所属学院：

材料与能源学院

导师类别：

硕士生导师

科研方向：

先进光电材料及器件的制备与性能研究

联系方式：

muzhongfei@gdut.edu.cn

招生学院：

材料与能源学院

个人简述

2004年开始从事材料科学与工程、材料与化工及能源动力等学科领域内的科研工作，目前主要从事先进光电材料及器件的制备与性能研究。中国稀土学会会员，广东省物理学会会员，国家自然科学基金等科技项目的评审专家，Nat. Photonics、Adv. Mater.、Laser Photonics Rev.、Chem. Mater.等国际国内重要学术期刊审稿人。

主持或参与国家自然科学基金重大科研仪器研制项目、面上项目、中央财政支持地方高校发展项目等多个科技项目。以第一作者或通讯作者身份在国际著名期刊Laser Photonics Rev.、Chem. Eng. J.、Adv. Opt. Mater.等上发表学术论文60余篇，授权中国发明专利8项。

学科领域

科学学位：材料科学与工程

专业学位：材料工程

教育背景

2011年12月 在广东工业大学应用化学专业 获博士学位

2007年6月 在广东工业大学材料物理与化学专业 获硕士学位

工作经历

2007年7月 在广东工业大学 担任教师职务

学术兼职

中国稀土学会会员

广东省物理学会会员

国家自然科学基金等科技项目的评审专家

Nat. Photonics、Adv. Mater.、Laser Photonics Rev.、Chem. Mater.等国际国内重要学术期刊审稿人

主要荣誉

2019年 获广东教育教学成果奖（高等教育类）二等奖

2019年 获广东工业大学第十一届教学成果奖一等奖

2019年 获优秀共产党员荣誉称号

2021年 获优秀党务工作者荣誉称号

主要论文

[37]Super Broadband Emission Across NIR-I and NIR-II Under Blue Light Excitation of Cr3+, Ni2+ Co-Doped Sr2GaTaO6 Phosphor Achieved by Two-Site Occupation and Effective Energy Transfer

Yifu Zhuo, Fugen Wu, Yaping Niu, Yun Wang, Qi zhang, Yun Teng, Huafeng Dong, Zhongfei Mu

Laser & Photonics Reviews

https://doi.org/10.1002/lpor.202400105

[36]Efficient broad-band NIR-II emitting phosphor Mg4Ta2O9: Ni2+ with satisfactory thermal stability of luminescence.

Jie Li, Chengqian Wang, Yaping Niu, Yun Wang, Fugen Wu, Qi Zhang, Yun Teng, Huafeng Dong, Zhongfei Mu

Ceramics International

https://doi.org/10.1016/j.ceramint.2024.02.353

[35]Fluorescence temperature sensing based on thermal enhancement effect in negative thermal expansion matrix

Huang, ZJ (Huang, Zhijie); Lin, J (Lin, Jian) ; Zhang, X (Zhang, Xin); Dong, HF (Dong, Huafeng); Wen, MR (Wen, Minru) ; Wu, FG (Wu, Fugen); Mu, ZF (Mu, Zhongfei)  

Journal of Luminescence

https://doi.org/10.1016/j.jlumin.2023.119777

[34]Efficient ultra-broadband NIR-II emission achieved by multi-site occupancy in Mg3Ga2GeO8: Ni2+ phosphor

Wang, CQ (Wang, Chengqian); Lin, J (Lin, Jian); Zhang, X (Zhang, Xin); Dong, HF (Dong, Huafeng); Wen, MR (Wen, Minru); Zhao, S (Zhao, Shuang) ; Yuan, SW (Yuan, Shuwen); Zhu, DY (Zhu, Daoyun) ; Wu, FG (Wu, Fugen); Mu, ZF (Mu, Zhongfei)  

Journal of Alloys and Compounds

https://doi.org/10.1016/j.jallcom.2023.168893

[33] Broadening and enhancing emission of Cr3+ simultaneously by co-doping Yb3+ in Ga1.4In0.6SnO5

Shuang Zhao, Zhongfei Mu*, Lulu Lou, Shuwen Yuan, Min Liao, Qiuming Lin, Daoyun

Zhu, Fugen Wu*

Journal of Rare Earths.

https://doi.org/10.1016/j.jre.2022.10.012

[32]Accurately Controlling the Occupation of Eu2+ in Cs(K, Na)3(Li3SiO4)4 to Achieve Narrow-Band Green Emission for Wide Color Gamut Displays.

