历年论文

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2019年SCI论文清单
时间:2019-12-31 10:55:45点击量:

1. Kun Wang, Dehe Wang, Xiaomin Zheng, Ai Qin, Jie Zhou, Boyu Guo, Yanjun Chen, Xingpeng Wen, Wen Ye, Yu Zhou* & Yuxian Zhu*. 2019. Multi-strategic RNA-seq analysis reveals a high-resolution transcriptional Landscape in cotton. Nature Communications. DOI:10.1038/s41467-019-12575-x.

2. Yuying Xia†, Gai Huang2† & Yuxian Zhu*. 2019. Sustainable plant disease control: biotic information flow and behavior manipulation. Sci China Life Sci. DOI:10.1007/s11427-019-1599-y.

3. Gai Huang and Yuxian Zhu*. 2019. Plant polyploidy and evolution. Journal of Integrative Plant Biology. Volume 61, Issue 1, 4–6.

4Wang HM, Gao XL, Lv ZC, Abdelilah T, Lei AW, (2019) Recent Advances in Oxidative R(1)-H/R(2)-H Cross-Coupling with Hydrogen Evolution via Photo-/Electrochemistry. Chem. Rev., 119: 6769-6787.

5Yuan Y. Lei AW, (2019) Electrochemical Oxidative Cross-Coupling with Hydrogen Evolution Reactions. Acc. Chem. Res., 52: 3309-3324.

6Song CL, Dong X, Wang ZJ, Liu K, Chiang CW, Lei AW, (2019) Visible-Light-Induced [4+2] Annulation of Thiophenes and Alkynes to Construct Benzene Rings. Angew. Chem. Int. Ed., 58: 12206-12210.

7Wang P, Yang ZL, Wang ZW, Xu CY, Huang L, Wang SC, Zhang H, Lei AW, (2019) Electrochemical Arylation of Electron-Deficient Arenes through Reductive Activation. Angew. Chem. Int. Ed., 58: 15747–15751.

8Hu X, Zhang GT, Nie L, Kong TG, Lei AW, (2019) Electrochemical oxidation induced intermolecular aromatic C-H imidation. Nat. Commun., 10: 5467.

9Liu K, Tang S, Wu T, Wang SC, Zou MZ, Cong HJ, Lei AW, (2019) Electrooxidative para-selective C-H/N-H cross-coupling with hydrogen evolution to synthesize triarylamine derivatives. Nat. Commun., 10: 639.

10Niu LB, Liu JM, Liang XA, Wang SC, Lei AW, (2019) Visible light-induced direct α C-H functionalization of alcohols. Nat. Commun., 10: 467.

11Wang D, Wang P, Wang SC, Chen YH, Zhang H, Lei AW, (2019) Direct electrochemical oxidation of alcohols with hydrogen evolution in continuous-flow reactor. Nat. Commun., 10: 2796.

12Song CL, Liu K, Wang ZJ, Ding B, Wang SC, Weng Y, Chiang CW, Lei AW, (2019) Electrochemical oxidation induced selective tyrosine bioconjugation for the modification of biomolecules. Chem. Sci., 10: 7982-7987.

13Gao XL, Wang P, Wang QQ, Chen JT, Lei AW, (2019) Electrochemical oxidative annulation of amines and aldehydes or ketones to synthesize polysubstituted pyrroles. Green Chem., 21: 4941-4945.

14Guan ZP, Wang HM, Huang YG, Wang YK, Wang SC, Lei AW, (2019) Electrochemical Oxidative Aryl(alkyl)trifluoromethylation of Allyl Alcohols via 1,2-Migration. Org. Lett., 21: 4619-4622.

15Li YX, Ding ZT, Lei AW, Kong WQ, (2019) Ni-Catalyzed enantioselective reductive aryl-alkenylation of alkenes: application to the synthesis of (+)-physovenine and (+)-physostigmine. Org. Chem. Front., 6: 3305-3309.

16Liang XA, Niu LB, Wang SC, Liu JM, Lei AW, (2019) Visible-Light-Induced C(sp3)-H Oxidative Arylation with Heteroarenes. Org. Lett., 21: 2441-2444.

