果冻九一麻花

2023/12- 清华大学 副教授

2020/12- 2023/12清华大学 助理教授

2018/04-2020/09 麻省理工学院 博士后 （合作导师：Professor Jeffrey Grossman, 前任MIT DMSE 系主任）

2017/09-2018/04 加州大学伯克利分校 博士后

《测试与仪器》

《机械材料物理》

《绿色制造与可持续发展》

机械系、未央机械学业导师，致力培养本科生科研（包括但不限于厂搁罢的形式）。

指导学生获得：

本科生科研项目《智愈骨骼-基于激光直写技术的实时射频传感智能骨监测系统》获得2023年首都挑战杯特等奖，全国挑战杯本科生组一等奖。日内瓦发明展银奖。

研究生项目《空?中打印难熔?属：?向?温传感器电路的快速制造》获得2023年中国大学生机械工程创新创意大赛“明石杯”微纳传感技术与智能应用赛全国总决赛一等奖（第一名）。

在学生出国开会、交流、访学、深造等方面给予资源及经济支持。

近五年于 Science Advances，Nature Communications等期刊上以第一作者及通讯作者发表论文25篇，Web of science总引用超过2600次。授权中国专利8项，美国专利2项，PCT 2项。任中国生物医学工程学会医用机器人工程与临床应用分委会委员，及中国微米纳米技术学会微纳执行器与微系统分会理事。主持十四五重点研发计划青年科学家项目等3项国家级项目、1项国家级课题、北自然海淀联合原始创新课题1项、主持清华大学与加州大学伯克利分校国际合作培育项目。

研究方向(长期招聘博士后、科研助理、以及本科生科研）：

1极端制造与极端传感：

多自由度激光原位直写无线无源耐高温传感系统;

面向智慧道路的自供电能量收集及传感系统;

面向深地深海应用的传感/通信器件与水空协同控制。

2智慧骨科：

新型笔贰贰碍/颁贵搁-笔贰贰碍基骨植入体传感系统与健康监测；

连续体新型骨科手术执行器结构设计及运动控制；

面向关节部分置换的传感功能一体智能骨植入物；

共生骨植入物，感-传-驱一体颁测产辞谤驳植入物。

3碳材料升级：

激光冲高压煤制金刚石（重点研发计划青年）

煤及衍生物生产高附加值产物（碳纤维、量子点、电极材料）的反应过程分析（实验、分子动力学）及全生命周期评价

其他与医工结合及激光加工相关的方向，欢迎来信探讨。

2025

1. Self-powered asphalt-based sensors for smart roads, H He, J Huang, Q Zhao, Q Tan, X Zang^*, Nano Energy, 134, 110525，2025

2024

2. Wasted to electrodes in seconds: Ultrafast?carbonization of coffee powders for high performance zinc-ion hybrid supercapacitors, Z Wei, Z Zhang, D Tang, Y Wei, Z Zhang, X Zang*, Sustainable Materials and Technologies, e01212, 2024

3. Laser-upgraded coal tar for smart pavements in road and bridge monitoring applications，Jincai Huang, Man Zhang, Haoyun He, Qingang Li, Yixin Zhao, Qiulin Tan, Xining Zang*, Microsystem & Nanoengineering, 2024, 10(1), 34

4 Laser Direct Write Passive Sensors for Smart Orthopedic Implants Base on Poly-Ether-Ether-Ketone (PEEK) and Carbon Fiber Reinforced (CFR)-PEEK, Q Li, Y He, Z Han, Z Jin, Z Zhao, X Zang*, 2024 IEEE 37th International Conference on Micro Electro Mechanical Systems (MEMS)

5 Extremely Low Frequency Flexible-Magnet Based Mechanical Antenna, Q Li, W Mo, C Wang, Z Cui, Y Cui, X Zang^*, 2024 IEEE 37th International Conference on Micro Electro Mechanical Systems (MEMS)

2023

6. Reconstructing the nanoscale porous structures in coal-based membranes by ultrafast high-temperature sintering for solar-driven water treatment，Liu, C-C; Chen, R.; Wei, Y.; Huang, Y.; Zhang, Z.; Zhao, Y.; Fu, T.; Hu, C.; Huang, X.; Zang, X.*, Nano Energy, 2023, 108634.

7. Printing Three-dimensional Refractory Metal Patterns in Ambient Air: Toward High Temperature Sensors，Yu, J.; Hu, C.; Wang, Z.; Wei, Y.; Liu, Z.; Li, Q.; Zhang, L.; Tan, Q.; Zang, X.*, Advanced Science, 2023, 2302479

8. Application of principal-component analysis to the interpretation of coal tar physico-chemical properties，Zhang, M.; Zang, X.*, Fuel, 338, 2023, 127304 37.