Min Liao, Fugen Wu*, Jin Wang, Daoyun Zhu, Xin Zhang, Huafeng Dong, Zhiping Lin, Minru Wen, and Zhongfei Mu*

ACS Applied Materials & Interfaces，2022, 14, 47892−47901

[31] Ultra-broadband near infrared phosphor with wide spectral range and long peak wavelength achieved by double-site occupation.

Shuwen Yuan, Fugen Wu, Jin Wang, Lulu Lou, Shuang Zhao, Daoyun Zhu, Zhongfei Mu.

Journal of Rare Earths.

https://doi.org/10.1016/j.jre.2022.07.018.

[30] Towards single broadband white emission in Rb0.5K1.5CaPO4(F, Cl): Eu2+ via selective site occupancy engineering for solid-state lighting applications.

M. Liao, F.G. Wu*, D.Y. Zhu, X. Zhang, H.F. Dong, Z.P. Lin, M.R. Wen, Z.F. Mu*.

Chemical Engineering Journal, 449 (2022) 137801.

[29] Ultra-broadband near-infrared phosphor Li3Sc2(PO4)3: Cr3+ realized by two-sites occupation.

Shuang Zhao, LuluLou, Shuwen Yuan, Daoyun Zhu, Fugen Wu*, Zhongfei Mu*.

Journal of Luminescence, 251 (2022) 119188.

[28] Broadband NIR-II phosphors with Cr4+ single activated centers based on special crystal structure for nondestructive analysis.

S.W. Yuan, Z.F. Mu*, L.L. Lou, S. Zhao, D.Y. Zhu, F.G. Wu*.

Ceramics International 48 (2022) 26884-26893.

[27] Efficient broadband near-infrared emission induced by Nb5+ substitution for Ta5+ in GaTa1-yNbyO4: Cr3+ phosphor

L.L. Lou, S. Zhao, S.W. Yuan, D.Y. Zhu, F.G. Wu*, Z.F. Mu*.

Inorganic Chemistry Frontiers, 9 (2022) 3522-3531.

[26] K replaces Rb towards cyan to red ultra-wideband perovskite-type phosphors for full-spectrum lighting.

M. Liao, F.G. Wu*, D.Y. Zhu, Z.F. Mu*, X. Zhang, H.F. Dong, Z.P. Lin, M.R. Wen.

Optical Materials, 127 (2022) 112246.

[25] Fluorescence intensity ratio optical thermometer YNbO4: Pr3+, Tb3+ based on intervalence charge transfer.

S.W. Yuan, S. Zhao, L.L. Lou, D.Y. Zhu, Z.F. Mu⁎, F.G. Wu⁎.

Powder Technology, 395 (2022) 83–92.

[24] Na Replaces Rb towards High-Performance Narrow-Band Green Phosphors for Backlight Display Applications.

M. Liao, Q. Wang, Q.M. Lin, M.X. Xiong, X. Zhang, H.F. Dong, Z.P. Lin, M.R. Wen, D.Y. Zhu, Z.F. Mu*, F.G. Wu*.

Advanced Optical Materials, 2021: 2100465.

[23] Trivalent Chromium Ions Doped Fluorides with Both Broad Emission Bandwidth and Excellent Luminescence Thermal Stability.

Q.M. Lin, Q. Wang, M. Liao, M.X. Xiong, X. Feng, X. Zhang, H.F. Dong, D.Y. Zhu, F.G. Wu*, Z.F. Mu*.

ACS Applied Materials & Interfaces, 13 (2021) 18274-18282.

[22] The design of dual-switch fluorescence intensity ratio thermometry with high sensitivity and thermochromism based on a combination strategy of intervalence charge transfer and up-conversion fluorescence thermal enhancement.

