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2017
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  1. Xuan Leng Shuai Yue, Yu-Xiang Weng, Kai Song, Qiang Shi, Effects of finite laser pulse width on two-dimensional electronic spectroscopy, Chemical Physics Letters 667 (2017) 79–86
  2. 陈海龙,边洪涛,郑俊荣,基于超快多维振动光谱技术解析分子体系的三维空间构型,物理化学学报, 2017, 33, 0001-0009

2016
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  1. Peng-Zhong Chen, Yu-Xiang Weng, Li-Ya Niu, Yu-Zhe Chen, Li-Zhu Wu, Chen-Ho Tung, and Qing-Zheng Yang*, Light-Harvesting Systems Based on Organic Nanocrystals To Mimic Chlorosomes, Angew. Chem. Int. Ed. 2016, 55, 2759 –2763
  2. Haowei Huang+, Jinjin Lin+, Gangbei Zhu, Yuxiang Weng, Xuxu Wang, Xianzhi Fu, and Jinlin Long*, A Long-Lived Mononuclear Cyclopentadienyl Ruthenium Complex Grafted onto Anatase TiO2 for Efficient CO2 Photoreduction, Angew. Chem. 2016, 128, 1 – 6
  3. Lili Du, Xiting Zhang, Jiadan Xue, WenJian Tang, Ming-De Li, Xin Lan, Jiangrui Zhu,Ruixue Zhu, Yuxiang Weng,Yun-Liang Li,* and David Lee Phillips*, Influence of Water in the Photogeneration and Properties of a Bifunctional Quinone Methide, J. Phys. Chem. B 2016, 120, 11132−11141
  4. LENG Xuan, WANG Zhuan, WENG Yu-Xiang, Evolution of photosynthetic light harvesting antenna systems and energy transfer efficiency, Plant Physiology Journal 2016, 52 (11): 1681–1691
  5. 翁羽翔,分子作用一小步,光电性质一跨步——有机共轭小分子晶体薄膜中存在半导体本征光 生自由载流子的实验证明,物理, 45, 109-110, 2015
  6. 翁羽翔,光合细菌分子自组装捕光天线相干激子态传能机制的人工模拟, 物理,45, 798-800, 2015

2015
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  1. Xiaochuan He, Gangbei Zhu, Jianbing Yang, Hao Chang, Qingyu Meng, Hongwu Zhao, Xin Zhou, Shuai Yue, Zhuan Wang, Jinan Shi, Lin Gu, Donghang Yan & Yuxiang Weng, Photogenerated Intrinsic Free Carriers in Small-molecule Organic Semiconductors Visualized by Ultrafast Spectroscopy, Scientific Reports 5, 17076 (2015)
  2. Yang Mi & Yuxiang Weng, Band Alignment and Controllable Electron Migration between Rutile and Anatase TiO2, Scientific Reports 5 11482 (2015)
  3. Shuai Yue, Zhuan Wang, Xiaochuan He, Gangbei Zhu, Yuxiang Weng∗,Construction of the Apparatus for Two Dimensional Electronic pectroscopy and Characterization of the Instrument, Chin. J. Chem. Phys., 28, 2015, 509-517
  4. Deyong Li, Yunliang Li, Hao Li, Xianyou Wu, Qingxu Yu, and Yuxiang Weng, Q-switched Ho:YAG laser assisted nanosecond time-resolved T-jump transient mid-IR absorbance spectroscopy with high sensitivity, Rev. Sci. Instrum. 86, 053105 (2015)
  5. Pengcheng Mao, Zhuan Wang, Wei Dang, and Yuxiang Weng, Multi-channel lock-in amplifier assisted femtosecond time-resolved fluorescence non-collinear optical parametric amplification spectroscopy with efficient rejection of superfluorescence background, Rev. Sci. Instrum. 86, 123113 (2015)
  6. He Xiao-Chuan, Yang Jian-Bing, Yan Dong-Hang, and Weng Yu-Xiang†, New method for fast morphological characterization of organic polycrystalline films by polarized optical microscopy, Chin. Phys. B Vol. 24, No. 7 (2015) 076803
  7. WANG Yun-Peng, DU Lu-Chao, ZHU Gang-Bei,WANG Zhuan, WENG Yu-Xiang*, Synchronous Measurement of Ultrafast Anisotropy Decay of the B850 in Bacterial LH2 Complex, CHIN. PHYS. LETT. Vol. 32, No. 2 (2015) 023101
  8. Zhang Quan, Weng Yuxiang, A possible mechanism for the reduced fluorescence quantum efficiency of bacteriochlorophyll a molecules adsorbed on the gold nanoparticles, J. of Light Scattering, 27 74-81 2015
  9. Rengui Li,Yuxiang Weng,Xin Zhou,Xiuli Wang,Yang Mi,Ruifeng Chong,Hongxian Hana and Can Li*, Achieving overall water splitting using titanium dioxide-based photocatalysts of different phases, nergy Environ. Sci., 2015,8, 2377-2382
  10. Qingyu Meng, Xiaochuan He, Qi Mao, Yuxiang Weng, Jianbing Yang, Donghang Yan, and Hongwu Zhao, Filamentary resistance switching in phthalocyanine thin films observed by electroluminescence, Appl. Phys. Lett. 106, 173302 (2015)
  11. Fu-Gen Wu,* Xiaodong Zhang, Siqi Kai, Mengyi Zhang, Hong-Yin Wang, John N. Myers, Yuxiang Weng, Peidang Liu, Ning Gu, and Zhan Chen*, One-Step Synthesis of Superbright Water-Soluble Silicon Nanoparticles with Photoluminescence Quantum Yield Exceeding 80%, Adv. Mater. Interfaces 2015, 2, 1500360

