師資力量

宮豔豔
職稱:副教授、碩士生導師
郵箱:yanyangong@jnu.edu.cn
個人簡介


宮豔豔,副教授、碩士生導師,廣東省“珠江人才計劃”青年拔尖人才項目獲得者。從事污染物在環境中的遷移轉化、水體治理和土壤修複研究,在新型納米材料/複合材料的研發、土壤/地下水重金屬原位修複、水體新污染物治理等方面取得重要成果。主持各類項目十餘項,包括國家自然科學基金2項,省部級項目3項,累計獲得項目總經費超過300萬元。發表SCI論文63篇(其中第一/通訊作者論文37篇);獲授權發明專利3項;榮獲廣東省“珠江人才計劃”青年拔尖人才、山西省科學技術合作獎一等獎、太阳集团app首页雙百英才傑出青年學者第一層次、美國化學學會環境化學傑出研究生獎、美國水協會紀念獎、墨西哥灣漏油和生态科學會議獎等獎項;擔任Chinese Chemical Letters、Scientific Reports編委;任 Water Research、Journal of Hazardous Materials等學術期刊的審稿人。

教育經曆

1.  2009-082014-05,美國奧本大學,環境工程博士 

2.  2008-082009-07,中國海洋大學,環境科學碩士(就讀一年,轉至美國奧本大學攻讀博士學位)

3.  2004-092008-06,中國海洋大學,環境科學學士

工作經曆

1.  2023-10至今太阳集团app首页太阳集团1088vip副教授

2.  2016-092023-09,太阳集团app首页,環境學院副研究員、副教授

3.  2014-092016-08南開大學環境科學與工程學院,講師

4.  2013-052014-05美國奧本大學,土木工程學院助教

5.  2009-082014-05美國奧本大學,土木工程學院助研

研究方向

1.新型納米材料/複合材料的研發及其在環境修複中的應用

2.污染物在環境中的遷移轉化過程

3.重金屬修複新污染物治理

科研項目

1. 國家自然科學基金面上項目納米硫化亞鐵原位固定化地下水汞的定量化機制及其對汞微生物甲基化的抑制機制2022-01-012025-12-3157萬元在研,主持。

2. 國家自然科學基金青年項目,巯基化氧化石墨烯/鐵錳氧化物複合納米材料原位固定土壤/地下水中汞的機理研究,2016-01-012018-12-3126萬元,結題,主持。

3. 教育部科技項目,納米磁性Fe3O4原位固定土壤和地下水中全氟化物的機理研究,2015-01-012017-12-313.5萬元,結題,主持。

4. 廣東省自然科學基金面上項目,硫化亞鐵納米材料對地下水中汞形态轉化和遷移歸趨的影響及機制,2019-10-012022-09-3010萬元,結題主持。

5. 廣州市科技計劃項目,聚合物改性礦物材料高效原位修複重金屬複合污染場地土壤,2021-04-012023-03-3120萬元,結題,主持。

6. 天津市應用基礎與前言技術研究一般項目,新型生物炭/FeS複合材料在鉻污染土壤修複中的應用,2015-10-012018-09-30, 結題,主持

7. 廣東粵海珠三角供水有限公司,珠江三角洲水資源配制工程南沙地區土壤重金屬超标原因及對高新沙水庫的影響研究,2020-01-012022-12-31,結題,主持

8. 廣州市科學研究計劃項目重點項目,基于分子标志物的黑臭河湧污染源解析及微生态修複技術的研發,2018-04-012020-03-31200萬元,結題,骨幹成員。

科研成果

(一)論文

[1]. Gong, Y.#*, Bai, Y.#, Zhao, D., Wang, Q. Aggregation of carboxyl-modified polystyrene nanoplastics in water with aluminum chloride: Structural characterization and theoretical calculation. Water Research 2022, 208, 117884.

[2]. Gong, Y.#*, Yin, J.#, Zhang, T., Yin, W., Sun, L., Liang, Q., Wang, Q. Ferrous sulfide nanoparticles control mercury speciation and bioavailability to methylating bacteria in contaminated groundwater: Impacts of mercury species. Chemical Engineering Journal, 2023, 455, 140612.

[3]. Bai, Y., Tang, X., Sun, L., Yin, W., Hu, G., Liu, M., Gong, Y.* Application of iron-based materials for removal of antimony and arsenic from water: Sorption properties and mechanism insights. Chemical Engineering Journal, 2022, 431(2), 134143.

[4]. Tu, Y., Zhao, D.*, Gong, Y.*, Li, Z., Deng, H., Liu, X. Field demonstration of on-site immobilization of arsenic and lead in soil using a ternary amending agent. Journal of Hazardous Material, 2022, 426, 127791.

[5]. Bai, Y., Wu, F., Gong, Y.*. Oxidation and adsorption of antimony(III) from surface water using novel Al2O3-supported Fe-Mn binary oxide nanoparticles: Effectiveness, dynamic quantitative mechanisms, and life cycle analysis. Environmental Science: Nano, 2020, 7, 3047-3061.

[6]. Wang, L., Wang, M., Li, Z., Gong, Y.*. Enhanced removal of trace mercury from surface water using a novel Mg2Al layered double hydroxide supported iron sulfide composite. Chemical Engineering Journal, 2020, 124635.

