一、个人简介

彭琴（1992.07-），女，硕士，重庆文理学院化学与环境科学学院学科科研秘书，环境材料与修复技术重庆市重点实验室秘书，重庆市环境科学学会会员。

工作学习经历：

2017.07-至  今  重庆文理学院化环学院，实验师

2014.09-2017.06  西北农林科技大学，硕士

2010.09-2014.06  西北农林科技大学，学士

二、研究方向

1.       重金属在土壤介质中的迁移转化行为及生物有效性监测评估；

2.       生物炭材料改性方法及其对污染控制效果研究。

三、承担课程

任教以来，讲授过《环境监测实验》、《环境土壤及修复技术实验》、《固体废弃物处理与处置实验》、《无机及分析化学实验》、《实验基本技能》等本科生课程。

四、科研项目与学术成果

1.       科研项目

（1）永川区自然科学基金项目，Ycstc,2018nb0301，2018.10-2020.10，已结题，主持；

（2）重庆文理学院重点科研项目，2017ZCH03，2017.12-2019.12，已结题，主持；

（3）重庆市教委科技项目，KJQN202001317，2020.10-2023.10，在研，参与。

2.       学术成果

（1）发表论文

1. Peng Q, Wang D, Wang M K, Zhou F, Yang W X, Liu Y X, Liang D L. (2020). Prediction of selenium uptake by pakchoi in several agricultural soils based on diffusive gradients in thin-films technique and single extraction. Environmental Pollution. 256, 113414.

2. Peng Q., Li J, Wang D, Wei T J, Chen C E L, Liang D L. (2019). Effects of ageing on bioavailability of selenium in soils assessed by diffusive gradients in thin-films and sequential extraction. Plant and Soil. 436(1-2), 159-171.

3. Peng Q, Wang M K, Cui Z W, Huang J, Chen C E, Guo L, Liang D L. (2017). Assessment of bioavailability of selenium in different plant-soil systems by diffusive gradients in thin-films (DGT). Environmental Pollution. 225: 637–643.

4. Peng Q, Guo L, Fayaz A, Li J, Qin S Y, Feng P Y, & Liang D L. (2016). Influence of pak choi plant cultivation on Se distribution, speciation and bioavailability in soil. Plant and Soil. 403(1-2): 331-342.

5. 彭琴, 李哲, 梁东丽, 王梦柯, 郭璐. (2017). 不同作物对外源硒动态吸收、 转运的差异及其机制. 环境科学, 38(4): 1667-1674.

6. 彭琴, 石光友, 杨艳, 王彤彤, 杨和山, 范剑平, 谢志刚. (2021). 四种吸附剂材料对镉去除及硬水软化的研究. 生态科学.（录用待刊）

7.     Zhou, F., Peng, Q., Wang, M., Liu, N., Dinh, Q. T., Zhai, H., ... & Liang, D. (2021). Influence of processing methods and exogenous selenium species on the content and in vitro bioaccessibility of selenium in Pleurotus eryngii. Food Chemistry, 338, 127661.

8. Zhou, F., Li, Y., Ma, Y., Peng, Q., Cui, Z., Liu, Y., ... & Liang, D. (2021). Selenium bioaccessibility in native seleniferous soil and associated plants: Comparison between in vitro assays and chemical extraction methods. Science of The Total Environment, 2021, 762: 143119.

9. Wang D, Peng Q, Yang W X, Dinh Q T, Thi A T T, Zhao X D, Wu J T, Liu Y X, Liang D L. (2020) DOM derivations determine the distribution and bioavailability of DOM-Se in selenate applied soil and mechanisms. Environmental Pollution, 259, 113899.

10. Dinh Q T., Wang M, Tran T A T, Zhou F, Wang D, Zhai H, Peng Q, ... & Lin Z Q. (2019). Bioavailability of selenium in soil-plant system and a regulatory approach. Critical Reviews in Environmental Science and Technology, 49(6), 443-517.

11. Wang M K, Cui Z W, Xue M Y, Peng Q, Zhou, F., Wang, D., ... & Liang, D. (2019). Assessing the uptake of selenium from naturally enriched soils by maize (Zea mays L.) using diffusive gradients in thin-films technique (DGT) and traditional extractions. Science of The Total Environment, 689, 1-9.

12. Li Z, Liang D L, Peng Q, Cui Z W, Huang J, Lin Z Q. (2017). Interaction between selenium and soil organic matter and its impact on soil selenium bioavailability: A review. Geoderma, 295: 69-79.

13. Wang D, Zhou F, Yang W X, Peng Q, Man N, Liang D L. (2017). Selenate redistribution during aging in different Chinese soils and the dominant influential factors. Chemosphere, 182, 284-292.

14. Li J, Peng Q, Liang D L, Liang S J, Chen J, Sun, H, Li S Q, Lei P H. (2016). Effects of aging on the fraction distribution and bioavailability of selenium in three different soils. Chemosphere, 144: 2351-2359.

（2）获取专利

1. 彭琴等. 一种自动分类的垃圾回收装置. 授权号：ZL 202020078966.8，授权日：2020.09.10。

五、联系方式

邮  箱：pengqin2016@126.com

邮  编：402160

通讯地址：重庆市永川区重庆文理学院红河校区B区