17Liu K, Song CL, Wu JR, Deng YQ, Tang S, Lei AW, (2019) Electrochemical oxidation synergizing with Bronsted-acid catalysis leads to [4 + 2] annulation for the synthesis of pyrazines. Green Chem., 21: 765-769.

18Liu K, Wu JR, Deng YQ, Song CL, Song WX, Lei AW, (2019) Electrochemical C-H/N-H Oxidative Cross Coupling of Imidazopyridines with Diarylamines to Synthesize Triarylamine Derivatives. ChemElectroChem, 6: 4173-4176.

19Liu YC, Xue LW, Shi BY, Bu FX, Wang D, Lu LJ, Shi RY, Lei AW, (2019) Catalyst-free electrochemical decarboxylative cross-coupling of N-hydroxyphthalimide esters and N-heteroarenes towards C(sp3)-C(sp2) bond formation. Chem. Commun., 55: 14922-14925.

20Lv ZC, Wang HM, Quan ZC, Gao Y, Lei AW, (2019) Dioxygen-triggered oxidative cleavage of the C-S bond towards C-N bond formation. Chem. Commun., 55: 12332-12335.

21Song CL, Liu K, Dong X, Chiang CW, Lei AW, (2019) Recent Advances in Electrochemical Oxidative Cross-Coupling for the Construction of C-S Bonds. Synlett., 30: 1149-1163.

22Wang HM, Li YL, Lu QQ, Yu MM, Bai XD, Wang SC, Cong HJ, Zhang H, Lei AW, (2019) Oxidation-Induced β-Selective C-H Bond Functionalization: Thiolation and Selenation of N-Heterocycles . ACS Catal., 9: 1888-1894.

23Wang P, Gao XL, Huang PF, Lei AW, (2019) Recent Advances in Electrochemical Oxidative Cross-Coupling of Alkenes with H2 Evolution. ChemCatChem, 11: 1–15.

24Wang P, Yang ZL, Wu T, Xu CY, Wang ZW, Lei AW, (2019) Electrochemical Oxidative C(sp3)-H/N-H Cross-Coupling for N-Mannich Bases with Hydrogen Evolution. ChemSusChem, 12: 3073–3077.

25Yang DL, Yi H, Chen H, Qi XT, Lan Y, Pao CW, Lee JF, Zhang H, Chen YH, Lei AW, (2019) Revealing the reduction process of Cu(ii) by sodium bis(trimethylsilyl)amide. Faraday Discuss., 220: 105 –112.

26. Long J, Wang P, Wang W, Li YQ and Yin GY* (2019) Nickel/Brønsted Acid-Catalyzed Chemo- and Enantioselective Intermolecular Hydroamination of Conjugated Dienes. iScience, 22: 369-379.

27. Wang W, Ding C (Co-first author) and Yin GY* (2019) Nickel-Catalyzed Migratory Arylboration of Nonactivated Alkenes. Synlett, 30: 1850-1854.

28. Pang HL, Wu D, Cong HJ and Yin GY* (2019) Stereoselective Palladium-Catalyzed 1,3-Arylboration of Unconjugated Dienes for Expedient Synthesis of 1,3-Disubstituted Cyclohexanes. ACS Catalysis, 9: 8555-8560.

29. Li YY, Pang HL, Wu D, Li ZQ, Wang W, Wei H, Fu Y and Yin GY* (2019) Nickel-Catalyzed 1,1-Alkylboration of Electronically Unbiased Terminal Alkenes. Angewandte Chemie International Edition, 58: 8872-8876.

30. Wang W, Ding C, Pang HL and Yin GY* (2019) Nickel-Catalyzed 1,2-Arylboration of Vinylarenes. Organic Letters, 21: 3968-3971.

31. Cheng H-G and Yin GY* (2019) Nucleophilic a-Fluorination of Amides. Chem, 5: 1012-1030.

32. Wang W, Ding C, Li YY, Li ZQ, Li YQ, Peng L and Yin GY* (2019) Migratory Arylboration of Unactivated Alkenes Enabled by Nickel Catalysis. Angewandte Chemie International Edition, 58: 4612-4616.

