1.

Ding, Q; Tian, Y; Wang, X; Li, P; Su, D; Wu, CC; Zhang, W; Tang, B

Oxidative Damage of Tryptophan Hydroxylase-2 Mediated by Peroxisomal Superoxide Anion Radical in Brains of Mouse with Depression

J. Am. Chem. Soc.

2020

142, 20735-20743

2.

Lu, Y; Yu, Z. D; Liu, Y; Ding, Y F; Yang, CY; Yao, Z F; Wang Z Y; You, H Y; Cheng, X.F; Tang B; Wang, JY; Pei J

The Critical Role of Dopant Cations in Electrical Conductivity and Thermoelectric Performance of n-Doped Polymers

J. Am. Chem. Soc.

2020

142, 15340-15348

3.

Wang, JC; Kan, X; Shang, JY; Qiao, H; Dong, YB

Catalytic Asymmetric Synthesis of Chiral Covalent Organic Frameworks from Prochiral Monomers for Heterogeneous Asymmetric Catalysis

J. Am. Chem. Soc.

2020

2020, 16915−16920

4.

Ma, HC; Chen, GJ; Huang, F; Dong, YB

Homochiral Covalent Organic Framework for Catalytic Asymmetric Synthesis of a Drug Intermediate

J. Am. Chem. Soc.

2020

2020，12574−12578

5.

Li, XT; Zou, J; Wang, TH; Ma, HC; Chen,GJ; Dong, YB

Construction of Covalent Organic Frameworks via Three-Component One-Pot Strecker and Povarov Reactions

J. Am. Chem. Soc.

2020

2020，6521-6526

6.

Xiao, HB; Zhang, W; Li, P; Zhang, W; Tang, B

Versatile Fluorescent Probes for Imaging the Superoxide Anion in Living Cells and In Vivo

Angew. Chem. Int. Ed.

2020

59, 5216-5230

7.

Guan, Q; Zhou, LL; Lv, FH; Li, WY; Li, YA; Dong, YB

A Glycosylated Covalent Organic Framework Equipped with BODIPY and CaCO3 for Synergistic Tumor Therapy

Angew. Chem. Int. Ed.

2020

59, 18042-18047

8.

Zhou, YQ; Li, P; Wang, X; Wu, CC; Fan, NN; Liu, XN; Wu, LJ; Zhang, W; Zhang, W; Liu, ZZ; Tang, B

In situ visualization of peroxisomal viscosity in the liver of mice with non-alcoholic fatty liver disease by near-infrared fluorescence and photoacoustic imaging

Chem. Sci.,

2020

11, 12149-12156

9.

Wang, LJ; Han, X; Qiu, JG; Jiang, BH; Zhang, CY

Cytosine-5 methylation-directed construction of a Au nanoparticle-based nanosensor for simultaneous detection of multiple DNA methyltransferases at the single-molecule level

Chem. Sci.

2020

11, 9675-9684

10.

Pei, HM; Yu, M; Dong, DF; Wang, YG; Li, QL; Li, L; Tang, B

Phenotype-related drug sensitivity analysis of single CTCs for medicine evaluation

Chem. Sci.

2020

11, 8895-8900

11.

Wang, KY; Xiang, YA; Pan, W; Wang, HY; Li, N; Tang, B

Dual-targeted photothermal agents for enhanced cancer therapy

Chem. Sci.

2020

11, 8055-8072

12.

Li, YH; Gong, SH; Pan, W; Chen, YY; Liu, B; Li, N; Tang, B

A tumor acidity activatable and Ca2+-assisted immuno-nanoagent enhances breast cancer therapy and suppresses cancer recurrence

Chem. Sci.

2020

11, 7429-7437

13.

Li, CC; Chen, HY; Hu, J; Zhang, CY

Rolling circle amplification-driven encoding of different fluorescent molecules for simultaneous detection of multiple DNA repair enzymes at the single-molecule level

Chem. Sci.

2020

11, 5724-5734

14.

Wang, LJ; Lu, YY; Zhang, CY

Construction of a self-directed replication system for label-free and real-time sensing of repair glycosylases with zero background

Chem. Sci.

2020

11, 587-595

15.

Li, YH; Zhang, X; Wan, XY; Liu, XH; Pan, W; Li, N; Tang, B

Inducing Endoplasmic Reticulum Stress to Expose Immunogens: A DNA Tetrahedron Nanoregulator for Enhanced Immunotherapy

Adv. Funct. Mater.

2020

59, 10389-10394

16.

