-126539.

15. Li, Y.; Zimmerman, A. R.; He, F.; Chen, J.; Han, L.*; Chen, H.; Hu, X.; Gao, B.*, Solvent-free synthesis of magnetic biochar and activated carbon through ball-mill extrusion with Fe3O4 nanoparticles for enhancing adsorption of methylene blue. Science of the total environment 2020, 722, 137972-137972.

16. Zheng, W.; Yang, J.; Chen, H.; Hou, Y.*; Wang, Q.; Gu, M.; He, F.; Xia, Y.; Xia, Z.; Li, Z.; Yang, B.; Lei, L.; Yuan, C.; He, Q.*; Qiu, M.*; Feng, X., Atomically Defined Undercoordinated Active Sites for Highly Efficient CO2 Electroreduction. Advanced Functional Materials 2020, 30, (4).


2019

1. Hu, E.; Pan, S.; Zhang, W.; Zhao, X.; Liao, B.; He, F.*, Impact of dissolved O2 on phenol oxidation by delta-MnO2. Environ. Sci.-Process Impacts 2019, 21, (12), 2118-2127.

2. Gu, Y.; Gong, L.; Qi, J.; Cai, S.; Tu, W.; He, F.*, Sulfidation mitigates the passivation of zero valent iron at alkaline pHs: Experimental evidences and mechanism. Water research 2019, 159, 233-241.

3. Wang, B.B.; Shi, X.; Liu, X.T.; Zou, J.T.; Li, H.J.; Peng, D.C.; He, F.*, Insight into the fenton-induced degradation process of extracellular polymeric substances (EPS) extracted from activated sludge. Chemosphere 2019, 234, 318-327. 

4. Zheng, W.; Guo, C.; Yang, J.; He, F.*; Yang, B.; Li, Z.; Lei, L.; Xiao, J.*; Wu, G.*; Hou, Y.*, Highly active metallic nickel sites confined in N-doped carbon nanotubes toward significantly enhanced activity of CO2 electroreduction. Carbon 2019, 150, 52-59.

5. Lyu, H.; Yu, Z.*; Gao, B.; He, F.; Huang, J.; Tang, J.; Shen, B., Ball-milled biochar for alternative carbon electrode.Environmental Science and Pollution Research 2019, 26, (14), 14693-14702.

6. Wan, S.; Lin, J.; Tao, W.; Yang, Y.; Li, Y.; He, F.*, Enhanced Fluoride Removal from Water by Nanoporous Biochar-Supported Magnesium Oxide. Industrial & Engineering Chemistry Research 2019, 58, (23), 9988-9996.

7. Hu, E.; Zhao, X.; Pan, S.; Ye, Z.; He, F.*, Sorption of nonionic aromatic organics to mineral micropores: Interactive effect of cation hydration and mineral charge density. Environmental science & technology 2019.

8. Zheng, Y. L.; Wang, B.; Wester, A. E.; Chen, J. J.; He, F.; Chen, H.; Gao, B.*, Reclaiming phosphorus from secondary treated municipal wastewater with engineered biochar. Chemical Engineering Journal 2019, 362, 460-468.

9. Zou, H.; Hu, E.; Yang, S.; Gong, L.; He, F.*, Chromium(VI) removal by mechanochemically sulfidated zero valent iron and its effect on dechlorination of trichloroethene as a co-contaminant. Science of the total environment, 2019, 650, 419-426.

10.  Wu, P.; Huang, J.; Zheng, Y.; Yang, Y.; Zhang, Y.; He, F.; Chen, H.; Quan, G.; Yan, J.; Li, T.; Gao, B.*, Environmental occurrences, fate, and impacts of microplastics. Ecotoxicology and environmental safety 2019, 184.

11. Zheng, W.; Yang, J.; Chen, H.; Hou, Y.*; Wang, Q.; Gu, M.; He, F.; Xia, Y.; Xia, Z.; Li, Z.; Yang, B.; Lei, L.; Yuan, C.; He, Q.*; Qiu, M.*; Feng, X.*, Atomically Defined Undercoordinated Active Sites for Highly Efficient CO2 Electroreduction. Advanced Functional Materials 2019.

12. Kim, H.; He, F.; An, B.*, The Application of Alginate Coated Iron Hydroxide for the Removal of Cu(II) and Phosphate. Applied Sciences-Basel 2019, 9, (18).

13. Yang, X.; Wan, Y.; Zheng, Y.; He, F.; Yu, Z.; Huang, J.; Wang, H.; Ok, Y. S.; Jiang, Y.; Gao, B.*, Surface functional groups of carbon-based adsorbents and their roles in the removal of heavy metals from aqueous solutions: A critical review. Chem. Eng. J. 2019, 366, 608-621.

14.  Zhang, H.; Luo, X.; Shi, K.; Wu, T.; He, F.; Yang, H.; Zhang, S.; Peng, C.*, Nanocarbon-based catalysts for esterification: Effect of carbon dimensionality and synergistic effect of the surface functional groups. Carbon 2019, 147, 134-145.