 

2014
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1. Shanshan Li, Rui Wang, Deyong Li, Jing Ma, Heng Li, Xiaochuan He, Zengyi Chang & Yuxiang Weng;Thermal-triggerd Proteinquake Leads to Disassembly of DegP Hexamer as an Imperative Activation Step; Scientific Reports Volume: 4, Article number: 4834
2. Qing Liao, Zhenzhen Xu, Xiaolan Zhong, Wei Dang, Qiang Shi, Chao Zhang,Yuxiang Weng, Zhiyuan Li and Hongbing Fu;An organic nanowire waveguide exciton–polariton sub-microlaser and its photonic application; J. Mater. Chem. C, 2014, 2,2773
3. Likun Li, Xianyao Zhang, Xiaochuan He, Wenxin Lu, Liguo Yang, Yongzhong Bian, Yuxiang Weng, Jianzhuang Jiang; C60-modified mixed (phthalocyaninato)(porphyrinato) yttrium(III)double-decker complex: Synthesis, characterization, and photophysical properties; Dyes and Pigments 102 (2014) 257e262
4. Qing Liao, Zhenzhen Xu, Xiaolan Zhong, Wei Dang, Qiang Shi, Chao Zhang, Yuxiang Weng, Zhiyuan Li and Hongbing Fu; Organic nanowire waveguide exciton-polariton submicrolaser and its photonic application; J. Name., 2012, 00, 1‐3

2013
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1. Zhu, M.; Mi, Y.; Zhu, G.; Li, D.; Wang, Y.; Weng, Y., Determination of Midgap State Energy Levels of an Anatase TiO2 Nanocrystal Film by Nanosecond Transient Infrared Absorption–Excitation Energy Scanning Spectra. The Journal of Physical Chemistry C 2013, 117 (37), 18863-18869.
2. Zhu, M.; Zhu, G.; Weng, Y., Carrier Recombination-Incited Substrate Vibrations After Pulsed UV-Laser Photolysis of TiO2 Thin Single-Crystal Plate and Nanoparticle Films. Applied spectroscopy 2013, 67 (5), 506-512.
3. Dang, W.; Mao, P.; Weng, Y., Coherent photon interference elimination and spectral correction in femtosecond time-resolved fluorescence non-collinear optical parametric amplification spectroscopy. Review of Scientific Instruments 2013, 84 (7), 073105-073105-6.
4. 党伟, 王专, 翁羽翔, 飞秒时间分辨荧光非共线光参量放大光谱技术,中国科学, 43, 1713-1729,2013.
5. Shan-shan Li, Ying-ying Yu, De-yong Li, Xiao-chuan He, Yong-zhen Baob, Yu-xiang Weng, Thermal-induced Unfolding of-Crystallin and Disassembly of its Oligomers Revealed by Temperature-Jump Time-Resolved Infrared Spectroscopy, CHINESE JOURNAL OF CHEMICAL PHYSICS, 26,739-746, 2013.
6. Cui, X.; Jiang, G.; Zhu, M.; Zhao, Z.; Du, L.; Weng, Y.; Xu, C.; Zhang, D.; Zhang, Q.; Wei, Y.; Duan, A.; Liu, J.; Gao, J., TiO2/CdS composite hollow spheres with controlled synthesis of platinum on the internal wall for the efficient hydrogen evolution. International Journal of Hydrogen Energy 2013, 38 (22), 9065-9073.
7. Zhang, Y.; Li, B.; Xu, Y.; Li, H.; Li, S.; Zhang, D.; Mao, Z.; Guo, S.; Yang, C.; Weng, Y.; Chong, K., The Cyclophilin CYP20-2 Modulates the Conformation of BRASSINAZOLE-RESISTANT1, Which Binds the Promoter of FLOWERING LOCUS D to Regulate Flowering in Arabidopsis. Plant Cell 2013, 25 (7), 2504-2521.