Zhang, Y; Li, QN; Zhou, KY; Xu, QF; Zhang, CY

Identification of Specific N-6-Methyladenosine RNA Demethylase FTO Inhibitors by Single-Quantum-Dot-Based FRET Nanosensors

Anal. Chem.

2020

92, 13936-13944

17.

Wang, ZY; Li, P; Cui, L; Xu, QF; Zhang, CY

Construction of a Universal and Label-Free Chemiluminescent Sensor for Accurate Quantification of Both Bacteria and Human Methyltransferases

Anal. Chem.

2020

92, 13573-13580

18.

Li, YH; Zhang, X; Pan, W; Li, N; Tang, B

A Nongenetic Proximity-Induced FRET Strategy Based on DNA Tetrahedron for Visualizing the Receptor Dimerization

Anal. Chem.

2020

92, 11921-11926

19.

Zhang, Y; Li, CC; Zhang, XC; Xu, QF; Zhang, CY

Development of Oxidation Damage Base-Based Fluorescent Probe for Direct Detection of DNA Methylation

Anal. Chem.

2020

92, 10223-10227

20.

Zhang, W; Wang, X; Li, P; Zhang, W; Wang, H; Tang, B

Evaluating Hyperthyroidism-Induced Liver Injury Based on In Situ Fluorescence Imaging of Glutathione and Phosphate via Nano-MOFs Sensor

Anal. Chem.

2020

92, 8952-8958

21.

Gao, P; Liu, B; Pan, W; Li, N; Tang, B

A Spherical Nucleic Acid Probe Based on the Au-Se Bond

Anal. Chem.

2020

92, 8459-8463

22.

Yu, L; Zhang, Q; Kang, Q; Zhang, B; Shen, DZ; Zou, GZ

Near-Infrared Electrochemiluminescence Immunoassay with Biocompatible Au Nanoclusters as Tags

Anal. Chem.

2020

92, 7581-7587

23.

Tong, LL; Wang, XX; Chen, ZZ; Liang, YH; Yang, YP; Gao, W; Liu, ZH; Tang, B

One-Step Fabrication of Functional Carbon Dots with 90% Fluorescence Quantum Yield for Long-Term Lysosome Imaging

Anal. Chem.

2020

92, 6430-6436

24.

Chen, YZ; Song, XT; Li, L; Tang, B

A High-Fidelity Electrochemical Platform Based on Au-Se Interface for Biological Detection

Anal. Chem.

2020

92, 5855-5861

25.

Zhang, Y; Hua, RN; Zhang, CY

Integration of Enzymatic Labeling with Single-Molecule Detection for Sensitive Quantification of Diverse DNA Damages

Anal. Chem.

2020

92, 4700-4706

26.

Zhang, W; Liu, XL; Li, P; Zhang, W; Wang, H; Tang, B

In Situ Fluorescence Imaging of the Levels of Glycosylation and Phosphorylation by a MOF-Based Nanoprobe in Depressed Mice

Anal. Chem.

2020

92, 3716-3721

27.

Ma, Y; Zhang, YQ; Li, XY; Yang, P; Yue, JY; Jiang, Y; Tang, B

Linker-Eliminated Nano Metal-Organic Framework Fluorescent Probe for Highly Selective and Sensitive Phosphate Ratiometric Detection in Water and Body Fluids

Anal. Chem.

2020

92, 3722-3727

28.

Wang, X; Bai, XY; Su, D; Zhang, YD; Li, P; Lu, SY; Gong, YL; Zhang, W; Tang, B

Simultaneous Fluorescence Imaging Reveals N-Methyl-D-aspartic Acid Receptor Dependent Zn2+/H+ Flux in the Brains of Mice with Depression

Anal. Chem.

2020

92

4101-4107

29.

Wang, H; Yang, YY; Huang, F; He, ZX; Li, P; Zhang, W; Zhang, W; Tang, B

In Situ Fluorescent and Photoacoustic Imaging of Golgi pH to Elucidate the Function of Transmembrane Protein 165

Anal. Chem.

2020

92, 3103-3110

30.

Su, D; Li, P; Wang, X; Zhang, W; Zhang, YD; Wu, CC; Zhang, W; Li, Y; Tai, WJ; Tang, B

Observing Malondialdehyde-Mediated Signaling Pathway in Cerebral Ischemia Reperfusion Injury with a Specific Nanolight

Anal. Chem.

2020

92, 2748-2755

31.

Wu, LJ; Ding, Q; Wang, X; Li, P; Fan, NN; Zhou, YQ; Tong, LL; Zhang, W; Zhang, W; Tang, B

Visualization of Dynamic Changes in Labile Iron(II) Pools in Endoplasmic Reticulum Stress-Mediated Drug-Induced Liver Injury

Anal. Chem.