2018

1.Wan, S.; Ding, W.; Wang, Y.; Wu, J.; Gu, Y.; He, F.*, Manganese oxide nanoparticles impregnated graphene oxide aggregates for cadmium and copper remediation. Chemical Engineering Journal, 2018, 350, 1135-1143.

2.Pan, B.*; Chen, D.; Zhang, H.; Wu, J.; He, F.; Wang, J.; Chen, J., Stability of hydrous ferric oxide nanoparticles encapsulated inside porous matrices: Effect of solution and matrix phase. Chemical Engineering Journal, 2018, 347, 870-876.

3.He, F.*; Li, Z.; Shi, S.; Xu, W.; Sheng, H.; Gu, Y.; Jiang, Y.; Xi, B., Dechlorination of Excess Trichloroethene by Bimetallic and Sulfidated Nanoscale Zero-Valent Iron. Environmental science & technology, 2018, 52, (15), 8627-8637.

4.Lyu, H.; Gao, B.*; He, F.; Zimmerman, A. R.; Ding, C.; Tang, J.*; Crittenden, J. C., Experimental and modeling investigations of ball-milled biochar for the removal of aqueous methylene blue. Chemical Engineering Journal, 2018, 335, 110-119.

5.Wan, S.; Wu, J.; Zhou, S.; Wang, R.; Gao, B.; He, F.*, Enhanced lead and cadmium removal using biochar-supported hydrated manganese oxide (HMO) nanoparticles: Behavior and mechanism. Science of the Total Environment, 2018, 616, 1298-1306.

6.Liu,X., Cao, Z., Yuan, Z.,Zhang, J.,Guo, X., Yang,Y., He,F.*, Zhao,Y., Xu, J.*. Insight into the kinetics and mechanism of removal of aqueous chlorinatednitroaromatic antibiotic chloramphenicol by nanoscale zero-valent iron. Chem. Eng. J, 2018,508-518.

7.Lyu, H.; Gao, B.*; He, F.; Zimmerman, A. R.; Ding, C.; Huang, H.; Tang, J.*, Effects of ball milling on the physicochemical and sorptive properties of biochar: Experimental observations and governing mechanisms. Environmental pollution, 2018, 233, 54-63.

8.Wang, B., Liu X., Chen,J., Peng ,D., He,F.*. Composition and functional group characterization of extracellular polymeric substances (EPS) in activated sludge: The impacts of polymerization degree of proteinaceous substrates.Water Res, 2018,129,133-142.

2017

1.Gu,Y., Wang,B., He,F*., Miranda,J.B., Paul,G.T. Mechanochemically Sulfidated Microscale Zero Valent Iron: Pathways, Kinetics, Mechanism, and Efficiency of Trichloroethylene Dechlorination.  Environ. Sci. Technol, 2017, 51 (21) .

2.Lyu, H., Gao, B., He,F., Ding, C., Tang, J., & Crittenden, J. C. Ball-milled carbon nanomaterials for energy and environmental applications. Acs Sustain. Chem. Eng, 2017,5 (11), 9568-9585.

3.Zhang, H.*, Luo, X., Shi, K., Wu, T., He,F.*, Zhou, S., Chen, G.Z., Peng, C. Highly efficient sulfonic/carboxylic dual-acid synergistic catalysis for esterification enabled by sulfur-rich graphene oxide. ChemSusChem, 2017, 10, 1-7. (IF: 7.22)

4.Wan, W., Zhang, Y., Ji, R., Wang, B., He, F.*. Metal foam-based fenton-like process by aeration. ACS Omega, 2017,2(9), 6104-6111.

5. Hu, E., Zhang, Y., Wu, S., Liang, L., He, F.* . Role of dissolved Mn(III) in transformation of organic contaminants: Non-oxidative versus oxidative mechanisms. Water Res.,  2017, 111, 234-243.

6. Wan, S., Wu, J., He,F.*, Zhou, S., Wang, R., Gao, B., Chen, J. Phosphate removal by lead-exhausted bioadsorbents simultaneously achieving lead stabilization. Chemosphere, 2017, 168, 748-755.

7. Zhang, M., He,F.*, Zhao, D.*, Hao, X.Transport of stabilized iron nanoparticles in porous media: Effects of surface and solution chemistry and role of adsorption. J. Hazard. Mater., 2017, 322, 284-291.

8. Lyu, H.; Gao, B.*; He, F.; Andrew R.Z.; Ding, C.; Tang, J.*; Crittenden, J. C. Experimental and modeling investigations of ball-milled biochar for the removal of aqueous methylene blue. Chem. Eng. J. 2017, 335, 110.

9. Lyu, H.; Gao, B.*; He, F.; Andrew R.Z.; Ding, C.; Huang, H.; Tang, J.* Effects of ball milling on the physicochemical and sorptive properties of biochar: Experimental observations and governing mechanisms.  Environ. Pollut. 2017, 233, 54-63.