33. Gong YB, Chang K, Chen C, Han MM, Zhan XJ, Min J, Jiao XC, Li QQ, Li Z, (2019) Pyrene-fused Pyrene-fused PDI based ternary solar cells: high power conversion efficiency over 10%, and improved device thermal stability. Mater. Chem. Front., 3: 93-102.

34. Guo J, Min J, (2019) A Cost Analysis of Fully Solution-Processed ITO-Free Organic Solar Modules. Adv. Energy Mater. 9: 1802521.

35. Sun R, Guo J, Sun C, Wang T, Luo Z, Zhang Z, Jiao X, Tang W, Yang C, Li Y, Min J, (2019) A universal layer-by-layer solution-processing approach for efficient non-fullerene organic solar cells. Energy Environ. Sci., 12: 384-395.

36. Wang T, Sun R, Xu S, Guo J, Wang W, Guo J, Jiao X, Wang J, Jia S, Zhu X, Li Y, Min J, (2019) A wide-bandgap D–A copolymer donor based on a chlorine substituted acceptor unit for high performance polymer solar cells. J. Mater. Chem. A, 7: 14070-14078.

37. Sun R, Deng D, Guo J, Shi M, Shi K, Wang T, Xue L, Wei Z, Min J, (2019) Spontaneous open-circuit voltage gain of fully fabricated organic solar cells caused by elimination of interfacial energy disorder. Energy Environ. Sci., 12: 2518-2528.

38. Li Y, Han M, Yang W, Guo J, Chang K, Wang J, Min J, Li Q, Li Z, (2019) Perylene diimide-based cathode interfacial materials: adjustable molecular structures and conformation, optimized film morphology, and much improved performance of non-fullerene polymer solar cells. Mater. Chem. Front., 3: 1840-1848.

39. Guo J, Wu Y, Sun R, Wang W, Guo J, Wu Q, Tang X, Sun C, Luo Z, Chang K, Zhang Z, Yuan J, Li T, Tang W, Zhou E, Xiao Z, Ding L, Zou Y, Zhan X, Yang C, Li Z, Brabec CJ, Li Y, Min J, (2019) Suppressing photo-oxidation of non-fullerene acceptors and their blends in organic solar cells by exploring material design and employing friendly stabilizers. J. Mater. Chem. A, 7: 25088-25101.

40. Luo Z, Liu T, Wang Y, Zhang G, Sun R, Chen Z, Zhong C, Wu J, Chen Y, Zhang M, Zou Y, Ma W, Yan H, Min J, Li Y, Yang C, (2019) Reduced Energy Loss Enabled by a Chlorinated ThiopheneFused Ending-Group Small Molecular Acceptor for Efficient Nonfullerene Organic Solar Cells with 13.6% Efficiency. Adv. Energy Mater. 9: 1900041.

41. Xie Y, Li T, Guo J, Bi P, Xue X, Ryu H, Cai Y, Min J, Huo L, Hao X, Woo H, Zhan X, Sun Y, (2019) Ternary Organic Solar Cells with Small Nonradiative Recombination Loss. ACS Energy Lett. 4: 1196-1203.

42. Tang A, Song W, Xiao B, Guo J, Min J, Ge Z, Zhang J, Wei Z, Zhou E, (2019) Benzotriazole-Based Acceptor and Donors, Coupled with Chlorination, Achieve a High VOC of 1.24 V and an Efficiency of 10.5% in Fullerene-Free Organic Solar Cells. Chem. Mater. 2019, 31: 3941-3947.

43. Wang W, Chen B, Jiao X, Guo J, Sun R, Guo J, Min J, (2019) A new small molecule donor for efficient and stable all small molecule organic solar cells. Org. Electron., 70: 78-85.

44. Wu Q, Guo J, Sun R, Guo J, Jia S, Li Y, Wang J, Min J, (2019) Slot-die printed non-fullerene organic solar cells with the highest efficiency of 12.9% for low-cost PV-driven water splitting. Nano Energy, 61: 559-566.

45. Yang W, Guo J, Sun R, Yang J, Shi M, Bao Q, Min J, (2019) Finely Tuned Cores in Star-Shaped Zwitterionic Molecules for Interface Engineering of High-Performance Polymer Solar Cells. Sol. RRL 3: 1900166.