2020

92, 1245-1251

32.

Yan, CX; Lin, QQ; Li, S; Wu, CJ; Li, YA; Fan, JZ; Ma, JP; Geng, Y; Dong, YB

Synthesis of fulvene-containing boron complexes with aggregation-induced emission and mechanochromic luminescence

Chem. Common.

2020

56, 14435-14438

33.

Gao, P; Wang, MZ; Wan, XY; Liu, XH; Pan, W; Li, N; Tang, B

A COF-based anti-interference nanoplatform for intracellular nucleic acid imaging

Chem. Common.

2020

56, 14267-14270

34.

Li, YY; Sun, SL; Tian, XR; Qiu, JG; Jiang, BH; Zhang, CY

A dumbbell probe-based dual signal amplification strategy for sensitive detection of multiple DNA methyltransferases

Chem. Common.

2020

56, 13627-13630

35.

Wang, GB; Li, S; Yan, CX; Lin, QQ; Zhu, FC; Geng, Y; Dong, YB

A benzothiadiazole-based covalent organic framework for highly efficient visible-light driven hydrogen evolution

Chem. Common.

2020

56, 12612-12615

36.

Xie, JF; Qi, JD; Lei, FC; Xie, Y

Modulation of electronic structures in two-dimensional electrocatalysts for the hydrogen evolution reaction

Chem. Common.

2020

56, 11910-11930

37.

Wang, Q; Fang, XX; Hao, P; Ren, HY; Zhao, YQ; Huang, F; Xie, JF; Cui, GW; Tang, B

Controllable fabrication of TiO(2)anatase/rutile phase junctions by a designer solvent for promoted photocatalytic performance

Chem. Common.

2020

56, 11827-11830

38.

Li, YY; Sun, SL; Tian, XR; Qiu, JG; Jiang, BH; Wang, LJ; Zhang, CY

Dephosphorylation-directed tricyclic DNA amplification cascades for sensitive detection of protein tyrosine phosphatase

Chem. Common.

2020

56, 11581-11584

39.

Chen, YY; Gao, P; Wu, T; Pan, W; Li, N; Tang, B

Organelle-localized radiosensitizers

Chem. Common.

2020

56, 10621-10630

40.

Chen, YY; Pan, W; Gao, P; Shi, MW; Wu, T; Li, N; Tang, B

Boosting the abscopal effect of radiotherapy: a smart antigen-capturing radiosensitizer to eradicate metastatic breast tumors

Chem. Common.

2020

56, 10353-10356

41.

Cui, L; Zhou, JH; Yang, XY; Dong, J; Wang, XL; Zhang, CY

Catalytic hairpin assembly-based electrochemical biosensor with tandem signal amplification for sensitive microRNA assay

Chem. Common.

2020

56, 10191-10194

42.

Li, XX; Duan, XY; Li, L; Ye, SJ; Tang, B

An accurate and ultrasensitive SERS sensor with Au-Se interface for bioimaging andin situquantitation

Chem. Common.

2020

56, 9320-9323

43.

Zhang, Y; Li, QN; Xiang, DX; Zhou, KY; Xu, QF; Zhang, CY

Development of a bidirectional isothermal amplification strategy for the sensitive detection of transcription factors in cancer cells

Chem. Common.

2020

56, 8952-8955

44.

Zhou, P; Lu, F; Wang, JB; Wang, KY; Liu, B; Li, N; Tang, B

A portable point-of-care testing system to diagnose lung cancer through the detection of exosomal miRNA in urine and saliva

Chem. Common.

2020

56, 8968-8971

45.

Gong, SH; Chen, YY; Pan, W; Li, N; Tang, B

Anin vitrosite-specific cleavage assay of CRISPR-Cas9 using a personal glucose meter

Chem. Common.

2020

56, 8850-8853

46.

Guan, Q; Zhou, LL; Zhou, LN; Li, MD; Qin, GX; Li, WY; Li, YA; Dong, YB

A carbon nanomaterial derived from a nanoscale covalent organic framework for photothermal therapy in the NIR-II biowindow

Chem. Common.

2020

56, 7793-7796

47.

Liu, M; Zhang, D; Zhang, XC; Xu, QF; Ma, F; Zhang, CY

Label-free and amplified detection of apoptosis-associated caspase activity using branched rolling circle amplification

Chem. Common.

2020

56, 5243-5246

48.

