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真学神!今年再现多位90后和准90后青年千人入选者!

2017年01月09日 浏览:


昨天,第十三批国家“千人计划”青年人才拟入选人员名单一经出炉就引起了巨大关注。更加令人关注的是,继第十二批青年千人计划入选者出现90后,本次公示的青年千人中再次出现了90后。而且相比于上一批,这次85后的比例明显增多。对于这些优秀的90后和准90后,学霸已经远远不足以形容他们了,学神或许才更为适合。

从青年千人入选者年龄上来看,青年千人入选者主要集中在1980-1984年,达到369人,出生在1985-1989年有135人。而本次青年千人入选者中最年轻的是电子科技大学的顾实,出生于1990年9月2日。此外,还有多位入选者出生于1989年和1988年。

在80后占据绝对主导的青年千人名单中,90后和准90后的出现就非常难得了。在很多同龄人尚在读研还未毕业的情况下,他们就能够入选国家级高层次人才计划,实在是令人惊讶。继去年两位入选青年千人的90后美女后,本期青塔小编再次整理今年青年千人中一位90后和3位出生于1989年的入选者的个人简历以及个人的研究成果,一起看看学神们到底有多牛?


电子科技大学顾实

顾实,男,出生于1990年9月2日。2011年本科毕业于清华大学,获数学和物理学双学士学位。2011年后在宾夕法尼亚大学攻读博士学位,2016年获应用数学博士学位。目前在宾夕法尼亚大学萨特思韦特神经影像实验室和宾夕法尼亚大学复杂系统小组进行博士后研究。他目前的研究领域主要集中在利用网络控制理论,了解大脑结构的脑网络等。主要研究成果发表于PNAS、Nature Communications等国际顶尖期刊。

顾实博士发表的发表的部分论文如下:

1.Gu, S ,Satterthwaite, TD, Medaglia, JD, Yang, MZ ,Gur, RE, Gur, RC , Bassett, DS.Emergence of system roles in normative neurodevelopment.PNAS,2015,112,13681-13686.

2.Gu, S, Pasqualetti, F , Cieslak, M ,Telesford, QK,Yu, AB,Kahn, AE, Medaglia, JD, Vettel, JM ,Miller, MB , Grafton, ST .Controllability of structural brain networks.Nature Communications,2015,6,8414.

3.Muldoon, SF,Pasqualetti, F,Gu, S ,Cieslak, M , Grafton, ST , Vettel, JM,Bassett, DS.Stimulation-Based Control of Dynamic BrainNetworks.PLOS Computational Biology.2016,12,9.

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4. Betzel, RF,Gu, S, Medaglia, JD, Pasqualetti, F Bassett, DS . Optimally controlling the human connectome: the role of network topology.Scientific Reports,2016,6,30770


中国科学院大连化学物理研究所吴凯丰

吴凯丰,男,出生于1989年10月20日。2006年9月就读于中国科学技术大学,并于2010年7月获得学士学位。2010年8开始在美国埃默里大学攻读博士学位,2015年8 月获埃默里大学材料科学与工程专业博士学位。2015年10月开始在美国洛斯阿拉莫斯国家实验室任化学主任奖学金博士后学者。

目前致力于用超快激光光谱学手段来测量太阳能转换(光催化)体系内的动力学过程, 从而揭示已有体系的工作原理和为未来体系提供设计思路。过去四年内以第一作者身份在专业顶级期刊发表论文17篇,其中包括,Science 1篇;Chemical Society Review1 篇;Accounts of Chemical Research 1 篇,JACS 4 篇; Nano Letter 1 篇;ACS Nano 3 篇; Chemical Science 2 篇.

吴凯丰博士发表的部分论文:

1. Wu, K.; Chen, J.; McBride, J. R.; Lian, T. “Efficient Hot-Electron Transfer by a Plasmon-Induced Charge-Transfer Transition.” Science 2015, 349, 632-635.

2. Li, H.*; Wu, K*.; Lim, J.; Klimov, V. “Doctor-blade deposition of quantum dots onto standard window glasses for low-loss large-area luminescent solar concentrators.” Nat. Energy 2016, DOI: 10.1038/NENERGY.2016.157 (* Equal contributions)

3. Wu, K.; Lian, T. “Quantum Confined Colloidal Nanorod Heterostructures for Solar-to-Fuel Conversion.”Chem. Soc. Rev. 2016, DOI: 10.1039/C5CS00472A.