9. Paving Smart Roads: Roll-To-Roll Laser Manufacturing of Tar-based Strain Sensor Networks, M Zhang, J Huang, X Zang*, 2023 22nd International Conference on Solid-State Sensors, Actuators and Microsystems (Transducers)

2022

10. Laser Direct-Write Sensors on Carbon-fiber-reinforced Polyetheretherketone (CFR-PEEK) for Smart Orthopedic Implants，Hu, X.; Huang, J.; Wei, Y.; Zhao, H.; Lin, S.; Hu, C.; Wang, Z.; Zhao, Z.; Zang, X.*, Advanced Science, 2022, 202105499.

11. Pressure-Strengthened Carbon Fibers from Mesophase Pitch Carbonization Processes，Wei, Y.; Chen, J.; Zhao, H.; Zang, X.*, Journal of Physical Chemistry Letters, 2022, 13, 3283-3289.

12. Upgrading Carbonaceous Materials: Coal, Tar, Pitch, and Beyond，Zang, X.*; Dong, Y.; Jian, C.; Ferralis, N.; Grossman, J. C., Matter, 2022, 5, 430-447.

13. Electronic, structural, and magnetic upgrading of coal-based products through laser annealing，Zang, X.*; Ferralis, N.; Grossman, J. C. ACS Nano, 2022, 16, 2, 2101–2109.

14. Two-dimensional quantum-sheet films with sub-1.2 nm channels for ultrahigh-rate electrochemical capacitance，Chen, W.; Gu, J.; Liu, Q.; Yang, M,; Zhan, C.; Zang, X.; Pham, T. A.; Liu, G.; Zhang, W.; Zhang, D.; Dunn, B.; Wang, Y. M., Nature Nanotechnology, 2022, 17, 153-158.

15. Laser direct-write sensors on CFR-PEEK for smart orthopedic implants, X Hu, J Huang, Y Wei, H Zhao, Z Zhao, X Zang*, 2022 IEEE 35th International Conference on Micro Electro Mechanical Systems (MEMS)

2021

15. Ultra-thin Carbon Deficient Molybdenum Carbide (α-MoC1?x) Enables High-Rate Mg-ion Based Energy Storage，Zang, X*; Wang, S.; Zhang, R., Journal of Physical Chemistry Letters, 2021, 12, 4434-4439.

Before 2020 (Selected Publications)

1. Zang, X.; Tai, K.; Jian, C.; Shou, W.; Ferralis, N.*; Grossman, J. C.*; “Laser-Induced Tar-Mediated Sintering of Metals and Refractory Carbides in Air”, ACS Nano, 2020, 14, 10413.

2. Zang, X.; Jian, C.; Ingersoll, S.; Adams, J. J.; Li, H.; Lu, Z.; Ferralis, N.*; Grossman, J. C.*;“Laser Engineered Heavy Hydrocarbons: Old Materials with New Opportunities”, Science Advances, 2020, 6, eaaz5231.Reported by MIT News.

3. Zang, X.; Jian, C.; Zhu, T.; Fan, Z.; Wang, W.; Wei, M.; Li, B.;Mateo, F. D.; Ashby, P.; Lu, Z.; Chu, Y.; Wang, Z.; Ding, X.; Xie, Y; Chen, J. ;Hohman, J. N.; Sanghadasa, M.; Grossman, J.;Lin, L. ; “Laser-sculptured Two-Dimensional Transition Metal Carbides for Energy Storage and Energy Harvesting Applications ”, Nature Communication, 2019, 10 (1) 3112. Recommend by Editor in Energy Materials Focus.

4. Jian, C.; Merchant, S.; Zang, X.*; Ferralis, N.*; Grossman, C. J.*; “Structural Evolution of Small Aromatic Mixtures Under Extreme Temperature Conditions: Insights from ReaxFF Molecular Dynamics Investigations”, Carbon, 2019, 155, 309.

5. Morris, O. P.; Zang, X., Gregg, A.; Keller, B.; Getachew, B.; Ingersoll, S.; Elsen, H. A.; Disco, M. M.; Ferralis, N.; Grossman, J. C.; “Natural Carbon By-Product for Transparent Joule Heaters: The Case of Steam-Cracker Tar”, Advanced Materials, 2019, 1900331.

6. Zang, X.; Hohman, J. N.; Yao, K.; Ci. P.; Yan, A.; Wei, M.; Hayasaka, T.; Zettl, A; Schuck, J.; Wu, J.; Lin, L.; “Metallo-Hydrogel-Assisted Synthesis and Direct Writing of Transition Metal Disulfide”, Advanced Functional Materials, 2019, 1807612. Reported by Materials Views.

