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打造心理学人才培养重地

科学研究重器、社会服务重镇

立心 明理 好学 笃行

凝心聚力 争创一流

 

成良

研究领域: 创新学习、创造力的神经、生理基础(分子-脑-行为研究),智慧学习及网络环境影响认知发展,感知觉信息加工整合。

成良
博士,副教授,硕士生导师,

工作经历:
2012年-2014年,必赢76net线路讲师
2014年-至今,必赢76net线路副教授

研究方向:
主要感兴趣的研究问题为:创新学习、创造力的神经、生理基础(分子-脑-行为研究),智慧学习及网络环境影响认知发展,感知觉信息加工整合。

联系方式:
湖北省武汉市珞喻路152号南湖综合楼8楼8071
Email:chengl@ccnu.edu.cn

《人体解剖生理学》、《神经生物学》、《认知与学习》、《认知神经科学进展》等。
指导多项本科生创新创业实践项目,获得国家级项目立项。
招生方向:学术型硕士——基础心理(认知发展),专业型硕士——心理健康教育、应用心理(儿童发展与教育)。

受邀担任SSCI/SCI期刊Frontiers in Psychiatry(IF=4.7)的客座编委。
受邀担任SSCI期刊Frontiers in Human Neuroscience(IF: 2.9)的客座编委。
SCI期刊Journal of Integrative Neuroscience编委受邀
多本SCI/SSCI杂志特约审稿人(Psychological Science,Hearing Research…)
湖北省科技厅、武汉市科技局在库专家

湖北省自然科学基金面上项目:网络成瘾者知觉去掩蔽特点研究(2024-2026)
科技部重大项目:“中国学龄儿童脑智发育队列研究”,华中师范大学队列生物样本模态负责人(第一期2023-2026)
教育部重点实验室开放课题项目:网瘾青少年思维发散-聚合动态特点研究(2023-2024)
横向课题:OT影响创造思维的作用研究(2021-2022)
中央高校基本科研业务项目:上丘介导下丘适应复杂多感觉环境的机制(2020-2021)
横向课题:OXTR基因位点多肽性对创造的差异影响(2020-2021)
中央高校基本科研业务项目:上下丘调制影响跨模态信息加工研究(2019-2021)
华中师范大学青年创新团队项目:人工智能与智慧学习青年创新团队建设(团队成员)(2017-2019)
中央高校基本科研业务项目:青少年网络成瘾者认知加工的动态特征研究(2016-2017)
国家自然科学基金项目:视觉刺激调制下丘神经元声信号加工的机制研究。(2014-2016)
国家博士后科学基金特别资助项目:下丘间相互作用调制下丘神经元声信号加工的机制研究(2014-2015)
国家博士后科学基金面上项目:视觉闪光对下丘声信号加工的影响(2013-2014)
中央高校基本科研业务费专项:幼年期不同社交环境经历对成年后认知能力的影响研究(2013-2014)
中央高校基本科研业务费专项:嘈杂社交环境下选择性注意去掩蔽的机制研究(2014-2015)

     

Shate Cheng, Sha Liu, Bo Ou-Yang, Xinyu Dai, Liang Cheng*. Specific effects of characteristics of enriched environment on innovative problem solving by animals. Psychological Science 2022, 33: 1097-1111. (Flag journal of American Psychological Association (APA))
Bo Ou-Yang, Yue Hu, Xinyuan Fei, Shate Cheng, Ying Hang, Chen Yang, Liang Cheng*. A meta-analytic study of the effects of early maternal separation on cognitive flexibility in rodent offspring. Deve Cogn Neurosci 2022, 56: 101126.
Cheng Liang*, Guo Zhaoyang, Qu Yili. Cross-modality modulation of auditory midbrain processing in intensity information. Hear Res 2020, 395: 108042.
Cheng Liang*, Fei Xinyuan, Qu Yili. Visual input shapes auditory frequency responses in inferior collicular of albino mouse. Hear Res 2019, 381: 107777.
Fei Xinyuan, Liu Sha, Sun Yanhong, Cheng Liang*. Social isolation improves the performance of rodents in a novel cognitive flexibility task. Front Zool 2019, 16: 43.
Cheng Liang, Wang Shaohui, Peng Kang, Liao Xiaomei. Long-term impairment of sound processing induced in auditory midbrain by daily short-term exposure to moderate noise. Neural Plast 2017, e3026749.
Cheng Liang, Wang Shaohui, Huang Yun, Liao Xiaomei. The hippocampus may be more susceptible to environmental noise than the auditory cortex. Hear Res 2016a, 333: 93-97.
Cheng Liang*, Mei Huixian, Huang Yun. Inter-collicular suppression compresses all types of rate-amplitude functions of inferior collicular neurons in mice. Physiol Res 2016b, 65: 527-536.
Cheng Liang, Sun Yanhong. Polymorphisms in a myostatin gene and associations with growth in a hybrid of Culter alburnus and Ancherythroculter nigrocauda. Genet Mol Res 2015, 14: 5615-5620.
Cheng Liang, Wang Shaohui, Jia Nan, Xie Min, Liao Xiaomei. Environmental stimulation influences the cognition of developing mice by inducing changes in oxidative and apoptosis status. Brain Deve 2014, 36: 51-56.
Cheng Liang, Mei Huixian, Tang Jia, Fu Ziying, Jen Philip HS, Chen Qicai. Bilateral collicular interaction: modulation of auditory signal processing in frequency domain. Neuroscience 2013, 235: 27-39.
Mei Huixian, Cheng Liang#(co-first), Chen Qicai. Interaction between inferior collicular neurons and bilateral collicular interaction modulate auditory signal processing. Front Neural Circuit 2013, 7: 68.
Mei Huixian#, Cheng Liang#(co-first), Tang Jia, Fu Ziying, Wang Xin, Jen Philip HS, Chen Qicai. Bilateral collicular interaction: modulation of auditory signal processing in amplitude domain. PLoS One 2012a, 7: e41311.
Mei Huixian#, Cheng Liang#(co-first), Tang Jia, Fu Ziying, Jen Philip HS, Chen Qicai. Modulation of amplitude sensitivity by bilateral collicular interaction among different frequency laminae. Neurosci Lett 2012b, 517: 13-17.
Cheng Liang, Wang Shaohui, Chen Qicai, Liao Xiaomei. Moderate noise induced cognition impairment of mice and its underlying mechanisms. Physiol Behav 2011, 104: 981-988.
Fu Ziying, Mei Huixian, Cheng Liang, Bai Jing, Tang Jia, Jen Philip HS, Chen Qicai. The possible local neural circuits that may shape discharge patterns of inferior collicular neurons. Neurosci Bull 2013, 29: 541-552.
Cheng L, Mei HX, Tang J,ChenQC. Best frequency-shift of collicular neurons induced by real-time interactionbetween inferior colliculi via intercollicular commissural projections. IWCDM 2011, 43-46.
Cheng L, Xie M, Wang SH, Chen QC, Liao XM. Peroxidative damage induced bymoderate white noise involved in Tau hyperphosphorylation of hippocampus inmice. ICBBE 2010, 1-4.
Cheng L, Qi QZ, Liao XM, Chen QC. Effect of medium intensity noise exposure onemotional learing and memory of young mice. EPPH 2009

2022年度优秀教师
2016-2017年度优秀班主任
2014年度优秀教师