4. Wu, K.; Zhu, H.; Lian, T. “Ultrafast Exciton Dynamics and Light-Driven H2 Evolution in Colloidal Semiconductor Nanorods and Pt-Tipped Nanorods.” Acc. Chem. Res. 2015, 48, 851-859.

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5. Wu, K.; Liang, G.; Shang, Q.; Ren, Y.; Kong, D.; Lian, T. “Ultrafast Interfacial Electron and Hole Transfer from CsPbBr3 Perovskite Quantum Dots.” J. Am. Chem. Soc. 2015, 137, 12792-12795

6. Wu, K.; Du, Y.; Tang, H.; Chen Z.; Lian, T. “Efficient Extraction of Trapped Holes from Colloidal CdS Nanorods.” J. Am. Chem. Soc. 2015, 137, 10224-10230

7. Wu, K.; Chen, Z.; Lv, H.; Zhu, H.; Hill, C. L.; Lian, T. “Hole Removal Rate Limits Photo-driven H2 Generation Efficiency in CdS-Pt and CdSe/CdS-Pt Semiconductor Nanorod-metal tip Heterostructures.” J. Am. Chem. Soc. 2014, 136, 7708-7716.

8. Wu, K., Zhu, H., Liu, Z., Rodríguez-Córdoba, W. E., and Lian, T. “Ultrafast Charge Separation and Long-lived Charge Separated State in Photocatalytic CdS-Pt Nanorod Heterostructures.” J. Am. Chem. Soc.2012, 134, 10337-10340.

9. Wu, K.; Rodríguez-Córdoba, W. E.; Yang, Y.; Lian, T. “Plasmon-Induced Hot Electron Transfer from the Au Tip to CdS Rod in CdS-Au Nanoheterostructures.” Nano Lett. 2013, 13, 5255-5263.

10. Wu, K.; Hill, L; Chen, J.; McBride, J. R.; Payropolous, N.; Richey, N.; Pyun, J.; Lian, T. “Universal Length-dependence of Exciton Localization Efficiency in Type I and Quasi Type II CdSe@CdS Dot-in-rod Nanorods.” ACS Nano 2015, 9, 4591–4599.


北京航空航天大学宫勇吉

宫勇吉,男,出生于1989年2月23日。2007年以全国中学生化学竞赛总分全国第9名的优异成绩获得金牌,保送北京大学化学系。2011年在美国莱斯大学化学系攻读博士学位。获得博士学位后在斯坦福大学进行博士后研究。

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宫勇吉博士发表的部分论文:

1.Gong, Y. J., Lei, S. D., Ye, G. L., Li, B., He, Y. M., Keyshar, K., Zhang, X., Wang, Q. Z., Lou, J., Liu, Z., Vajtai, R., Zhou, W. & Ajayan, P. M. Two-Step Growth of Two-Dimensional Wse2/Mose2 Heterostructures.Nano Letters, 2015,15, 6135-6141.

2.Gong, Y. J., Fei, H. L., Zou, X. L., Zhou, W., Yang, S. B., Ye, G. L., Liu, Z., Peng, Z. W., Lou, J., Vajtai, R., Yakobson, B. I., Tour, J. M. & Ajayan, P. M. Boron- and Nitrogen-Substituted Graphene Nanoribbons as Efficient Catalysts for Oxygen Reduction Reaction. Chemistry of Materials,2015, 27, 1181-1186.

3.Gong, Y. J., Lin, Z., Ye, G. L., Shi, G., Feng, S. M., Lei, Y., Elias, A. L., Perea-Lopez, N., Vajtai, R., Terrones, H., Liu, Z., Terrones, M. & Ajayan, P. M.. Tellurium-Assisted Low-Temperature Synthesis of Mos2 and Ws2 Monolayers. Acs Nano, 2015. 9, 11658-11666.

4.Gong, Y. J., Yang, S. B. & Ajayan, P. Edge-Abundant Boron-Nitride-Carbon Nanoribbons Aerogel as Efficient Electrocatalysts for Oxygen Reduction Reaction. Abstracts of Papers of the American Chemical Society,2014. 247.

5.Gong, Y. J., Shi, G., Zhang, Z. H., Zhou, W., Jung, J., Gao, W. L., Ma, L. L., Yang, Y., Yang, S. B., You, G., Vajtai, R., Xu, Q. F., Macdonald, A. H., Yakobson, B. I., Lou, J., Liu, Z. & Ajayan, P. M. Direct Chemical Conversion of Graphene to Boron- and Nitrogen- and Carbon-Containing Atomic Layers. Nature Communications, 2014,5.135-145.