7. Zang, X.; Chen, W.; Zou, X.; Hohman, J. N.; Yang, L.; Li, B.; Wei, M.; Zhu, C.; Liang, J.; Sanghadasa, M.; Gu, J.; Lin, L.; “Self-assembly of Large-area Two-dimensional Polycrystalline Transition Metal Carbides for Hydrogen Electrocatalysis”, Advanced Materials, 30 (50), 1805188. Frontispieces; Highlighted by UC Berkeley News; Highlighted by UC Berkeley Engineering Magazine; Highlighted by Materials Today

8. Zang, X.; Shen, C.; Chu, Y.; Li, B.; Wei, M.; Zhong, J.; Sanghadasa, M.; Lin, L.; “Laser Induced Molybdenum Carbide-graphene Composites for 3D Foldable Paper Electronics”, Advanced Materials, 2018, 30 (26), 1800062, Frontispieces; Highlighted by AdvanedScienceNews; Highlighted by UC Berkeley College of Engineering News; Featured by Nature Photonics News

9. Zang, X.; Shen, C.; Kao, E.; Warren, R.; Zhang, R. ; Teh, K. S.; Zhong, J.; Wei, M.; Li, B.; Chu, Y.; Sanghadasa, M. ; Lin, L.; “Titanium Disulfide Coated Carbon Nanotube Hybrid Electrodes Enable High Energy Density Symmetric Pseudocapacitors,” Advanced Materials, 2018, 30 (5), 1704754. Highlighted by Molecular Foundry Research News; Highlighted by DOE Science News Source; Highlighted by UC Berkeley Mechancial Engineering News

10. Zang, X.; Shen, C.; Sanghadasa, M.; Lin, L.; “High Voltage Supercapacitor in Aqueous Electrolyte”, ChemElectroChem (invited review), 2019, 6(4), 976-988. Cover, ESI highly cited paper.

11. Zang, X.; Zhou, Q.; Chang, J.; Liu, Y.; Lin, L.,“Graphene and carbon nanotube (CNT) in MEMS/NEMS applications”. Microelectronic Engineering 2015, 132, 192-206. ESI highly cited paper

12. X Zang, Y Tan, Z Lv, J Gu, D Zhang, Moth wing scales as optical pH sensors, Sensors and Actuators B: Chemical, 2012, 166, 824-828.

13. X Zang, Y Ge, J Gu, S Zhu, H Su, C Feng, W Zhang, Q Liu, D Zhang. Tunable optical photonic devices made from moth wing scales: a way to enlarge natural functional structures' pool, Journal of Materials Chemistry, 2011, 21 (36), 13913-13919.

专利

1．臧浠凝；张政和，一种激光冲击高压煤制金刚石膜的制备方法， 2024-06-28，中国, ZL 202310529679.2

2. 臧浠凝; 赵喆; 李庆昂; 黄金财 ; 高分子骨植入物多通道传感器的设计及加工方法, 2023-03-17, 中国, ZL202211373489.8

3. 臧浠凝; 张曼; 黄金财 ; 应用于道路健康检测的焦油应变传感阵列, 2023-04-21, 中国,

ZL202210626141.9

4. 臧浠凝; 黄金财; 胡行健 ; 一种多自由度高能束源原位加工高分子智能传感器的方法, 2023-04-04, 中国, ZL202211373471.8

5. 臧浠凝; 赵喆; 胡行健; 黄金财; 李庆昂 ; 血管支架、人体血管局部变形与血管局部动力学监测系统, 2023-02-28, 中国, ZL202211373459.7

6. 臧浠凝; 李庆昂 ; 柔性磁电复合低频机械天线及其制备方法, 2023-04-07, 中国,

ZL202210224080.3 (专利)

7. 赵喆; 臧浠凝; 等人; CFR-PEEK骨科植入物及其制备方法、无线传感装置, 2022-09-02, 中国, ZL202111618690.3

8. 臧浠凝; 黄金财; 等人 ; 煤焦油基薄膜电子器件及其制备方法, 2022-11-08, 中国, ZL202111444516.1

9 臧浠凝; 等人; 制备碳化中间相沥青的方法, 2023-02-03, 中国, ZL202111433653.5 (专利)

US Patent

10. Systems and methods for manufacturing sintered metals, J Grossman, X Zang, N Ferralis, C Jian, KY Tai, US Patent 11,919,077

11. Processes for forming transparent, conductive films from heavy hydrocarbons, and devices and systems into which such films are incorporated, Jeffrey Grossman, Brent Keller, Owen Morris, Mark Disko, Heather Elsen, Xining Zang, Nicola Ferralis, Ximena Hasbach, US Patent App. 16/901,778

2023 指导研究生获得中国大学生机械工程创新创意大赛“明石杯”微纳传感技术与智能应用赛全国总决赛一等奖（第一名）。

2023 指导本科生获得首都挑战杯特等奖，全国挑战杯一等奖

2023 日内瓦发明展银奖

2022 Microsystem & Nanoengineering 青年科学家奖

2012 上海市大学生2011年度人物

2011 十二届全国挑战杯能源化工组特等奖