 

2012
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1.  Hailong Chen,Wei Dang • Jie Xie,Jingquan Zhao,Yuxiang Weng,Ultrafast energy transfer pathways in R-phycoerythrinfrom Polysiphonia  urceolata,Photosynth Res (2012) 111:81–86
2.  翁羽翔,《美丽是可以表述的》后记,物理,41卷 (2012)  6期,410-411
3.  Du, L.-C.; Huang, Y.-F.; Ren, B.; Weng, Y.-X., Photosynthetic Bacterial Light-Harvesting Antenna Complexes Adsorbed on Silica Nanoparticles Revealed by Silica Shell-Isolated Au Nanoparticle-Enhanced Raman Spectroscopy. Journal of Physical Chemistry C 2012, 116 (12), 6993-6999.
4.  王云鹏, 王专, 翁羽翔, 凝聚相分子振动量子拍的20 fs 时间分辨光谱实时观测,科学通报,57, 2895-2898,2012.

2011
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1.  Johns, Valentine K.;Shi, Zheng;Dang, Wei; McInnis, Matthew D.;Weng, Yuxiang;Liao, Yi ;Photo Retro-Diels-Alder Reactions;JOURNAL OF PHYSICAL CHEMISTRY A;2011,115(28),P:8093-8099
2.  hen, HL; Weng, YX; Li, XY;Ultrafast Energy Transfer in Artificial Antenna Molecule Measured by Transient Fluorescence Spectroscopy;Chinese Journal of Chemical Physics;2011;24(3),P:253-255
3.  Huang, XC; Guo, XZ;Weng, YX;A high performance pulse energy detector for Q-switched laser based on photoacoustic effect;REVIEW OF SCIENTIFIC INSTRUMENTS;2011,82(4)

 

2010
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1.  Wang, L; Zhao, H; Pan, LY; Weng, YX; Nakato, Y; Tamai, N;Ultrafast Carrier Dynamics of Titanic Acid Nanotubes Investigated by Transient Absorption Spectroscopy;2010,10(12),P: 8349-8355
2.  Yu Zhihao; Weng Yuxiang;Spatial distribution of carrier-envelope phase for femtosecond pulsed laser beam profile determined by asymmetric spectral interferometry;OPTICS LETTERS;2010,35(13),P: 2275-2277
3.  Yu ZhiHao; Weng YuXiang;nterference pattern generation and simulation in the single beam of a white light continuum;Science China-Physics Mechanics& Astronomy;2010,53(6);P:1060-1064
4.  Chu Qian-Jin; Weng Yu-Xiang;Structure-dependent wavelike energy transfer on pigment rings of individual light-harvesting-2 complexes from photosynthetic bacteria;Physical review E;2010,81(4)

 

2009
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1.  Chen, H.L., Y.X. Weng, and J.Y. Zhang., Noncollinear optical parametric amplifier based femtosecond time-resolved transient fluorescence spectra: characterization and correction. Journal of the Optical Society of America B-Optical Physics, 2009. 26(8): p. 1627-1634.
2. Du, S.F., et al., Characterization of ultra-weak fluorescence using picosecond non-collinear optical parametric amplifier. Optics Communications, 2009. 282(9): p. 1884-1887.
3.  Li, H., et al., Thermal-Induced Dissociation and Unfolding of Homodimeric DsbC Revealed by Temperature-jump Time-Resolved Infrared Spectra. Biophysical Journal, 2009.
4.  Li, H., Y.-y. Xu, and Y.-x. Weng, Infrared Absorption Intensity Analysis as a New Tool for Investigation of Salt Effect on Proteins. CHINESE JOURNAL OF CHEMICAL PHYSICS, 2009. 22(6).
5.  Wang, Y., et al., Fluorescence Quenching in a Perylenetetracarboxylic Diimide Trimer. Journal of the American Chemical Society, 2009. 131(1): p. 30-31.
6.  Yu, Z.H., et al., Nonlinear chirp effect introduced by Kerr medium as optical switches in ultrafast time-resolved measurements. Optics Letters, 2009. 34(7): p. 1117-1119.  