Zhan, RH; Guo, WF; Gao, XN; Liu, XJ; Xu, KH; Tang, B

Reconstruction of nano-flares based on Au-Se bonds for high-fidelity detection of RNA in living cells

Chem. Common.

2020

56, 5178-5181

49.

Qi, JD; Xie, JF; Wei, ZM; Lou, SS; Hao, P; Lei, FC; Tang, B

Modulation of crystal water in cobalt phosphate for promoted water oxidation

Chem. Common.

2020

56, 4575-4578

50.

Xie, JF; Guo, YQ; Lou, SS; Wei, ZM; Hao, P; Lei, FC; Tang, B

A molten-salt protected pyrolysis approach for fabricating a ternary nickel-cobalt-iron oxide nanomesh catalyst with promoted oxygen-evolving performance

Chem. Common.

2020

56, 4579-4582

51.

Zhao, MH; Cui, L; Zhang, CY

Host-guest recognition coupled with triple signal amplification endows an electrochemiluminescent biosensor with enhanced sensitivity

Chem. Common.

2020

56, 2971-2974

52.

Xu, JH; Zhang, H; Zhang, W; Li, P; Zhang, W; Wang, H; Tang, B

Fluorescent nanosensor for in situ detection of phosphate and alkaline phosphatase in mice with parathyroid dysfunction

Chem. Common.

2020

56, 2431-2434

53.

Wang, ZY; Zhang, CP; Zhang, CY

Integration of a peptide-DNA conjugate with multiple cyclic signal amplification for the ultrasensitive detection of cathepsin B activity

Chem. Common.

2020

56, 2119-2122

54.

Li, YH; Liu, XH; Pan, W; Li, N; Tang, B

Photothermal therapy-induced immunogenic cell death based on natural melanin nanoparticles against breast cancer

Chem. Common.

2020

56, 1389-1392

55.

Gao, P; Shi, MW; Wei, RY; Pan, W; Liu, XH; Li, N; Tang, B

A biomimetic MOF nanoreactor enables synergistic suppression of intracellular defense systems for augmented tumor ablation

Chem. Common.

2020

56, 924-927

56.

Pan, W; Cui, BJ; Gao, P; Ge, YG; Li, N; Tang, B

A cancer cell membrane-camouflaged nanoreactor for enhanced radiotherapy against cancer metastasis

Chem. Common.

2020

56, 547-550

57.

Zhang, DD; Meng, YR; Zhang, CY

Peptide-templated gold nanoparticle nanosensor for simultaneous detection of multiple posttranslational modification enzymes

Chem. Common.

2020

56, 213-216

58.

Gao, L; Xie, JF; Liu, SS; Lou, SS; Wei, ZM; Zhu, XJ; Tang, B

Crystalline Cobalt/Amorphous LaCoOx Hybrid Nanoparticles Embedded in Porous Nitrogen-Doped Carbon as Efficient Electrocatalysts for Hydrazine-Assisted Hydrogen Production

ACS Appl. Mater. Interfaces

2020

12, 24701-24709

59.

Cui, L; Yu, SL; Gao, WQ; Zhang, XM; Deng, SY; Zhang, CY

Tetraphenylenthene-Based Conjugated Microporous Polymer for Aggregation-Induced Electrochemiluminescence

ACS Appl. Mater. Interfaces

2020

12, 7966-7973

60.

Ma, F; Jiang, S; Zhang, CY

SiRNA-directed self-assembled quantum dot biosensor for simultaneous detection of multiple microRNAs at the single-particle level

Biosens. Bioelectron.

2020

157, 1755-1759

61.

Zhao, MH; Cui, L; Sun, B; Wang, QB; Zhang, CY

Low-background electrochemical biosensor for one-step detection of base excision repair enzyme

Biosens. Bioelectron.

2020

150, 3897-3901

62.

Ma, HC; Zou, J; Li, XT; Chen, GJ; Dong, YB

Homochiral Covalent Organic Frameworks for Asymmetric Catalysis

Chem. -Eur. J.

2020

26, 13754-13770

63.

Guan, Q; Zhou, LL; Li, WY; Li, YA; Dong, YB

Covalent Organic Frameworks (COFs) for Cancer Therapeutics

Chem. -Eur. J.

2020

26, 5583,5591

64.

Liu, T; Ma, RJ; Luo, ZH; Guo, Y; Zhang, GY; Xiao, YQ; Yang, T; Chen, YZ; Li, G; Yi, YP; Lu, XH; Yan, H; Tang, B

Concurrent improvement inJ(SC)andV(OC)in high-efficiency ternary organic solar cells enabled by a red-absorbing small-molecule acceptor with a high LUMO level

Energy Environ. Sci.

