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莫潤(rùn)偉

E-mail: rwmo@ecust.edu.cn

職位：特聘教授

地址：上海市徐匯區(qū)梅隴路130號(hào)

研究生招生專業(yè)：080700 動(dòng)力工程及工程熱物理   080202 機(jī)械電子工程   085800 能源動(dòng)力

個(gè)人簡(jiǎn)介:

2015年于哈爾濱工業(yè)大學(xué)獲得工學(xué)博士學(xué)位，2015-2020年先后在新加坡科技設(shè)計(jì)大學(xué)、美國(guó)加州大學(xué)洛杉磯分校從事科學(xué)研究工作，并于2020年回國(guó)任職于華東理工大學(xué)。當(dāng)選英國(guó)材料、礦物與采礦學(xué)會(huì)會(huì)士（FIMMM）、英國(guó)皇家航空學(xué)會(huì)會(huì)士（FRAeS）、國(guó)際先進(jìn)材料學(xué)會(huì)會(huì)士（FIAAM），先后入選第十批上海市海外高層次人才計(jì)劃（長(zhǎng)期創(chuàng)新）、上海市浦江人才計(jì)劃（A類）、能源與環(huán)境青年人才計(jì)劃（儲(chǔ)能技術(shù)）。主持/承擔(dān)了國(guó)家科技部重點(diǎn)研發(fā)計(jì)劃項(xiàng)目、美國(guó)能源部ARPA-E項(xiàng)目、新加坡政府MOE項(xiàng)目、上海市基礎(chǔ)研究特區(qū)項(xiàng)目以及上海市海外高層次人才引進(jìn)項(xiàng)目等十余項(xiàng)。至今撰寫專著8部（章）以及在 Nat. Commun，Adv. Mater，Adv. Energy Mater, ACS Nano，Nano Lett，Adv. Funct. Mater，Energy Storage Mater，Chem. Eng. J  等國(guó)際權(quán)威期刊上發(fā)表學(xué)術(shù)論文60余篇，授權(quán)/申請(qǐng)專利15項(xiàng)。擔(dān)任Vin Future全球科技獎(jiǎng)提名專家、新質(zhì)力材料發(fā)展聯(lián)盟常務(wù)理事、中國(guó)能源學(xué)會(huì)專家委員會(huì)新能源專家組委員、全國(guó)材料與器件科學(xué)家智庫(kù)能源材料與器件專家委員會(huì)委員、美國(guó)Sigma Xi科學(xué)研究榮譽(yù)學(xué)會(huì)正式成員。并且受邀擔(dān)任《eScience》、《EcoMat》、《Carbon Capture Science & Technology》、《Material Futures》等多個(gè)期刊編委/青年編委/?？妥庉?。

研究方向

主要從事新能源材料與器件方面的研究工作。面向國(guó)家能源的重大戰(zhàn)略需求，立足碳達(dá)峰、碳中和的歷史機(jī)遇，瞄準(zhǔn)電荷高效存儲(chǔ)與輸運(yùn)的結(jié)構(gòu)調(diào)控科學(xué)問(wèn)題，長(zhǎng)期致力于新型能源材料、先進(jìn)制造技術(shù)及智能系統(tǒng)集成研究，發(fā)展能源材料——先進(jìn)制造——器件集成——智能檢測(cè)的關(guān)鍵技術(shù)，取得了系列創(chuàng)新性科研成果，并探索新能源領(lǐng)域的應(yīng)用探索和成果轉(zhuǎn)化。研究方向包括：

（1）先進(jìn)儲(chǔ)能材料與器件；

（2）智能傳感與柔性電子設(shè)備；

（3）CO2高值轉(zhuǎn)化與固碳儲(chǔ)能；

（4）固態(tài)儲(chǔ)能與智能電池。

獲獎(jiǎng)成果

研究成果：

（1）中國(guó)發(fā)明協(xié)會(huì)發(fā)明創(chuàng)新二等獎(jiǎng)，2024年  (第一完成人)  

（2）中國(guó)產(chǎn)學(xué)研合作創(chuàng)新獎(jiǎng)，2023年    (第一完成人)

（3）IAAM Scientist Medal Lecture,  2023年   (國(guó)際先進(jìn)材料學(xué)會(huì)杰出科學(xué)家獎(jiǎng))        

（4）Carbon Capture Future Leader Award，2023年    (碳捕獲未來(lái)領(lǐng)袖獎(jiǎng))

（5）IChemE CCST Young Inverstigator Award，2023年   (青年研究獎(jiǎng))

（6）能源與環(huán)境青年先鋒稱號(hào)獎(jiǎng),  2023年 (中華環(huán)境保護(hù)基金會(huì)/中國(guó)能源學(xué)會(huì)/北京能源與環(huán)境學(xué)會(huì))

育人成果：

（1）第十七屆全國(guó)大學(xué)生節(jié)能減排社會(huì)實(shí)踐與科技競(jìng)賽一等獎(jiǎng)   

（2）第六屆全國(guó)大學(xué)生可再生能源優(yōu)秀科技作品競(jìng)賽一等獎(jiǎng) 

（3）第六屆全國(guó)大學(xué)生可再生能源優(yōu)秀科技作品競(jìng)賽優(yōu)秀指導(dǎo)教師獎(jiǎng)

（4）第十五屆全國(guó)大學(xué)生過(guò)程裝備實(shí)踐與創(chuàng)新大賽長(zhǎng)三角賽區(qū)三等獎(jiǎng)

（5）第二屆創(chuàng)青春中國(guó)青年碳中和創(chuàng)新創(chuàng)業(yè)大賽華東賽區(qū)優(yōu)勝獎(jiǎng)

