导师简介
刘家浩,男,1994年生,中共党员,副教授,硕士研究生导师,华中农业大学博士,兵团青年科技创新人才,天池英才。
一、研究方向
主要从事大豆高产栽培和纳米化控的研究。
二、科研项目与学术成果
先后主持国家及省部科研项目5项,在《Nature Communications》《Plant Biotechnology Journal》和《Journal of Nanobiotechnology》等发表SCI收录论文18篇,其中以第一作者发表一区文章6篇,申请发明专利22项。
(一)主持重要科研项目:
1. 基于“以盐治盐”策略的南疆盐碱地大豆栽培技术研发。兵团科技计划项目-兵团青年科技创新资金专项,15万元,2024/07-2025/12。
2. 四氧化三锰纳米拟酶提高小麦耐盐性的机理研究。校长基金项目-青年项目,40万元,2024/01-2025/12。
3. 新疆冬小麦种质资源抗旱耐热遗传位点发掘与育种应用。兵团科技计划项目-兵团科技攻关计划(子课题),10万元,2024/07-2027/07。
4. 叶面喷施Mn3O4纳米颗粒对南疆盐碱地棉花产量和纤维品质的影响。校长基金项目-对口支援联合基金项目,5万元,2025/05-2027/06。
5. 甘草-枸杞基纳米生长调节剂的创制与其提高大豆耐盐能力的机制研究。天池英才,80万元,2025/07-2027/12。
(二)主要成果:
1、代表性期刊论文:
[1] Jiahao Liu, Guangjing Li, Linlin Chen, Jiangjiang Gu, Honghong Wu* and Zhaohu Li. Cerium oxide nanoparticles improve cotton salt tolerance by enabling better ability to maintain cytosolic K+/Na+ ratio. Journal of Nanobiotechnology, 2021, 19: 153. IF=10.435; citations, 54.
[2] Jiahao Liu#, Jiangjiang Gu#, Jin Hu#, Huixin Ma, Guangjing Li, Yanhui Li, Feifei Cao, Honghong Wu*, Zhaohu Li. Use of Mn3O4 nanozyme to improve cotton salt tolerance. Plant Biotechnology Journal. 2023, 21: 1935–1937. IF=13.6
[3] Xinyi Shan#, Jiahuan Li#, Jiahao Liu#, Ting Zhang, Qian Liu, Huiyin Ma, Honghong Wu*, Hao Wu*. Targeting ferroptosis by poly(acrylic) acid coated Mn3O4 nanoparticles alleviates acute liver injury. Nature Communications. 2023, 14: 7598. IF=16.6
[4] Ping Qiu#, Jiahui Sun#, Jiahao Liu#, Zhichao Mei, Chaochun Wang, Xin Wang, Qinqin Chen, Xin He, Xinghua Xiong, Linfeng Bao, Zhongsong Liu, Honghong Wu, Yunlong Zhai, Lunwen Qian. Licorice-wolfberry derived nanomaterials enhance sclerotinia stem rot resistance by activating JA-mediated immune response in rapeseed. Industrial Crop and Products. 2024.
[5] Jiahao Liu#, Dan Zhang#, Linfeng Bao, Tingyong Mao, Linbo Zhao, Chan Liu, Guanjun Huang*, Yunlong Zhai*. Plant nanobiotechnology: a new strategy to enhance crop photosynthesis. Environmental Science: Nano. 2024. IF=6.7. 中科院二区期刊
[6] Linfeng Bao#, Jiahao Liu#, Tingyong Mao, Linbo Zhao, Desheng Wang*, Yunlong Zhai*. A review of ROS homeostasis under heat and drought stress in plants and its regulation by nanobiotechnology. Frontiers in Plant Science. 2024. IF=5.3.中科院二区TOP期刊
[7] Jiahao Liu, Han Zhou, Lin Yue, Linfeng Bao, Desheng Wang, Tingyong Mao, Zhengjun Cui, Honghong Wu, Yunlong Zhai. Designing nanomaterials for sustainable agriculture: Introducing largely overlooked physicochemical properties. Plant Nano Biology. 2024.