46. Wang W, Sun R, Guo J, Min J, (2019) An Oligothiophene-Fullerene Molecule with a Balanced Donor-Acceptor Backbone for High-Performance Single-Component Organic Solar Cells. Angew. Chem. Int. Ed. 58: 14556-14561.

47. Sun R, Guo J, Wu Q, Zhang Z, Yang W, Guo J, Shi M, Zhang Y, Kahmann S, Ye L, Jiao X, Loi, MA, Shen Q, Ade H, Tang W, Brabec CJ, Min J, (2019) A multi-objective optimization-based layer-by-layer blade-coating approach for organic solar cells: rational control of vertical stratification for high performance. Energy Environ. Sci., 12: 3118-3132.

48. Sun C, Pan F, Chen S, Wang R, Sun R, Shang Z, Qiu B, Min J, Lv M, Meng L, Zhang C, Xiao M, Yang C, Li Y, (2019) Achieving Fast Charge Separation and Low Nonradiative Recombination Loss by Rational Fluorination for HighEfficiency Polymer Solar Cells. Adv. Mater. 31: 1905480.

49. Guo J, Balakirev D, Gu C, Peregudova, SM, Ponomarenko SA, Liu Z, Luponosov YN, Min J, Lei A, (2020) End group tuning in small molecule donors for non-fullerene organic solar cells. Dyes and Pigments, 175: 108078.

50. Yuanyuan Ping, Yuxiu Li, Jieping Zhu*, Wangqing Kong*. Construction of Quaternary Stereocenters by PalladiumCatalyzed CarbopalladationInitiated Cascade Reactions. Angew. Chem. Int. Ed. 2019, 58. 1562.

51. Kuai Wang, Zhengtian Ding, Zhijun Zhou, Wangqing Kong*. Ni-Catalyzed Enantioselective Reductive Diarylation of Activated Alkenes by Domino Cyclization/Cross-Coupling. J. Am. Chem. Soc., 2018, 140, 12364.

52. Yuanyuan Ping, Kuai Wang, Qi Pan, Zhengtian Ding, Zhijun Zhou, Ya Guo, Wangqing Kong*. Ni-Catalyzed Regio- and Enantioselective Domino Reductive Cyclization: One-Pot Synthesis of 2,3-Fused Cyclopentannulated Indolines. ACS Catal. 2019, 9, 7335.

53. Teng Ma, Yate Chen, Yuxiu Li, Yuanyuan Ping, Wangqing Kong*. Nickel-Catalyzed Enantioselective Reductive Aryl Fluoroalkenylation of Alkenes. ACS Catal., 2019, 9, 9127.

54. Baihang Ju, Shigui Chen*, Wangqing Kong*. Pd-Catalyzed Enantioselective Double Heck Reaction. Org. Lett., 2019, 21, 9343.

55. Baihang Ju, Shigui Chen*, Wangqing Kong*. Enantioselective palladium-catalyzed diarylation of unactivated alkenes. Chem. Commun., 2019, 55, 14311.

56. Sheng Xu, Kuai Wang, Wangqing Kong*. Ni-Catalyzed Reductive Arylacylation of Alkenes toward Carbonyl-Containing Oxindoles. Org. Lett., 2019, 21, 7498.

57. Yao MY*, Xu N*, Wu QS, Autès G, Kumar N, Strocov VN, Plumb NC, Radovic M, Yazyev OV, Felser C, Mesot J, Shi M*, (2019) Observation of Weyl Nodes in Robust Type-II Weyl Semimetal WP2. Physical review letters, 122(17): 176402 (Editor’s suggestion).

58. Tian, J., Xu, G.# and Yuan, M.# (2019) Precise editing enables crop broad-spectrum resistance. Molecular Plant, 12, 1542-1544

59. Wei B, Zhang D, Chen YH, Lei A, Knochel P, Preparation of Polyfunctional Biaryl Derivatives by Cyclolanthanation of 2-Bromobiaryls and Heterocyclic Analogs Using nBu2LaCl·4LiCl. Angew. Chem. Int. Ed., 2019, 58, 15631.

