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安盟，日本文部省學(xué)術(shù)振興會JSPS特別研究員，陜西省青年科技新星，陜西高校優(yōu)秀青年人才。主要從事微納尺度熱能高效轉(zhuǎn)化與利用及其微觀物理機(jī)制的研究工作。以第一作者、共同一作或通訊作者在SCI收錄期刊發(fā)表學(xué)術(shù)論文100余篇，成果發(fā)表于Nature Communications、Advanced Materials、Energy & Environmental Science、Advanced Energy Materials、Advanced Functional Materials、Nano Letters、Advanced Science、International Journal of Heat and Mass Transfer等國際高水平期刊。受邀以第一作者編寫英文著作《Chalcogenide semiconductors: from 3D to 2D and beyond》第11章“硫化物熱輸運性質(zhì)”，愛思唯爾（Elsevier）出版社，ISBN: 978-0-08-102687-8。擔(dān)任 2023 年第六屆傳熱傳質(zhì)青年學(xué)術(shù)論壇和 2023 年第一屆光熱界面蒸發(fā)研討會分會主席。獲得第四/六屆全國熱傳導(dǎo)研討會“優(yōu)秀海報獎”；擔(dān)任國家自然科學(xué)基金函評專家和智利科技部項目函評專家。擔(dān)任2025年第三屆世界材料大會先進(jìn)熱管理材料分會聯(lián)合主席，2024智能材料設(shè)計國際會議組委會主席，第四屆全國熱傳導(dǎo)研討會和第五屆聲子學(xué)和熱能科學(xué)國際會議組委員。受邀2020年在澳大利亞紐卡斯?fàn)柵e行的第四屆新興先進(jìn)納米材料國際會議作特邀報告。曾分別在2024 智能材料設(shè)計國際會議，2024 MRS春季會議，2023年The 7th Phonon Engineering Workshp, 2023年全國熱傳導(dǎo)研討會，2023日本傳熱年會，2022 日本應(yīng)用物理年會，2017 Phononics 國際會議和2018第16屆國際傳熱大會做口頭報告、在2017美國材料學(xué)會春季會議做張貼報告，均受到納米傳熱領(lǐng)域?qū)＜覀兊恼J(rèn)可；曾受知名學(xué)術(shù)媒體材料人網(wǎng)站邀請在Computational Materials Online Seminar (CMOS) 2017 “微納米尺度傳熱”專題中作邀請報告。擔(dān)任國際知名SCI 收錄期刊《Chinese Chemical Letters》（中國化學(xué)快報）青年編委；擔(dān)任Journal of Modern Green Energy期刊編委，擔(dān)任在Energy Materials和Frontiers in Mechanical Engineering期刊客座主編。

（1） 微納尺度熱傳導(dǎo)和熱電性質(zhì)的理論模擬研究；

（2） 柔性多觸覺能量轉(zhuǎn)換器件開發(fā)與材料性能優(yōu)化：海水淡化，離子熱電，輻射制冷；

（3） 機(jī)器學(xué)習(xí)和人工智能驅(qū)動熱器件和熱功能材料的優(yōu)化與設(shè)計；

（4） 面向功率芯片散熱的熱物理性測量與熱界面材料開發(fā)與應(yīng)用。 

通訊地址：東京都文京區(qū)本鄉(xiāng)7-3-1，東京大學(xué)，機(jī)械系。

郵箱：anmeng@photon.t.u-tokyo.ac.jp

Researcher ID: orcid.org/0000-0002-1560-7329; Google Scholar: Meng AN; 

Researchgate: Meng An 

~聲子輸運~

1. Generalized two-temperature model for coupled phonons in nanosized graphene. Nano Letters, 17, 5805, 2017. 

2. Heat conduction modulation in incommensurate twisted stacking of transition-metal dichalcogenide, Advanced Functional Materials, 2422761, 2025.