 

2008
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1.  Han, X.-F., et al., Single-photon level ultrafast all-optical switching. Applied Physics Letters, 2008. 92(15): p. 151109-3.
2.  Zheng, Q.S., et al., Self-retracting motion of graphite microflakes. Physical Review Letters,2008. 100(6).
3.  Xu, W., et al., Photoinduced electron and energy transfer in dyads of porphyrin dimer and perylene tetracarboxylic diimide. Chemphyschem, 2008. 9(10): p. 1409-1415.
4.  Hao, Y.Q., Y.F. Wang, and Y.X. Weng, Particle-size-dependent hydrophilicity of TiO2 nanoparticles characterized by Marcus reorganization energy of interfacial charge recombination. Journal of Physical Chemistry C, 2008. 112(24): p. 8995-9000.
5.  Han, X.F., et al., Observation of delayed fluorescence in CdSxSe1-x nanobelts by femtosecond time-resolved fluorescence spectroscopy. Applied Physics Letters, 2008. 92(3).
6.  Yin, X., et al., The effect mechanism of 4-ethoxy-2-methylpyridine as an electrolyte additive on the performance of dye-sensitized solar cell. Colloids and Surfaces a-Physicochemical and Engineering Aspects, 2008. 326(1-2): p. 42-47.
7.  Weng, Y.X., X.F. Han, and L.Y. Zhang, Determination of the detection limit for a noncollinear optical parametric amplification-gated femtosecond time-resolved fluorescence spectrometer - Reply to the Comment on "Ultrasensitive femtosecond time-resolved fluorescence spectroscopy for relaxation processes by using parametric amplification". Journal of the Optical Society of America B-Optical Physics, 2008. 25(10): p. 1627-1631.

 

2007
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1.  Qian-Jin, C., Y. Hua-Wei, and W. Yu-Xiang, Coherent excitons at different orientation arrangements of local transition dipole moments in circular light-harvesting complexes. Chinese Physics, 2007. 16(10): p. 3052-3058.
2.  Zhao, H., Q. Zhang, and Y.-X. Weng, Deep Surface Trap Filling by Photoinduced Carriers and Interparticle Electron Transport Observed in TiO2 Nanocrystalline Film with Time-Resolved Visible and Mid-IR Transient Spectroscopies. The Journal of Physical Chemistry C, 2007. 111(9): p. 3762-3769.
3.  Ye, M.P., et al., Infrared spectroscopic discrimination between the loop and alpha-helices and determination of the loop diffusion kinetics by temperature-jump time-resolved infrared spectroscopy for cytochrome c. Biophysical Journal, 2007. 93(8): p. 2756-2766.
4.  Man-ping, Y., et al., Intermolecular Hydrogen Bonds Formed Between Amino Acid Molecules in Aqueous Solution Investigated by Temperature-jump Nanosecond Time-resolved Transient Mid-IR Spectroscopy. Chinese Journal of Chemical Physics, 2007(4): p. 461.
5.  Du, L.-C. and Y.-X. Weng, Photoinduced Charge Recombination at Dye-Sensitized Individual TiO2 Nanoparticles and Its Application in Probe for the Local Polarity Change around the Nanoparticle in Solution. The Journal of Physical Chemistry C, 2007. 111(12): p. 4567-4577.
6.  Bian, Y.Z., et al., Porphyrin-appended europium(III) bis(phthalocyaninato) complexes: Synthesis, characterization, and photophysical properties. Chemistry-a European Journal, 2007. 13(15): p. 4169-4177.
7.  Han, X.-F., et al., Ultrasensitive femtosecond time-resolved fluorescence spectroscopy for relaxation processes by using parametric amplification. J. Opt. Soc. Am. B, 2007. 24(7): p. 1633-1638.
8.  翁羽翔, 光合作用原初过程能量和电荷超快传递过程原理浅析. 物理, 2007.