10. Wang, S., Gao, B.*, Li, Y., Creamer, A. E., He,F. Adsorptive removal of arsenate from aqueous solutions by biochar supported zero-valent iron nanocomposite: Batch and continuous flow tests. J. Hazard. Mater., 2017, 322, 172-181.

11.Wang, B., Gu, Y., Chen, J., Yao, Q., Li, H., Peng, D., He,F.*. Is polymeric substrate in influent an indirect impetus for the nitrification process in an activated sludge system? Chemosphere, 2017, 177, 128. 

12.万武波, 纪冉, 何锋*. 石墨烯基分离膜研究进展. 化学进展, 2017, 29(8), 833.

13.王彬斌, 林景东, 万顺利, 何锋*. 氧化镁基生物质炭高效去除水体中磷的特性. 环境科学,2017, 38(7), 2859-2867. (EI)

14.黄丹维, 何佳, 谷亚威, 何锋*. 球磨微米硫化零价铁活化双氧水降解有机污染物的研究. 化学学报, 2017, 75(9).

Before 2014 (He)

1. Guo, H. B., He, F., Gu, B., Liang, L., Smith, J. C.*.  Time-dependent density functional theory assessment of UV absorption of benzoic acid derivatives. J. Phys. Chem., 2012, A, 116, 11870-11879.

2. He, F.*, Wang, W., Moon, J.W., Howe, J.Y., Pierce, E.M., Liang, L. Rapid removal of Hg(II) from aqueous solutions using thiol functionalized Zn-doped biomagnetite particles. ACS Appl. Mater. Interf., 2012,  4, 4373-4379.

3. He, F.*, Zheng, W., Liang, L., Gu, B.* . Mercury photolytic transformation affected by low-molecular-weight natural organics in water. Sci. Total Environ., 2012, 416, 429-435.

4. Zhang, M., He, F., Zhao, D., Hao, X. Degradation of soil-sorbed trichloroethylene by stabilized zero valent iron nanoparticles: Effects of sorption, surfactants, and natural organic matter. Water Res., 2011, 45(7), 2401-2414.

5. He, F., Zhao, D., Paul, C. Field assessment of carboxymethyl cellulose stabilized iron nanoparticles for in situ destruction of chlorinated solvents in source zones. Water Res., 2010, 44(7), 2360-2370.

6. Bennett, P., He, F., Zhao, D., Aiken, B., Feldman, F. In situ testing of metallic iron nanoparticle mobility and reactivity in a shallow granular aquifer” J. Contam. Hydrol., 2010, 116(1-4), 35-46.

7. Xiong, Z., He, F., Zhao, D., Barnett, M. In-situ immobilization of mercury in sediment by stabilized iron sulfide (FeS) nanoparticles. Water Res., 2009, 43(20), 5171-5179.

8. He, F., Liu, J., Zhao, D., Roberts, C. B. One-step "green" synthesis of Pd nanoparticles of controlled size and their catalytic activity for trichloroethene hydrodechlorination. Ind. Eng. Chem. Res., 2009, 48(14), 6550-6557.

9. Liu, J., He, F., Gunn, T. M., Zhao, D., Roberts, C. B. Precise seed-mediated growth and size-controlled synthesis of palladium nanoparticles using a green chemistry approach. Langmuir, 2009, 25(12), 7116-7128.

10.He, F., Zhang, M., Qian, T., Zhao, D. Transport of carboxymethyl cellulose stabilized iron nanoparticles in porous media: Column experiments and modeling. J. Colloid Interf. Sci., 2009, 334 (1), 96-102.

11. He, F., Zhao, D. Hydrodechlorination of trichloroethene using stabilized Fe-Pd nanoparticles: Reaction mechanism and effects of stabilizers, catalyst and reaction conditions. Appl. Catal. B: Environ., 2008, 84 (3-4), 533-540.

12. Liu, J., He, F., Durham E., Zhao, D., Roberts, C. B. Polysugar-stabilized Pd nanoparticles exhibiting high catalytic activities for hydrodechlorination of environmental deleterious trichloroethylene. Langmuir, 2008, 24 (1), 328-336.

13. He, F., Zhao, D. Response to comment on “Manipulating the size and dispersibility of zerovalent iron nanoparticles by use of carboxymethyl cellulose stabilizers.”Environ. Sci. Technol., 2008, 42(9), 3480.

14. He, F., Zhao, D. Manipulating the size and dispersibility of zerovalent iron nanoparticles by use of carboxymethyl cellulose stabilizers. Environ. Sci. Technol., 2007, 41(17), 6216-6221.

15. He, F., Zhao, D., Liu, J., Roberts, C. B. Stabilization of Fe-Pd nanoparticles with sodium carboxymethyl cellulose for enhanced transport and dechlorination of trichloroethylene in soil and groundwater. Ind. Eng. Chem. Res., 2007, 46(1), 29-34.

16. He, F., Zhao, D. Preparation and characterization of a new class of starch-stabilized bimetallic nanoparticles for degradation of chlorinated hydrocarbons in water. Environ. Sci. Technol., 2005, 39(9), 3314-3320.