60. Sun L, Yuan Y, Yao M, Wang H, Wang D, Gao M, Chen YH, Lei A, Electrochemical Aminoselenation and Oxyselenation of Styrenes with Hydrogen Evolution. Org. Lett. 2019, 21, 1297.

61. Quanbing Guo,Tong Fu,Jibo Tang,Deng Pan,Shunping Zhang,and Hongxing Xu.(2019) Routing a Chiral Raman Signal Based on Spin-Orbit Interaction of Light.Phys. Rev. Lett. 123, 183903 .

62. Yexin Zhang, Wen Chen, Tong Fu, Jiawei Sun, Daxiao Zhang, Yang Li, Shunping Zhang, and Hongxing Xu.(2019) Simultaneous Surface-Enhanced Resonant Raman and Fluorescence Spectroscopy of Monolayer MoSe2: Determination of Ultrafast Decay Rates in Nanometer Dimension.Nano Lett. 19, 9, 6284–6291.

63. Junjun Shi, Yang Li, Meng Kang, Xiaobo He, Naomi J. Halas, Peter Nordlander, Shunping Zhang, and Hongxing Xu.(2019) Efficient Second Harmonic Generation in a Hybrid Plasmonic Waveguide by Mode Interactions.Nano Lett. 19, 6, 3838–3845.

64. Junjun Shi, Xiaobo He, Yang Li, Shunping Zhang, and Hongxing Xu.(2019) Steering Second-Harmonic Beams in Nanophotonic Waveguides by Gratings.ACS Photonics .6, 12, 3142–3149.

65. Xiaobo He, Jibo Tang, Huatian Hu, Junjun Shi, Zhiqiang Guan, Shunping Zhang, and Hongxing Xu.(2019) Electrically Driven Highly Tunable Cavity Plasmons.ACS Photonics .6, 4, 823–829.

66. Huatian Hu, Shunping Zhang,and Hongxing Xu. (2019) Closely packed metallic nanocuboid dimer allowing plasmomechanical strong coupling.Phys. Rev. A .99, 033815.

67. Yang Liu, Xiaorui Tian, Weiran Guo, Wenqiang Wang, Zhiqiang Guan, Hongxing Xu.(2019) Real-time Raman detection by the cavity mode enhanced Raman scattering. Nano Research,12, 1643–1649.

68. Weikang Liu, Wenqiang Wang,Zhiqiang Guan and Hongxing Xu.(2019) A plasmon modulated photothermoelectric photodetector in silicon nanostripes. Nanoscale, 11, 4918-4924.

69. Gong XM#, Li YF#, Luo J#, Wang JQ#, Wei J#, Wang JQ, Xiao T, Xie C, Hong J, Ning G, Shi XJ, Li BL, Qi W*, Song BL*. Gpnmb secreted from liver promotes lipogenesis in white adipose tissue and aggravates obesity and insulin resistance. Nature Metabolism, 1: 570-583, 2019

70. Xiao J#, Luo J#, Hu A, Xiao T, Li M, Kong Z, Jiang L, Zhou Z, Liao Y, Xie C, Chu B, Miao H, Li B, Shi X, Song BL*. Cholesterol transport through the peroxisome-ER membrane contacts tethered by PI(4,5)P2 and extended synaptotagmins. Science China Life Sciences, 62(9): 1117-1135, 2019

71. Huang S, Xing Y. and Liu Y*. (2019) Emerging roles for the ER stress sensor IRE1α in metabolic regulation and disease. J Biol. Chem. 294(49) 18726–18741.

72. Yan C, Liu J, Gao J, Sun Y, Zhang L, Song H, Xue L, Zhan L, Gao G, Ke Z, Liu Y*, Liu J*. (2019) IRE1 promotes neurodegeneration through autophagy-dependent neuron death in the Drosophila model of Parkinson's disease. Cell Death Dis. 10(11):800.

73. Fan HY, Zhang QC, Rao JJ, Cao JW, Lu X*. 2019. Genetic diversity-area relationships across bird species. American Naturalist, 194: 736–740.

74. Dai P#, Wang X#, Gou LT#, Li ZT#, Wen Z#, Chen ZG#, Hua MM, Zhong A, Wang LB, Su HY, Wan HD, Qian K, Liao LJ, Li JS, Tian B, Li DS, Fu XD, Shi HJ*, Zhou Y*, and Liu MF*. (2019) A Translation-Activating Function of MIWI/piRNA during Mouse Spermiogenesis. Cell, 179:1566-1581.