（6）上海市優(yōu)秀畢業(yè)生稱號(hào)

代表性著作

學(xué)術(shù)論文：

[1] Structure engineering and heteroatom doping-enabled high-energy and fast-charging dual-ion batteries. Chem. Eng. J, 2024, 490, 151537.   (通訊作者)

[2] A Microstructure-Enhanced Dual-Mode LC Sensor with a PSO-BP Algorithm for Precise Detection of Temperature and Pressure. Adv. Funct. Mater. 2024, 2408198.  (通訊作者)

[3] Autonomous self-healing strategy for flexible fiber lithium-ion battery with ultra-high mechanical properties and volumetric energy densities. Chem. Eng. J, 2024, 496, 154153.  (通訊作者)

[4] Covalently bonded MXene@Antimonene heterostructure anode for fast lithium-ion storage. Chem. Eng. J, 2024, 485, 149837.  (通訊作者)

[5] High-efficiency thermal reduction of CO2 to high-valued carbon nanotubes. Chem. Eng. Sci. 2024, 295, 120179. (通訊作者)

[7] Graphite-embedded lithium iron phosphate for high-power-energy cathodes. Nano Lett, 2021, 21, 2572.  (通訊作者) 

[8] High-conductivity-dispersibility graphene made by catalytic exfoliation of graphite for lithium-ion battery. Adv. Funct. Mater, 2021, 31, 2007630.  (通訊作者)

[9] 3D holey-graphene frameworks cross-linked with encapsulated mesoporous amorphous FePO4 nanoparticles for high power lithium-ion batteries. Chem. Eng. J, 2021, 417, 128475.  (通訊作者)

[10] Tin-graphene tubes as anodes for lithium-ion batteries with high volumetric and gravimetric energy density. Nat. Commun, 2020, 11, 1374.  (第一作者)

[11] Hollow germanium nanocrystals on reduced graphene oxide for superior stable lithium-ion half cell and germanium (lithiated)-sulfur battery. Energy Storage Mater, 2020, 26, 414.  (第一作者)

[12] Hierarchical graphene-scaffolded mesoporous germanium dioxide nanostructure for high-performance flexible lithium-ion batteries. Energy Storage Mater, 2020, 29, 198.  (通訊作者)

[13] High-quality mesoporous graphene particles as high-energy and fast-charging anodes for lithium-ion batteries. Nat. Commun, 2019, 10, 1474. (第一作者)

[14] Anchored monodispersed silicon and sulfur nanoparticles on graphene for high-performance lithiated silicon-sulfur battery. Energy Storage Mater, 2019, 23, 284.  (第一作者)

[15] Three-dimensional double-walled ultrathin graphite tube conductive scaffold with encapsulated germanium nanoparticles as a high-areal-capacity and cycle-stable anode for lithium-ion battery. ACS Nano, 2019, 13, 7536. (第一作者) 

[16] 3D nitrogen-doped graphene foam with encapsulated germanium/ nitrogen-doped graphene yolk-shell nanoarchitecture for high-performance flexible Li-ion battery. Nat. Commun, 2017, 8, 13949. (第一作者)

[17] Pushing the limits: 3D layer-by-layer assembled composites for cathodes with 160 C discharge rates. ACS Nano, 2015, 9, 5009.  (第一作者)

[18] Facile synthesis of anatase TiO2 quantum-dot/graphene-nanosheet composites with enhanced electrochemical performance for lithium-ion batteries. Adv. Mater, 2014, 26, 2084.  (第一作者)

專著（章節(jié)）：

[1] "Application of Silicon-Based Composite in Batteries", Runwei Mo, in Silicon-Based Hybrid Nanoparticles: Fundamentals, Properties, and Appications, edited by Sabu Thomas, Mazaher Ahmadi, Tuan Anh Nguyen, Nirav Joshi, and Ghulam Yasin (Elsevier Book, ISBN: 978-0-12-824007-6, 2022), Chapter 7.

[2] "Graphene-Sulfur Composite Cathodes", Runwei Mo, in Lithium-Sulfur Batteries, edited by Ram Gupta, Tuan Anh Nguyen, Huaihe Song and Ghulam Yasin (Elsevier Book, ISBN: 978-0-323-91934-0, 2022), Chapter 13.

[3] "Fundamentals and Recent Advancements in Li-Ion Batteries", Runwei Mo, in Handbook of Energy Materials, edited by Ram Gupta (Springer Book, ISBN: 978-981-16-4480-1, 2022), Chapter 19.

[4] "Flexible Metal-Air Batteries", Runwei Mo, in Metal-Air Batteries: Progress and Perspective, edited by Ram Gupta (CRC Book, 2023), Chapter 24.

[5] "Metal Phosphates/Phosphonates for fuel cells", Runwei Mo, in Metal Phosphates and Phosphonates: Fundamental to Advanced Emerging Applications, edited by Ram K. Gupta (Springer Book, ISBN: 978-3-031-27062-8, 2023), Chapter 10.

[6] "3D Graphene for Metal–Air Batteries", Runwei Mo, in 3D Graphene Fundamentals, Synthesis, and Emerging Applications, edited by Ram K. Gupta (Springer Book, ISBN 978-3-031-36248-4, 2023), Chapter 13.

[7] "Hydrogels for Flexible/Wearable Batteries", Runwei Mo, in Hydrogels: Fundamentals to Advanced Energy Applications, edited by Anuj Kumar and Ram K. Gupta, (Springer Book), 2023, Chapter 13.