 

2006 及之前
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1.  Lu-Chao, D., et al., Synchrotron Small-Angle X-Ray Scattering Investigation on Integral Membrane Protein Light-Harvesting Complex LH2 from Photosynthetic Bacterium Rhodopseudomonas Acidophila. Chinese Physics Letters, 2006. 23(7): p. 1861-1863
2.  Chen, X.-H., et al., Transient spectrometer for near-IR fluorescence based on parametric frequency upconversion. Applied Physics Letters, 2006. 89(6): p. 061127-3.
3.  翁羽翔, 美丽是可以表述的——描述花卉形态的数理方程. 物理, 2005. 34(4).
4.  Weng, Y.X., et al., A transient molecular probe for characterizing the surface properties of TiO2 nanoparticle in colloidal solution. Science and Technology of Advanced Materials, 2005. 6(7): p. 867-872.
5.  Chen, X.H., et al., Protein structural deformation induced lifetime shortening of photosynthetic bacteria light-harvesting complex LH2 excited state. Biophysical Journal, 2005. 88(6): p. 4262-4273.
6.  Zhang, Q.-L., et al., Particle-Size-Dependent Distribution of Carboxylate Adsorption Sites on TiO2 Nanoparticle Surfaces:  Insights into the Surface Modification of Nanostructured TiO2 Electrodes. The Journal of Physical Chemistry B, 2004. 108(39): p. 15077-15083.
7.  Lei, Z., et al., Femtosecond time-resolved difference absorption spectroscopy of all-trans-β-Apo-8'-carotenal. Science in China Series G-Physics Mechanics Astronomy, 2004. 47(2): p. 208-222.
8.  Yu-Xiang, W., Growth and Form in Biology: Generation of the Plant Morphology by Spontaneous Symmetry Breaking Based on a Pressure Field. Chinese Physics Letters, 2004. 21(1): p. 211-214.
9.  Hong, X.G., Y.X. Weng, and M. Li, Determination of the topological shape of integral membrane protein light-harvesting complex LH2 from photosynthetic bacteria in the detergent solution by small-angle X-ray scattering. Biophysical Journal, 2004. 86(2): p. 1082-1088.
10. Zhang, L., et al., Direct Observation of Interfacial Charge Recombination to the Excited-Triplet State in All-trans-Retinoic Acid Sensitized TiO2 Nanoparticles by Femtosecond Time-Resolved Difference Absorption Spectroscopy. The Journal of Physical Chemistry B, 2003. 107(49): p. 13688-13697.
11. Weng, Y.-X., et al., Surface-Binding Forms of Carboxylic Groups on Nanoparticulate TiO2 Surface Studied by the Interface-Sensitive Transient Triplet-State Molecular Probe. The Journal of Physical Chemistry B, 2003. 107(18): p. 4356-4363.
12. 全冬晖, et al., 飞秒超连续白化光时间啁啾特性的实验研究. Chinese Physics, 2003. 12(9): p. 986.
13. Weng, Y.-X., et al., Back Electron Transfer from TiO2 Nanoparticles to FeIII(CN)63-: Origin of Non-Single-Exponential and Particle Size Independent Dynamics. The Journal of Physical Chemistry B, 2000. 104(1): p. 93-104.
14. Weng, Y.-X., et al., Direct Observation of Mass Transfer at Solid-Liquid Interface by Laser Flash Photolysis of the Interface Probe Molecules. The Journal of Physical Chemistry B, 2000. 104(32): p. 7713-7724.
15. Weng, Y.-X., et al., Interfacial charge recombination via the triplet state? Mimicry of photoprotection in the photosynthetic process with a dye-sensitized TiO2 solar cell reaction. Chemical Physics Letters, 2002. 355(3-4): p. 294-300.
16. Weng, Y.-X., et al., Effect of laser intensity on the determination of intermolecular electron transfer rate constants---Observation of Marcus inverted region in photoinduced back electron transfer reactions. The Journal of Chemical Physics, 1998. 109(14): p. 5948-5956.
17. Weng, Y.-X., et al., Oscillations in a laser-induced chemical reaction: coupling of chemical reactions with an acoustic effect. Chemical Physics Letters, 1997. 270(3-4): p. 315-318.

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