[8] Jiahao Liu#, Chengcheng Fu#, Guangjing Li, Mohammad Nauman Khan and Honghong Wu*. ROS homeostasis and plant salt tolerance: plant nanobiotechnology updates. Sustainability, 2021, 13: 3552. IF=3.251; citations, 57.
[9] Jiahao Liu*, Xiaolei Cao*, Tingyong Mao, Qinglin Wen, Dan Zhang, Linfeng Bao, Desheng Wang, Wei Sang, Sifeng Zhao#, Yunlong Zhai#. Enhancing wheat tolerance to salinity using wolfberry-derived carbon dots. Journal of Integrative Agricultural, 2025, 24: 3690-3693.
[10] Yanhui Li, Jiahao Liu, Chengcheng Fu, Mohammad Nauman Khan, Jin Hu, Fameng Zhao, Honghong Wu * and Zhaohu Li. CeO2 nanoparticles modulate Cu-Zn superoxide dismutase and lipoxygenase-IV isozyme activities to alleviate membrane oxidative damage to improve rapeseed salt tolerance. Environmental Science: Nano, 2021, 9: 1116-1132. IF=8.131.
[11] Wenya Wang*, Xiaomeng Lian*, Zhiqian Li, Linfeng Bao, Jiahao Liu, Tingyong Mao, Desheng Wang, Lili Yang, Long Ma*, and Lu Han*. Licorice–wolfberry-derived nanomaterial improves the germination rate of wheat under salt stress by maintaining reactive oxygen species homeostasis. Frontiers in Plant Science, 2025,16: 1657516.
[12] Linfeng Bao*, Wenya Wang*, Mengyang Li, Jie Liu, Jiahao Liu, Gulizhare Alifu, Desheng Wang, Xueqi Liang*, Tingyong Mao* and Yunlong Zhai. Reactive oxygen species–post translational modifications–central carbon metabolism regulatory loop: coordination of redox homeostasis and carbon flux allocation in plants under abiotic stress. Frontiers in Plant Science, 2025, 16: 1637328.
[13] Anda Liu, Xiaolei Ma, Zhao Zhang, Jiahao Liu, Dan Luo, Lirong Yang, Na Lv, Yanjun Zhang, Guozheng Yang* and Hezhong Dong. One-off fertilization at reduced N rate improves nitrogen use efficiency without yield reduction in late-planted cotton under a double cropping system of wheat–cotton. Industrial Crops and Products, 2022, 176: 114346. IF=5.645.
[14] Zhao Zhang, Muhammad Sohaib Chattha, Shoaib Ahmed, Jiahao Liu, Anda Liu, Lirong Yang, Na Lv, Xuefeng Ma, Xian’en Li, Feiran Hao and Guozheng Yang*. Nitrogen reduction in high plant density cotton is feasible due to quicker biomass accumulation. Industrial Crop and Products, 2021, 172: 15. IF=5.645.
[15] Mohammad Nauman Khan, Yanhui Li, Zaid Khan, Linlin Chen, Jiahao Liu, Jin Hu, Honghong Wu* and Zhaohu Li*. Nanoceria seed priming enhanced salt tolerance in rapeseed through modulating ROS homeostasis and α-amylase activities. Journal of Nanobiotechnology 2021, 19: 276. IF=10.435.
[16] Abdul Hafeez, Saif Ali, Xiaolei Ma, Shahbaz Atta Tung, Adnan Noor Shah, Anda Liu, Zhao Zhang, Jiahao Liu and Guozheng Yang*. Sucrose metabolism in cotton subtending leaves influenced by potassium-to-nitrogen ratios. Nutrient Cycling in Agroecosystems, 2019, 113: 2. IF=3.27.
