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姚明水 项目研究员
  • 学历/学位: 研究生学历/博士学位
  • 研究方向:

    软孔界面

  • 邮箱: msyao@ipe.ac.cn
  • 地址: 北京市海淀区中关村北二街1号
  • 邮编: 100190
  • 课题组网站:

简历介绍

姚明水,中科院过程工程研究所介科学与工程全国重点实验室副主任、项目研究员、博士生导师、课题组长,入选国家级海外高层次人才/中科院高层次人才/日本学术振兴会特别研究员/欧盟玛丽居里学者。2014年在过程工程研究所获博士学位,其后于中科院福建物构所、日本京都大学和英国伯明翰大学开展科研工作。主要从事围绕纳米颗粒动态表界面调控与表征,开展软孔协同界面可控制备与原位工况池表征,应用于吸附、分离、电学器件、总微生物检测与消杀等。课题组主持基金委海外高层次人才项目和青年项目,中科院高层次人才项目、国际人才计划项目,福建、青海省级项目,以及中核集团秦山核电等技术开发科研项目。以(共同)第一或通讯作者身份在pnas、angew. chem.、adv. mater.、natl. sci. rev.等国际著名期刊发表sci论文30余篇(总80余篇),论文累计引用5000余次,h因子33,其中6篇esi高引论文,3篇入选angew. chem.内封面/底,单篇最高他引500余次(2篇),授权中国发明专利9项。参与撰写英文专著(wiley和rsc出版)两章。兼任nano research、nano-micro letters、chinese journal of chemistry和chinese journal of structural chemistry编委/青年编委,人工嗅觉陕西省高等学校重点实验室学术委员会委员等。

代表论著

1.  zhen shan,m.-s. yao,* rui wang,* and gen zhang* et al.topologically tunable conjugated metal-organic frameworks for modulating conductivity and chemiresistive properties for nh3 sensing. angew. chem. int. ed.2024, doi: 10.1002/anie.202401679.

2. m.-s. yao, k. otake,* s. kitagawa,* et al.growth mechanisms and anisotropic softness dependent conductivity of orientation-controllable metal–organic framework nanofilms. proceedings of the national academy of sciences (pnas). 2023, 120 (40) e2305125120.

3. m.-s. yao, k. otake,* s. kitagawa,* et al.integrated soft porosity and electrical properties of conductive-on-insulating metal-organic framework nanocrystals. angew. chem. int. ed.2023,  62 (35), e202303903(inside back cover).

4. w.h. deng,#m. s. yao,# b. wang*, c. s. li*, g. xu*, s. kitagawa*et al.non-contact real-time detection of trace nitro-explosives by mof composites visible-light chemiresistor.natl. sci. rev.2022, 9, nwac143

5. m. s. yao, g. xu*et al. metal–organic frameworks and their derivatives for electrically-transduced gas sensors.coordin. chem. rev. 2021, 426, 213479 (review, esi highly cited paper)

6. h. haick,* m. s. yao,* w. wu,* et al. gas sensors based on chemi-resistive hybrid functional nanomaterials. nano-micro lett.2020, 12, 71 (review, esi highly cited paper)

7. m. s. yao, k. otake,*s. kitagawa,*et al.a dual-ligand porous coordination polymer chemiresistor with modulated conductivity and porosity. angew. chem. int. ed. 2020, 59, 172-176

8. m. s. yao,#j. w. xiu,# g. xu,*et al.van der waals hetero-structured mof-on-mof thin films: cascading various functions to realize advanced chemiresistive sensing. angew. chem. int. ed. 2019, 58 (42), 14915-14919 (inside backcover)

9. w. hu, h. haick,* m. s. yao,* w. wu,* et al. electronic noses: from advanced materials to sensors aided with data processing. adv. mater. technol. 2019, 4, 1800488 (review, esi highly cited paper)

10. m. s. yao, # x. j. lv, # g. xu*, et al.layer-by-layer assembled conductive metal–organic framework nanofilms for room temperature chemiresistive sensing.angew. chem. int. ed. 2017, 56 (52), 16510 –16514 (inside cover, esi highly cited paper)

11. m. s. yao, g. xu*, et al.mof thin film coated metal oxide nanowire array: significantly improved chemiresistor sensor performance.adv. mater. 2016, 28, 5229-5234 (esi highly cited paper)

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