[7]. Huang, Y., Wang, M., Gong, Y.*, Zeng, E.Y. Efficient removal of mercury from simulated groundwater using thiol-modified graphene oxide/Fe-Mn composite in fixed-bed columns: Experimental performance and mathematical modeling. Science of the Total Environment, 2020, 714, 136636.

[8]. Wang, M., Li, Y., Zhao, D., Zhuang, L., Yang, G., Gong, Y.* Immobilization of mercury by iron sulfide nanoparticles alters mercury speciation and microbial methylation in contaminated groundwater. Chemical Engineering Journal, 2020, 381, 122664.

[9]. Huang, Y., Wang, M., Li, Z., Gong, Y.*, Zeng, E.Y. In situ remediation of mercury-contaminated soil using thiol-functionalized graphene oxide/Fe-Mn composite. Journal of Hazardous Materials, 2019, 373, 783-790.

[10]. Huang, Y., Gong, Y.*, Tang, J.*, Xia, S. Effective removal of inorganic mercury and methylmercury from aqueous solution using novel thiol-functionalized graphene oxide/Fe-Mn composite. Journal of Hazardous Materials, 2019, 366, 130-139. 

[11]. Gong, Y.*, Zhao, D.*, Wang, Q. An overview of field-scale studies on remediation of soil contaminated with heavy metals and metalloids: Technical progress over the last decade. Water Research, 2018, 147, 440-460.

[12]. Lyu, H., Tang, J.*, Huang, Y., Gai, L., Zeng, E.Y., Liber, K., Gong, Y.* Removal of hexavalent chromium from aqueous solutions by a novel biochar supported nanoscale iron sulfide composite. Chemical Engineering Journal, 2017, 322, 516-524. (Highly cited paper)

[13]. Gong, Y., Gai, L., Tang, J., Fu, J., Wang, Q., Zeng, E.Y. Reduction of Cr(VI) in simulated groundwater by FeS-coated iron magnetic nanoparticles. Science of the Total Environment, 2017, 595, 743-751.

[14]. Tang, J.#, Huang, Y.#Gong, Y.*, Lyu, H., Wang, Q., and Ma, J. Preparation of a novel graphene oxide/Fe-Mn composite and its application for aqueous Hg(II) removal. Journal of Hazardous Materials 2016, 316, 151-158.

[15]. Gong, Y., Wang, L., Liu J., Tang, J., and Zhao, D. Removal of aqueous perfluorooctanoic acid (PFOA) using starch-stabilized magnetite nanoparticles. Science of the Total Environment 2016, 562, 191-200.

[16]. Gong, Y., Tang, J., and Zhao, D. Application of iron sulfide particles for groundwater and soil remediation: A review. Water Research 2016, 89, 309-320.

[17]. Gong, Y., Fu, J., O’Reilly, S.E., and Zhao, D. Effects of oil dispersants on photodegradation of pyrene in marine water. Journal of Hazardous Materials 2015, 287, 142-150.

[18]. Gong, Y., Liu, Y., Xiong, Z., and Zhao, D. Immobilization of mercury by carboxymethyl cellulose stabilized iron sulfide nanoparticles: Reaction mechanisms and effects of stabilizer and water chemistry. Environmental Science & Technology 2014, 48, 3986-3994.

(二)論著

[1]. Gong, Y. and Zhao, D. (2014). “Physical-chemical processes for phosphorus removal and recovery” In Comprehensive Water Quality and Purification, Eds. Ahuja., S. Elsevier, pp 196-222.

[2]. Gong, Y. and Zhao, D. (2013). “In situ immobilization of mercury in soil using stabilized iron sulfide nanoparticles” In Novel Solutions to Water Pollution, Eds. Ahuja, S. and Hristovski, K. ACS Symposium Series, pp 61-77.

[3]. Lyv, H., Gong, Y., Ranjit, G.G., and Tang, J. (2016) “Potential application of biochar for bioremediation of contaminated systems” In Biochar Application (In press).

(三)專利

1. 宮豔豔,王麗娟,王夢霞,劉良英。一種鎂鋁雙金屬氫氧化物負載硫化亞鐵複合材料及其制備方法應用發明專利授權公告号:CN111974341B,授權公告日:2023.05.02

2. 呂宏虹,宮豔豔,唐景春,王琳,劉君成,黃耀。一種硫化亞鐵/生物炭複合材料的制備方法及應用,發明專利,授權公告号:CN106966456B,授權公告日:2020.07.28

3. 唐景春,呂宏虹,宮豔豔,黃。一種生物炭/石墨烯複合材料吸附水中菲和汞(II)的應用,發明專利,授權公告号:CN105312025B授權公告日:2019.06.28

(四)獎勵

1.  2018年廣東省“珠江人才計劃”青年拔尖人才

2.  2020年太阳集团app首页雙百英才傑出青年學者第一層次

3.  2021年山西省科學技術合作獎一等獎,項目名稱:污染場地典型污染物的滞留機理及關鍵修複技術研究


課程教學

本科生課程:《環境專業英語》

研究生課程:《土壤污染控制原理與技術》《土壤環境學》


科研團隊

實驗室研究方向:水體治理和土壤修複,熟悉不同形态重金屬的分析測試,尤其是不同形态汞的分析測試熟悉全氟化合物的分析測試。