6.Gong, Y. J., Yang, S. B., Zhan, L., Ma, L. L., Vajtai, R. & Ajayan, P. M. 2014. A Bottom-up Approach to Build 3d Architectures from Nanosheets for Superior Lithium Storage. Advanced Functional Materials, 2014,24, 125-130.

7.Gong, Y. J., Liu, Z., Lupini, A. R., Shi, G., Lin, J. H., Najmaei, S., Lin, Z., Elias, A. L., Berkdemir, A., You, G., Terrones, H., Terrones, M., Vajtai, R., Pantelides, S. T., Pennycook, S. J., Lou, J., Zhou, W. & Ajayan, P. M. Band Gap Engineering and Layer-by-Layer Mapping of Selenium-Doped Molybdenum Disulfide. Nano Letters,2014, 14, 442-449.

8.Gong, Y. J., Lin, J. H., Wang, X. L., Shi, G., Lei, S. D., Lin, Z., Zou, X. L., Ye, G. L., Vajtai, R., Yakobson, B. I., Terrones, H., Terrones, M., Tay, B. K., Lou, J., Pantelides, S. T., Liu, Z., Zhou, W. & Ajayan, P. M. Vertical and in-Plane Heterostructures from Ws2/Mos2 Monolayers. Nature Materials, 2014,13, 1135-1142.

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9.Gong, Y. J., Yang, S. B., Liu, Z., Ma, L. L., Vajtai, R. & Ajayan, P. M. Graphene-Network-Backboned Architectures for High-Performance Lithium Storage. Advanced Materials, 2013,25, 3979-3984.


中国科学院化学研究所张闯

张闯,男,出生于1989年2月20日,2004年在吉林省辉南六中读高二(15岁)参加高考,以585分的总成绩考入中国科学技术大学少年班,成为辉南县乃至吉林省考取中国科学技术大学少年班第一人,2008年被保送到中国科学院化学研究所硕博连读研究生,并获得理学博士学位,2013年到美国犹他大学物理系做博士后。

研究领域主要集中在纳米结构的制备及其性能研究等方面,在Acc. Chem. Res、J. Am. Chem. Soc、Advanced Materials等国际顶尖期刊上发表了数十篇顶尖论文。

张闯博士发表的部分论文:

1.Chuang Zhang, Yongli Yan, Yong Sheng Zhao*, and Jiannian Yao*, From Molecular Design and Materials Construction to Organic Nanophotonic Devices, Acc. Chem. Res.,2014, 47 (12), 3448–3458.

2.Chuang Zhang, Yongli Yan, Yong Sheng Zhao* and Jiannian Yao*, Synthesis and applications of organic nanorods, nanowires and nanotubes, Annu. Rep. Prog. Chem., Sect. C: Phys. Chem., 2013, 109, 211-239.

3.Chuang Zhang, Yongli Yan , Jiannian Yao* , and Yong Sheng Zhao *, Manipulation of Light Flows in Organic Color-Graded Microstructures towards Integrated Photonic Heterojunction Devices, Adv. Mater.,2013, 25, 2854-2859.

4.Chuang Zhang, Yongli Yan, Yuan-Yuan Jing, Qiang Shi, Yong Sheng Zhao*, and Jiannian Yao*, One-Dimensional Organic Photonic Heterostructures: Rational Construction and Spatial Engineering of Excitonic Emission, Adv. Mater., 2012, 24, 1703–1708.

5.Chuang Zhang, Yong Sheng Zhao,*and Jiannian Yao*, Organic composite nanomaterials: energy transfers and tunable luminescent behaviors,New. J. Chem., 2011, 35(5), 973-978.

6.Chuang Zhang, Chang-Ling Zou, Yongli Yan, Rui Hao, Fang-Wen Sun, Zheng-Fu Han, Yong Sheng Zhao*, and Jiannian Yao*, Two-Photon Pumped Lasing in Single-Crystal Organic Nanowire Exciton Polariton Resonators, J. Am. Chem. Soc., 2011, 133(19), 7276–7279.

7.Chuang Zhang, Jian Yao Zheng, Yong Sheng Zhao,* and Jiannian Yao*, Self-Modulated White Light Outcoupling in Doped Organic Nanowire Waveguides via the Fluctuations of Singlet and Triplet Excitons During Propagation, Adv. Mater., 2011, 23(11), 1380-1384.

8.Chuang Zhang, Jianyao Zheng, Yong Sheng Zhao,* Jiannian Yao*, Organic Core-Shell Nanostructures: Microemulsion Synthesis and Upconverted Emission, Chem. Commun., 2010, 46(27), 4959–4961.