2020

13, 2115-2123

65.

Xia, XY; Li, B; Liu, SS; Tang, B

Recent Advances and Challenges in 2D Metal-Free Electrocatalysts for N(2)Fixation

Front. Chem.

2020

8, 437-441

66.

Wang, JC; Liu, CX; Kan, X; Wu, XW; Kan, JL; Dong, YB

Pd@COF-QA: a phase transfer composite catalyst for aqueous Suzuki-Miyaura coupling reaction

Green Chem.

2020

22, 1150-1155

67.

Tang, CY; Yao, J; Li, YY; Xia, ZR; Liu, JB; Zhang, CY

Transition-Metal-Complex-Directed Synthesis of Hybrid Iodoargentates with Single-Crystal to Single-Crystal Structural Transformation and Photocatalytic Properties

Inorg. Chem

2020

59, 13962-13971

68.

Wang, GB; Li, S; Yan, CX; Zhu, FC; Lin, QQ; Xie, KH; Geng, Y; Dong, YB

Covalent organic frameworks: emerging high-performance platforms for efficient photocatalytic applications

J .Mater Chem. A

2020

8, 6957-6983

69.

Li, G; Li, DD; Ma, RJ; Liu, T; Luo, ZH; Cui, GW; Tong, LL; Zhang, M; Wang, ZY; Liu, F; Xu, L; Yan, H; Tang, B

Efficient modulation of end groups for the asymmetric small molecule acceptors enabling organic solar cells with over 15% efficiency

J. Mater Chem. A

2020

8, 5927-5935

70.

Ma, F; Zhang, Q; Zhang, CY

Nanomaterial-based biosensors for DNA methyltransferase assay

J Mater. Chem. B

2020

8, 3488-3501

71.

Pei, HM; Li, L; Han, ZJ; Wang, YG; Tang, B

Recent advances in microfluidic technologies for circulating tumor cells: enrichment, single-cell analysis, and liquid biopsy for clinical applications

Lab Chip

2020

20, 3854-3875

72.

Liu, ZH; Wang, LX; Yu, T; Sun, YN; Chen, HM; Gao, W; Tang, B

A bench-stable low-molecular-weight vinyl azide surrogate for a cascade reaction: facile access to novelN-vinyl-1,2,3-triazoles

Org. Chem. Front.

2020

7, 2628-2633

73.

Hu, ZY; Zhang, MY; Zhou, QH; Xu, XX; Tang, B

Domino synthesis of fully substituted pyridines by silver-catalyzed chemoselective hetero-dimerization of isocyanides

Org. Chem. Front.

2020

7, 507-512

74.

Liu, ZH; Yang, L; Zhang, KN; Chen, WJ; Yu, T; Wang, LX; Gao, W; Tang, B

Copper-Catalyzed Disulfonation of Terminal Alkynes with Sodium Arylsulfinates

Org. Lett.

2020

22, 2081-2086

75.

Li, Y; Dong, Y; Kan, JL; Wu, XW; Dong, YB

Synthesis and Catalytic Properties of Metal-N-Heterocyclic-Carbene-Decorated Covalent Organic

Org. Lett.,

2020

22, 7363-7368

76.

Hao, P; Xin, Y; Tian, J; Li, LY; Xie, JF; Lei, FC; Tong, LL; Liu, H; Tang, B

Novel (Ni, Fe)S-2/(Ni, Fe)(3)S-4 solid solution hybrid: an efficient electrocatalyst with robust oxygen-evolving performance

Sci. China Chem.

2020

63, 1030-1039

77.

Luan, DR; Zhao, ZT; Xia, DD; Zheng, QL; Gao, XN; Xu, KH; Tang, B

Hydrogen selenide, a vital metabolite of sodium selenite, uncouples the sulfilimine bond and promotes the reversal of liver fibrosis

Sci. China Life Sci.

2020

19, 1761-1766

78.

Wang, ZY; Li, P; Cui, L; Qiu, JG; Jiang, BH; Zhang, CY

Integration of nanomaterials with nucleic acid amplification approaches for biosensing

Trac -Trend Anal. Chem.

2020

129, 3341-3346

79.

Zhang, W; Liu, XL; Li, P; Zhang, W; Wang, H; Tang, B

Cellular fluorescence imaging based on resonance energy transfer

Trac. -Trend. Anal. Chem.

2020

123, 227-242

80.

Li, CC; Li, Y; Zhang, Y; Zhang, CY

Single-molecule fluorescence resonance energy transfer and its biomedical applications

Trac. -Trend. Anal. Chem.

2020

122, 1980-1985