Q. Wang, M. Liao, Q.M. Lin, M.X. Xiong, X. Zhang, H.F. Dong, Z.P. Lin, M.R. Wen, D.Y. Zhu, Z.F. Mu*, F.G. Wu*.

Dalton Transactions. 2021, 50, 9298.

[21] A review on fluorescence intensity ratio thermometer based on rare-earth and transition metal ions doped inorganic luminescent materials.

Q. Wang, M. Liao, Q.M. Lin, M.X. Xiong, Z.F. Mu*, F.G. Wu*.

Journal of Alloys and compounds, 850 (2021) 156744.

[20] Understanding the cyan-emitting phosphor RbNa(Li3SiO4)2: Eu2+ by providing Rb ion vacancies.

M. Liao, Z.F. Mu*, Q. Wang, X. Zhang, H.F. Dong, M.R. Wen, F.G. Wu*.

Journal of Alloys and compounds. 837 (2020) 155084.

[19] Ratiometric Optical Thermometer with High Sensitivity Based on Site-Selective Occupancy of Mn2+ Ions in Li5Zn8Al5Ge9O36 under Controllable Synthesis Atmosphere.

Q. Wang, M. Liao, Z.F. Mu*, X. Zhang, H.F. Dong, Z.J. Liang, J.C. Luo, Y. Yang, F.G. Wu*.

Journal of Physical Chemistry C. 124 (2020) 886-895.

[18] Photoluminescence properties of Sr2MgSi2O7: Pb2+ and tunable emission from UVB to UVC based on ion substitution.

Q. Wang, X. Wu*, S.W. Wei, Y.T. Wu, X.Y. Mu, Z.Y. Zhao, M.R. Wen, H.F. Dong, X. Zhang, F.G. Wu, Z.F. Mu*.

Journal of Luminescence, 225 (2020) 117353.

[17] Ratiometric optical thermometer with high sensitivity based on dual far-red emission of Cr3+ in Sr2MgAl22O36,

Q. Wang, Z.J. Liang, J.C. Luo, Y. Yang, Z.F. Mu*, X. Zhang, H.F. Dong, F.G. Wu*.

Ceramics International. 46 (2020) 5008-5014.

[16] A warm white emission of Bi3+-Eu3+ and Bi3+-Sm3+ codoping Lu2Ge2O7 phosphors by energy transfer of Bi3+-sensitized Eu3+/Sm3+.

Q.F. Li, S.A. Zhang, W.X. Lin, W.F. Li, Y.X. Li, Z.F. Mu*, F.G. Wu*.

Spectrochimica acta. Part A. 228 (2020) 117755.

[15] Energy Transfer and Multicolor-Tunable Emissions of Sr3La6(SiO4)6: Ce3+, Tb3+, Eu3+.

W.F. Li, M.F. Qiu, Y.X. Li, S.A. Zhang, Q.F. Li, W.X. Lin, Z.F. Mu*, F.G. Wu*.

Journal of Electronic Materials. 49 (2020) 1404-1411.

[14] Near-infrared quantum cutting via energy transfer in Bi3+, Yb3+ co-doped Lu2GeO5 down-converting phosphor.

H.M. Luo, S.A. Zhang, Z.F. Mu*, F.G. Wu, Z.G. Nie, D.Y. Zhu, X. Feng, Q.T. Zhang.

Journal of Alloys and Compounds. 784 (2019): 611-619.

[13] Enhanced near infrared luminescence of Lu2GeO5: Nd3+ by the co-doping of Bi3+.

S.X. Guo, S.A. Zhang, Z.F. Mu*, F.G. Wu, X. Feng, Q.T. Zhang, J.Q. Feng, D.Y. Zhu, Q.P. Du.

Journal of Luminescence. 206 (2019): 278-283.

[12] Bi3+ and Sm3+ co-doped La2MgGeO6: A novel color-temperature indicator based on different heat quenching behavior from different luminescent centers.