75. Wang K#, Wang DH#, Zheng XM, Qin A, Zhou J, Guo BY, Chen YJ, Wen XP, Ye W, Zhou Y*, and Zhu YX*. (2019) Multi-Strategic RNA-Seq Analysis Reveals a High-Resolution Transcriptional Landscape in Cotton. Nature Communications, 10:4714.

76. Ya-Jun Yang, Lun Song, Xiao-Cong Zhao, Chen Zhang, Wen-Qiang Wu, Hui-Juan You, Hang Fu, Er-Chi Zhou, and Xing-Hua Zhang*. (2019) A Universal Assay for Making DNA, RNA, and RNA−DNA Hybrid Configurations for Single-Molecule Manipulation in Two or Three Steps without Ligation. ACS Synth. Biol. 8, 1663−1672

77. Xiao-Cong Zhao, Hang Fu, Lun Song, Ya-Jun Yang, Er-Chi Zhou, Guang-Xue Liu, Xue-Feng Chen, Zhuo Li, Wen-Qiang Wu, and Xing-Hua Zhang*. (2019) SDNA and RecA/RAD51-Mediated Strand Exchange in Vitro. Biochemistry, 58, 2009−2016

78. Chen Zhang, Hang Fu, Yajun Yang, Erchi Zhou, Zhijie Tan, Huijuan You, and Xinghua Zhang*. (2019) The Mechanical Properties of RNA-DNA Hybrid Duplex Stretched by Magnetic Tweezers. Biophysical Journal 116, 196–204

79. Ju-Hui Liu, Kun Xi, Xi Zhang, Lei Bao, Xinghua Zhang* and Zhi-Jie Tan*. (2019) Structural Flexibility of DNA-RNA Hybrid Duplex: Stretching and Twist-Stretch Coupling. Biophysical Journal 117, 74–86

80. Liu ZY (2019) Trapping sound at corners. Nature Materials, 18: 98–99.

81. Fan XY, Qiu CY, Shen YY, He HL, Xiao M, Ke MZ, Liu ZY (2019), Probing Weyl Physics with One-Dimensional Sonic Crystals. Physical Review Letters, 122, 136802.

82. Deng WY, Lu JY, Li F, Huang XQ, Yan M, Ma JH, Liu ZY (2019), Nodal rings and drumhead surface states in phononic crystals. Nature Communications, 10, 1769.

83. Zhao PL, Guan XX, Zheng H*, Jia SF, Li L, Liu HH, Zhao LL, Sheng HP, Meng WW, Zhuang YL, Wu JB, Li LY, Wang JB*, (2019) Surface- and Strain-Mediated Reversible Phase Transformation in Quantum-Confined ZnO Nanowires [J]. Physical Review Letters, 123: 216101.

84. Zheng H, Cao F, Zhao LG, Jiang RH, Zhao PL, Zhang Y, Wei YJ, Meng S, Li KX, Jia SF, Li LY and Wang JB*, (2019) Atomistic and dynamic structural characterizations in low-dimensional materials: recent applications of in situ transmission electron microscopy[J]. Microscopy, 68(6): 423-433.

85. Peng HY, Meng WW, Zheng H*, Wei YJ, Sheng HP, Liu HH, Li L, Wen GY, Jia SF, Li LY, Wang JB*, (2019) Probing the Crystal and Electronic Structures of Molybdenum Oxide in Redox Process: Implications for Energy Applications[J]. ACS Applied Energy Materials, 2(10): 7709-7716.

86. Sheng HP, Zheng H, Jia SF, Chan, Maria K. Y. Rajh T, Wang JB*, Wen JG*, (2019) Atomistic manipulation of reversible oxidation and reduction in Ag with an electron beam [J]. Nanoscale, 11: 10756-10762.

87. Zhao LL, Li L, Sheng HP, Zheng H*, Jia SF, Meng WW, Liu HH, Cao F, Peng HY, Wang JB*, (2019) Atomistic insight into ordered defect superstructures at novel grain boundaries in CuO nanosheets: From structures to electronic properties [J]. Nano Research, 12(5), 1099-1104.