3. Softening of vibrational modes and anharmonicity induced thermal conductivity reduction in a-Si: H at high temperatures, Advanced Electronic Materials, 2500104, 2025. 

4. Directly visualizing the crossover from incoherent to coherent phonons in two-dimensional periodic MoS2/MoSe2 arrayed heterostructure. International Journal of Heat and Mass Transfer, 178, 121630, 2021.

~離子熱電~

5. Reversible bipolar thermopower of ionic thermoelectric polymer composite for cyclic energy generation, Nature Communications, 14(1), 306, 2023.

6. Tailoring P-N conversion in all-solid-state polymer composites with a record ionic thermopower. Nature Communications, 13(1), 1-10, 2022.

7. Spider webs-inspired aluminum coordination hydrogel piezoionic sensors for tactile nerve systems, Advanced Functional Materials, 35(4), 2414016, 2025.

8. Mineral tanning-inspired metal ions coordination hydrogels with outstanding mechanical strength and toughness for flexible force sensors, Advanced Functional Materials, 34, 21, 2313633, 2024.

9. Reconfiguring Zn deposition dynamics via epitaxial Zn2+ pathway in profiled viscose Rayon for long-cyclability Zinc-Ion batteries, Energy & Environmental Science, 18, 5457-5469, 2025.

~熱界面材料~

10. Unlocking the trade-off between intrinsic and interfacial thermal transport of boron nitride nanosheets by surface functionalization for advanced thermal interface materials, Advanced Materials, 37(1), 2412137, 2025.

11. A thermochromic, viscoelastic nacre-like nanocomposite for the smart thermal management of planar electronics. Nano-Micro Letters, 15(1), 170, 2023. 

12. Electrically regulated thermal conductivity of aramid polymer systems, Applied Physics Letters, 124 (12), 2024.

~鹽差發(fā)電~

13. Molecularly engineered rigid ultra-micropore membranes for ultrahigh-power osmotic energy harvesting from high-temperature hypersaline brine, Advanced Materials, 37, 29, 2505458, 2025.

14. Anti-swelling polyelectrolyte hydrogel with submillimeter lateral confinement for osmotic energy conversion, Nano-Micro Letters, 17(11), 1-15, 2025.

15. Large-area graphene-based ion-selective membranes with micro/meso-pores for osmotic energy Harvesting. Advanced Functional Materials, 2401922, 2024.

16. Low-friction graphene oxide-based ion selective membrane for high-efficiency osmotic energy harvesting. Advanced Energy Materials, 2302262, 2023.

~界面蒸發(fā)~

17. Spatially regulated water-heat transport by fluidic diode membrane for efficient solar-powered desalination and electricity generation, Nature Communications, 16(1), 5050, 2025.

18. Anti-swelling textile power generator with 1D nanoscale channel alignment in nanofiber/graphene hybrid Yarns, Advanced Functional Materials, e10758, 2025.

19. Solar evaporator coupled with strong/weak convection and its cascade utilization, Science Bulletin, 70(8), 1264-1274, 2025.

20. Hydrogel fiber fabric combining rapid water transport, thermal localization, and large-scale production for ultra-high salt-resistant solar desalination, Nano Energy, 108847, 2023. 

21. Tilted crack-engineered photothermal membranes achieve attenuation-free solar evaporation and oil recovery from emulsions.  Advanced Materials, in press, 2025.

1. 日本學(xué)術(shù)振興會JSPS Fellowship

2. 陜西省青年科技新星

3. 陜西省高校優(yōu)秀青年人才 

4. 第六屆（2021）全國熱傳導(dǎo)研討會最佳海報獎。 

5. 第四屆（2019）全國熱傳導(dǎo)研討會最佳海報獎。 

6. 華中科技大學(xué)知行獎學(xué)金三等獎。 

7. 研究生國家獎學(xué)金。

8. 研究生曾永裕獎學(xué)金。 

9. 研究生華藏獎學(xué)金。