Q. Wang, Z.F. Mu*, S.A. Zhang, Q.P. Du, Y. Qian, D.Y. Zhu, F.G. Wu*.

Journal of Luminescence. 206 (2019): 462-468.

[11] A novel near infrared long-persistent phosphor La2MgGeO6: Cr3+, RE3+(RE = Dy, Sm),

Q. Wang, Z.F. Mu*, S.A. Zhang, Q.T. Zhang, D.Y. Zhu, J.Q. Feng, Q.P. Du, F.G. Wu*.

Journal of Luminescence. 206 (2019): 618-623.

[10] A red phosphor Mg3Y2Ge3O12: Bi3+, Eu3+ with high brightness and excellent thermal stability of luminescence for white light-emitting diodes.

M. Liao, Z.F. Mu*, S.A. Zhang, F.G. Wu*, Z.G. Nie, Z.Q. Zheng, X. Feng, Q.T. Zhang, J.Q. Feng, D.Y. Zhu.

Journal of Luminescence. 210 (2019): 202-209.

[9] Luminescence properties of Eu3+ doped La3Ga5GeO14 and effect of Bi3+ co-doping.

J.F. Lu, Z.F. Mu*, D.Y. Zhu, Q. Wang, F.G Wu*.

Journal of Luminescence. 196 (2018) 50-56.

[8] An Investigation about Luminescence Mechanism of SrGa2O4 and no Detectable Energy Transfer from Host to Doped Eu3+ Ions.

X.Y. Cai, Z.F. Mu*, S.A. Zhang, D.Y. Zhu, Q. Wang, Y.B. Yang, D.X. Luo, F.G. Wu*.

Journal of Luminescence. 200 (2018): 169-174.

[7] Efficient near ultraviolet to near infrared downconversion photoluminescence of La2GeO5: Bi3+, Nd3+ phosphor for silicon-based solar cells.

J.M. Li, S.A. Zhang, H.M. Luo, Z.F. Mu*, Z.Z. Li, Q.P. Du, J.Q. Feng, F.G. Wu*.

Optical Materials. 85 (2018): 523-530.

[6] Dy3+ Doped Ca9Gd(PO4)7: a novel single-phase full-color emitting phosphor,

L.R. Yang, Z.F. Mu*, S.A. Zhang, Q. Wang, D.Y. Zhu, Y. Zhao, D.X. Luo, Q.T. Zhang, F.G. Wu*.

Journal of Materials Science: Materials in Electronics. 29 (2018): 6548-6555.

[5] Adjusting the structure and luminescence properties of Sr2-xBaxMgAl22O36: Eu2+ phosphors by Sr: Ba ratio.

Q. Wang, Z.F. Mu*, S.A. Zhang, X. Feng, Q.T. Zhang, D.Y. Zhu, Q.P. Du, F.G. Wu*.

Luminescence. 8 (2018): 1371-1376.

[4] The effect of Sr/Ba ratio on the structure and luminescence properties of phosphors Sr2-xBaxMgGeO7: Pb2+.

Q. Wang, Z.F. Mu*, S.A. Zhang, X. Feng, Q.T. Zhang, D.Y. Zhu, Y.B. Yang, F.G. Wu.

Optik-International Journal for Light and Electron Optics. 174 (2018) : 56-61.

[3] The synthesis and the luminescence properties of Sr2Ga3La1-xDyxGe3O14.

Q. Wang, Z.F. Mu*, L.R. Yang, S.A. Zhang, D.Y. Zhu, Y.B. Yang, D.X. Luo, F.G. Wu*.

Physica B: Physics of Condensed Matter. 530 (2018): 258–263.

[2] A red emitting stoichiometric phosphor Sr2Ga3La1−xEuxGe3O14 for white light emitting diodes.

Q. Wang, Z.F. Mu*, D.Y. Zhu, J.Q. Feng, Z.H. Liang, L.R. Yang, X.Y. Cai, J.F. Lu, F.G. Wu*.

Journal of Materials Science: Materials in Electronics. 28 (2017): 15921–15927.

[1] The synthesis and luminescence properties of a novel red-emitting phosphor: Eu3+-doped Ca9La(PO4)7.