88. Lv C, Zhang TY, Lin Y, Tang M, Zhai CH, Xia HF, Wang J, Zhang ZL, Xie ZX, Chen G, Pang DW* (2019). Transformation of Viral Light Particles into Near-Infrared Fluorescence Quantum Dot-Labeled Active Tumor-Targeting Nanovectors for Drug Delivery. Nano Letters, 19(10): 7035-7042.

89. Zhang LJ, Xia L, Xie HY, Zhang ZL, Pang DW* (2019). Quantum Dot Based Biotracking and Biodetection. Special Issue: Fundamental and Applied Reviews in Analytical Chemistry 2019. Analytical Chemistry, 91: 532-547.

90. Hu J, Jiang YZ, Tang M, Wu LL, Xie HY, Zhang ZL, Pang DW* (2019). Colorimetric-Fluorescent-Magnetic Nanosphere-Based Multimodal Assay Platform for Salmonella Detection. Analytical Chemistry, 91: 1178-1184.

91. Wang JJ, Lin Y, Jiang YZ, Zheng Z, Xie HY, Lv C, Chen ZL, Xiong LH, Zhang ZL, Wang H, Pang DW*. Multifunctional Cellular Beacons with in Situ Synthesized Quantum Dots Make Pathogen Detectable with the Naked Eye. Analytical Chemistry, 91: 7280-7287.

92. Zhang JJ, Lin Y, Zhou H, He H, Ma JJ, Luo MY, Zhang ZL, Pang DW* (2019). Cell Membrane-Camouflaged NIR II Fluorescent Ag2Te Quantum Dots-Based Nanobioprobes for Enhanced In Vivo Homotypic Tumor Imaging. Advanced Healthcare Materials, 8: 1900341.

93. Dong XJ, Zhang ZL, Wu LL, Ma XY, Xu CM, Pang DW* (2019). Coating magnetic nanospheres with PEG to reduce nonspecific adsorption on cells. ACS Omega, 4: 7391-7399.

94. Liu C, Bao L, Yang M, Zhang S*, Zhou M, Tang B, Wang B, Liu Y, Zhang ZL*, Zhang B, Pang DW (2019). Surface Sensitive Photoluminescence of Carbon Nanodots: Coupling between the Carbonyl Group and pi-Electron System. Journal of Physical Chemistry Letters, 10(13): 3621-3629.

95. Wang, Y. F., Zhang, X., Zou, G. R., Peng, S., Liu, C. X. and Zhou, X.* (2019) Detection and application of 5-formylcytosine and 5-formyluracil in DNA, Acc. Chem. Res., 52, 1016−1024. (Supplementary Cover)

96. Su, H. M., Xu, J. L., Wang, Q., Wang, F. A., Zhou, X.* (2019) High-efficiency and integrable DNA arithmetic and logic system based on strand displacement synthesis, Nat. Commun, 10: 5390.

97. Wang, Y. F., Zhang, X., Wu, F., Chen, Z. G. and Zhou, X.* (2019) Bisulfite-free, single base-resolution analysis of 5-hydroxy methylcytosine in genomic DNA by chemical-mediated mismatch, Chem. Sci., 10, 447–452.

98. Gao F, Tang Y, Liu WL, Zou MZ, Huang C, Liu CJ, Zhang XZ* (2019) Intra/Extracellular Lactic Acid Exhaustion for Synergistic Metabolic Therapy and Immunotherapy of Tumors. Advanced Materials, 31: 1906439.

99. Liu WL, Zou MZ, Liu T, Zeng JY, Li X, Yu WY, Li CX, Ye JJ, Song W, Feng J*, Zhang XZ* (2019). Cytomembrane nanovaccines show therapeutic effects by mimicking tumor cells and antigen presenting cells. Nature Communications, 10: 3199.