[17] Saif Ali, Abdul Hafeez, Xiaolei Ma, Shahbaz Atta Tung, Muhammad Sohaib Chattha, Adnan Noor Shah, Dan Luo, Shoaib Ahmad, Jiahao Liu and Guozheng Yang*. Equal potassium-nitrogen ratio regulated the nitrogen metabolism and yield of high-density late-planted cotton (Gossypium hirsutum L.) in Yangtze River valley of China. Industrial Crop and Products, 2019, 129: 231-241. IF=5.645.
[18] Shahbaz Atta Tung, Ying Huang, Saif Ali, Abdul Hafeez, Adnan Noor Shah, Xiaolei Ma, Shoaib Ahmad, Muhammad Sohaib Chattha, Anda Liu, Jiahao Liu, Zhao Zhang and Guozheng Yang*. Mepiquat chloride effects on potassium acquisition and functional leaf physiology as well as lint yield in highly dense late-sown cotton. Industrial Crops and Products, 2018, 129: 142-155. IF=5.645.
2、会议报告:
[1] 2020.11 第十九届中国作物学会学术年会,武汉;
[2] 2021.10 中国农学会棉花学会年会,沈阳;
[3] 2022 中国作物学会年会,会议延期;
[4] 2024.01 第八届全国植物生物学与植物逆境生物学研讨会,三亚;
[5] 2024.04 2024 2024年国际作物生理生态青年学者论坛,石河子;
[6] 2025.05.23 博士后论坛,武汉;
[7] 2025.10.25 塔里木大学第二届胡杨英才国际青年学者论坛农学院分论坛,阿拉尔。
3、科研奖励与荣誉
[1] 2018-2019年度华中农业大学植物科学技术学院三好研究生;
[2] 2021年10月获评博士生国家奖学金;
[3] 2021年11月华中农业大学植物科学技术学院博士生中期答辩评为优秀,并获得院长奖学金;
[4] 2022.09 湖北省作物学会2022年学术年会暨作物与环境国际学术研讨会优秀学术论文奖二等奖;
[5] 2024.07 新疆生产建设兵团青年科技创新人才;
[6] 2024.12 新疆维吾尔自治区“天池英才”计划。
4、知识产权
[1] 发明专利:一种锰元素叶面喷施肥及制备方法。专利号:202110945779.4。发明人:吴洪洪,李召虎,刘家浩,顾江江,胡金,吴晗,曹菲菲。已授权
[2] 发明专利:一种纳米拟酶、制备方法及包含其的种子浸泡剂。专利号:202110946069.3。发明人:吴洪洪,李召虎,刘家浩,顾江江,胡金,李广静,曹菲菲。已授权
[3] 发明专利:一种绿光激发的碳量子点及其在提高植物光合作用中的应用。申请号:202111407480.X。发明人:吴洪洪,李召虎,刘家浩,马慧欣,李广静,孙桂兰,熊栋梁,王笑笑。
[4] 发明专利:锰基纳米酶作为铁死亡抑制剂及其在肝损伤中的应用。专利号:202210198832.3。发明人:吴浩,吴洪洪,李佳欢,单心怡,刘家浩。已授权