Z.H. Liang, Z.F. Mu*, Q. Wang, D.Y. Zhu, F.G. Wu*.

Applied Physics A：Materials Science & processing. 123 (2017) 612

知识产权

[8] 熊明翔; 牟中飞; 吴福根; 一种硫量子点及期制备方法和应用, 2023-07-07, 中国, ZL 2021 1 1425773.0(专利)

[7] 廖敏; 牟中飞; 吴福根; 朱道云; 一种近紫外激发超宽发射的钙钛矿型发光材料和制备方法及其在全光谱LED照明中的应用, 2023-7-14, 中国, 2021 1 1445674.7(专利)

[6] 牟中飞; 王强; 吴福根; 朱道云; 张绍安; 杨亿斌; 李京波; 一种发光材料的热猝灭行为在温度指示剂和灯具中的应用, 2018-3-20, 中国, ZL 2018 1 0230546.1 (专利)

[5] 牟中飞; 王强; 朱道云; 李京波; 吴福根; 一种镓锗酸盐基深红色发光材料及其制备方法, 2019-6-14, 中国, ZL201710141650.1 (专利)

[4] 牟中飞; 杨亿斌; 肖也; 招瑜; 吴福根; 李京波; 一种坩埚夹具及应用其的管式炉加热装置, 2018-4-6, 中国, ZL 2016 1 0380094.9 (专利)

[3] 罗东向; 刘佰全; 肖也; 杨亿斌; 郝明明; 招瑜; 牟中飞; 一种有机电致发光器件的制备方法, 2019-2-22, 中国, ZL201611191826.6 (专利)

[2] 杨亿斌; 招瑜; 肖也; 牟中飞; 李京波; 一种二维材料异质结场效应晶体管、其制备方法和晶体管阵列器件, 2016-7-15, 中国, ZL 2016 1 0566736.4 (专利)

[1] 吴福根; 李静; 姚源卫; 张欣; 牟中飞; 李京波; 声子晶体及声波出射方位的调控方法, 2017-5-9, 中国, ZL 2017 1 0321019.X (专利)

科研项目

[8] 国家自然科学基金委员会, 国家重大科研仪器研制项目, 62127816, 全元素高灵敏度X射线荧光光谱仪研制, 2022-01-01 至 2026-12-31, 898万元, 在研, 排名第3；

[7] 国家自然科学基金委员会, 面上项目, 52272142, 掺杂钨钼酸盐负热膨胀荧光材料的荧光热增强微观机理与温度传感研究, 2023-01-01 至 2026-12-31, 54万元, 在研, 主持；

[6] 中华人民共和国财政部, 中央财政支持地方高校发展专项资金项目, 20190004, 材料、物理与化学类 各专业本科生创新实践教学平台, 2020-01 至 2022-12, 100万元, 在研, 主持；

[5] 广州市科技创新委员会, 广州市基础研究计划基础与应用基础研究项目, 202102080261, 基于负热膨胀材料ScF3的高性能荧光温敏探针的设计制备、性能及机理研究, 2021-04 至 2023-03, 5万元, 在研, 主持；

[4] 广州市科技创新委员会，科学（技术）研究专项一般项目，新型二维层状材料异质结场效应管的设计制备与性能研究，2017-06至2020-05，20万元，结题，主持；

[3] 广东省教育厅，广东高校省级重点平台和重大科研项目，新型二维层状过渡金属二硫族化合物的化学气相沉积、相关光电器件制备与性能研究，2017-06至2019-05，10万元，结题，主持；

[2] 广州市科技创新委员会, 广州市基础研究计划基础与应用基础研究项目, 20200203009, 白光LED用单基质磷灰石结构全色荧光粉的关键制备技术及发光特性研究, 2020-05 至 2022-04, 20万元, 在研, 排名第2；

[1] 广州市科技创新委员会, 广州市基础研究计划基础与应用基础研究项目, 201607010345, 单一基质白光LED用硼酸盐体系荧光粉的关键制备工艺及发光特性研究, 2016-05 至 2019-04, 20万元, 结题, 排名第2。