100. Zou MZ, Liu WL, Gao F, Bai XF, Chen HS, Zeng X, Zhang XZ* (2019). Artificial Natural Killer Cells for Specific Tumor Inhibition and Renegade Macrophage Re-Education. Advanced Materials, 31: 1904495

101. Zhang C, Zhang L, Wu W, Gao F, Li RQ, Song W, Zhuang ZN, Liu CJ, Zhang XZ* (2019). Artificial Super Neutrophils for Inflammation Targeting and HClO Generation against Tumors and Infections. Advanced Materials, 31: 1901179.

102. Liu WL, Zou MZ, Liu T, Zeng JY, Li X, Yu WY, Li CX, Ye JJ, Song W, Feng J*, Zhang XZ* (2019). Expandable Immunotherapeutic Nanoplatforms Engineered from Cytomembranes of Hybrid Cells Derived from Cancer and Dendritic Cells. Advanced Materials, 31: 1900499.

103. Fan JX, Peng MY, Wang H, Zheng HR, Liu ZL, Li, CX, Wang XN, Liu XH, Cheng SX, Zhang XZ* (2019). Engineered Bacterial Bioreactor for Tumor Therapy via Fenton-Like Reaction with Localized H2O2 Generation. Advanced Materials, 31: 1808278.

104. Wang SB, Zhang C, Chen ZX, Ye JJ, Peng SY, Rong L, Liu CJ, Zhang XZ* (2019). A Versatile Carbon Monoxide Nanogenerator for Enhanced Tumor Therapy and Anti-Inflammation. ACS Nano, 13: 5523-5532.

105. Zeng JY, Wang XS, Qi YD, Yu Y, Zeng X, Zhang XZ* (2019). Structural Transformation in Metal–Organic Frameworks for Reversible Binding of Oxygen. Angew. Chem. Int. Ed., 58: 5692-5696.

106. Wan SS, Cheng Q, Zeng X, Zhang XZ* (2019). A Mn (III)-Sealed Metal-Organic Framework Nanosystem for Redox-Unlocked Tumor Theranostics. ACS Nano, 13: 6561−6571.

107. Zhang C, Liu WL, Bai XF, Cheng SX, Zhong ZL, Zhang XZ* (2019). A hybrid nanomaterial with NIR-induced heat and associated hydroxyl radical generation for synergistic tumor therapy. Biomaterials, 199: 1-9.

108. Zhang C, Wang SB, Chen ZX, Fan JX, Zhong ZL*, Zhang XZ* (2019). A tungsten nitride-based degradable nanoplatform for dual-modal image-guided combinatorial chemo-photothermal therapy of tumors. Nanoscale, 11: 2027-2036.

109. Xiao Y, Zhou MY, Zeng MQ, Fu L*, (2019) Atomic-Scale Structural Modification of Two-Dimensional Materials. Adv. Sci., 6: 1801501.

110. Ding Y#, Zeng MQ#, Fu L*, (2019) Low-Temperature Synthesis of sp2 Carbon Nanomaterials. Sci. Bull., 64: 1817-1829.

111. Xiao Y, Zhou MY, Liu JL, Xu, Fu L*, (2019) Phase Engineering of Two-Dimensional Transition Metal Dichalcogenides. Sci. China Mater., 62: 759-775.

112. Zheng ST, Zeng MQ*, Cao H, Zhang T, Gao XW, Xiao Y, Fu L*, (2019) Insight into the Rapid Growth of Graphene Single Crystal on Liquid Metal via Chemical Vapor Deposition. Sci. China Mater., 62: 1087-1095.

113. Ding YR#, Zeng MQ#, Fu L*, (2019) A Bright Future for Liquid Functional Materials?. Matter, 1: 1099-1103.

114. Liu JX#, Zhou L#, Huang K, Song XY, Chen YX, Liang XY, Gao J, Xiao XH, Rümmeli M H., Fu L*, (2019) Regulation of Two-Dimensional Lattice Deformation Recovery. iScience, 13: 277-283.

115. Tong X, Liu KL, Zeng MQ*, Fu L*, (2019) Vapor-Phase Growth of High-Quality Wafer-Scale Two-Dimensional Materials. InfoMat, 1: 460-478.

116. Yang KN#, Li JT#, Zhou L, Zhang T, Fu L*, (2019) Synthetic Strategies of Two-Dimensional Porous Materials towards Highly Effective Catalysts. FlatChem, 15: 100109.

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