[5] 发明专利:一种聚丙烯酸@铁镁复合纳米颗粒在缓解植物干旱胁迫中的应用。申请号:202211634413.6。发明人:吴洪洪,李召虎,陶云鹏,刘家浩,李广静, 李燕辉,罗可。
[6] 发明专利:一种Fe-Mg纳米颗粒在提高植物黄萎病抗性中的应用。申请号:202310689220.9。发明人:吴洪洪,李召虎,罗可,刘家浩,陶云鹏,闫嘉森,美合日古丽·阿卜力米提。
[7] 发明专利:一种负载Fe2+的介孔纳米二氧化硅在调节水稻茎秆矮化中的应用。申请号:202310587807.9。发明人:何莹,魏丽楠,曾汉来,吴洪洪,刘家浩。
[8] 发明专利:一种聚丙烯酸-氧化铈复合纳米材料在提高水稻结实率中的应用。申请号:202310587813.4。发明人:何莹,朱芷萱,魏丽楠,吴洪洪,曾汉来,刘家浩,岳琳。
[9] 发明专利:甘草-枸杞基碳量子点在提高作物种子发芽率中的应用。申请号:202410331985X。发明人:刘家浩,毛廷勇,翟云龙,王德胜,刘婵,杨志刚,桑伟。
[10] 发明专利:甘草-枸杞基碳量子点在作物滴灌肥中的应用。申请号:2024103323944。发明人:刘家浩,毛廷勇,包林峰,翟云龙,王德胜,梁雪齐,黄鑫,桑伟。
[11] 发明专利:甘草-枸杞基碳量子点在作物叶面肥中的应用。申请号:2024103316758。发明人:刘家浩,毛廷勇,连晓梦,翟云龙,王德胜,刘婵,杨志刚,桑伟。
[12] 发明专利:甘草碳量子点作为滴灌肥在提高农作物耐盐能力中的应用。申请号:202410332234X。发明人:翟云龙,刘家浩,王德胜,毛廷勇,梁雪齐,黄鑫,桑伟。
[13] 发明专利:甘草碳量子点作为浸种剂在提高盐胁迫下农作物种子的发芽率和发芽速率中的应用。申请号:2024103315897。发明人:王德胜,刘家浩,赵林博,翟云龙,刘婵,杨志刚,桑伟。
[14] 发明专利:甘草碳量子点作为叶面肥在提高农作物耐盐能力中的应用。申请号:2024103311877。发明人:张丹,刘家浩,翟云龙,王德胜,毛廷勇,刘婵,杨志刚,桑伟。
[15] 发明专利:枸杞碳量子点在提高作物种子发芽率中的应用。申请号:2024103321008。发明人:张兵,刘家浩,李志仟,翟云龙,王德胜,毛廷勇,梁雪齐,黄鑫,桑伟。
[16] 发明专利:枸杞碳量子点作为叶面肥在提高作物耐盐能力中的应用。申请号:2024103309824。发明人:李发永,刘家浩,包林峰,翟云龙,王德胜,毛廷勇,刘婵,杨志刚,桑伟。
[17] 发明专利:一种枸杞-甘草基碳量子点 MIX 在小麦上的应用。申请号:2024114926697。发明人:文卿琳,刘家浩,毛廷勇,翟云龙,刘炜,桑伟,艾明军,包林峰。
[18] 发明专利:一种含锰元素的纳米材料、喷剂及其在提高小麦营养品质中的应用。申请号:2024115035736。发明人:王冀川,文卿琳,刘家浩,桑伟,艾明军,包林峰,梁雪齐。
[19] 发明专利:一种含铈元素的纳米材料、喷剂及其在提高小麦籽粒品质中的应用。申请号:2024114861955。发明人:魏建军,桑伟,文卿琳,刘鹏鹏,刘家浩,艾明军,包林峰。
[20] 发明专利:一种聚丙烯酸修饰的Mn3O4纳米颗粒在提高作物光合作用和/或镉抗性中的应用。申请号:2024115784208。发明人:黄冠军,姜广磊,周海梅,刘家浩,曾勇军。
[21] 发明专利:一种提高小麦耐高温能力的纳米叶面喷施剂及其制备方法与应用。申请号:2024117624754。发明人:刘家浩,文卿琳,艾明军,包林峰。
[22] 发明专利:提高作物产量的方法。申请号:2025108521306。发明人:刘家浩,李孟阳,毛廷勇,翟云龙,包林峰,王文雅,姑丽扎热·阿力甫
三、联系方式
E-mail:13163247758@163.com
Tel:13163247758
办公室地址:农科楼214
