中文版 | English
访问统计
月访问量

93

  • 内部: 0

  • 外部: 93

  • 国内: 85

  • 国外: 8

年访问量

1741

  • 内部: 10

  • 外部: 1731

  • 国内: 1718

  • 国外: 23

总访问量

8036

  • 内部: 89

  • 外部: 7947

  • 国内: 7611

  • 国外: 425

访问量
访问量
1. Efficient synthesis and facile functionalization of highly fluores.. [1053]
2. Metallopolymer strategy to explore hypoxic active narrow-bandgap p.. [488]
3. Utilizing Polymer Micelle to Control Dye J-aggregation and Enhance.. [255]
4. Semiconducting Polymer Dots with Dual-Enhanced NIR-IIa Fluorescenc.. [204]
5. The biocompatibility studies of polymer dots on pregnant mice and .. [198]
6. A BODIPY-Based Donor/Donor-Acceptor System: Towards Highly Efficie.. [196]
7. Semiconducting polymer dots with photosensitizer loading and pepti.. [196]
8. NIR-II Fluorescence Imaging Reveals Bone Marrow Retention of Small.. [193]
9. In vivo dynamic cell tracking with long-wavelength excitable and n.. [192]
10. Quinoxaline-Based Semiconducting Polymer Dots for in Vivo NIR-II F.. [190]
11. Near-Infrared Polymer Dots with Aggregation-Induced Emission for T.. [189]
12. Biodegradable Polymer Nanoparticles for Photodynamic Therapy by Bi.. [187]
13. Enhanced Phototherapy by Nanoparticle-Enzyme via Generation and Ph.. [183]
14. Thermosensitive Polymer Dot Nanocomposites for Trimodal Computed T.. [182]
15. Improving the Accuracy of Pdot-Based Continuous Glucose Monitoring.. [182]
16. Mesoporous Carbon Nanospheres as a Multifunctional Carrier for Can.. [178]
17. Live-cell imaging of octaarginine-modified polymer dots via single.. [177]
18. Semiconducting Polymer Dots with Modulated Photoblinking for High-.. [176]
19. Compact Conjugated Polymer Dots with Covalently Incorporated Metal.. [176]
20. Application of Second Harmonic Generation in Biomedical Imaging [175]
21. Enhancing the Long-Term Stability of a Polymer Dot Glucose Transdu.. [174]
22. Multilayered upconversion nanocomposites with dual photosensitizin.. [173]
23. Ultrabright Polymer-Dot Transducer Enabled Wireless Glucose Monito.. [172]
24. Metalloporphyrin loaded semiconducting polymer dots as potent phot.. [172]
25. Fluorination Enhances NIR-II Fluorescence of Polymer Dots for Quan.. [170]
26. Expansion Microscopy with Multifunctional Polymer Dots [170]
27. Switchable stimulated Raman scattering microscopy with photochromi.. [170]
28. Multicolor Photoacoustic Volumetric Imaging of Subcellular Structu.. [169]
29. Measuring Cellular Uptake of Polymer Dots for Quantitative Imaging.. [168]
30. Fluorescent Bioconjugates for Super-Resolution Optical Nanoscopy [167]
31. Nanoscale metal-organic frameworks coated with poly(vinyl alcohol).. [166]
32. Light-Controlled Precise Delivery of NIR-Responsive Semiconducting.. [166]
33. Spiro[pyrrol-benzopyran]-based probe with high asymmetry for chiro.. [162]
34. “六十载激光与生物医学的融合发展”专题前言 [162]
35. Semiconducting polymer nanoparticles for amplified photoacoustic i.. [159]
36. Thiophene-fused 1,10-phenanthroline toward a far-red emitting conj.. [157]
37. Thermoacoustic endoscopy [157]
38. Polymer Dots Compartmentalized in Liposomes as a Photocatalyst for.. [156]
39. Near-Infrared Broadband Polymer-Dot Modulator with High Optical No.. [156]
40. Imaging Fast Cellular Uptake of Polymer Dots via Receptor-Mediated.. [156]
41. Confining Fluorescent Probes in Nanochannels to Construct Reusable.. [156]
42. A Tunable Optofluidic Microlaser in a Photostable Conjugated Polym.. [155]
43. Therapeutic Considerations and Conjugated Polymer-Based Photosensi.. [155]
44. Real-Time Imaging of Endocytosis and Intracellular Trafficking of .. [154]
45. Light-Harvesting Fluorescent Spherical Nucleic Acids Self-Assemble.. [153]
46. Ultrasmall Semiconducting Polymer Dots with Rapid Clearance for Se.. [152]
47. Reversible Ratiometric NADH Sensing Using Semiconducting Polymer D.. [152]
48. OCT imaging detection of brain blood vessels in mouse, based on se.. [151]
49. Bioconjugation of IgG Secondary Antibodies to Polymer Dots for Mul.. [150]
50. In vivo imaging and tracking of exosomes for theranostics [150]
51. Narrow-band polymer dots with pronounced fluorescence fluctuations.. [146]
52. Ratiometric Fluorescent Detection of Intracellular Singlet Oxygen .. [145]
53. NIR-IIb excitable bright polymer dots with deep-red emission for i.. [143]
54. A biodegradable nano-photosensitizer with photoactivatable singlet.. [143]
55. Brightness Enhancement of Near-Infrared Semiconducting Polymer Dot.. [142]
56. Highly absorbing multispectral near-infrared polymer nanoparticles.. [141]
57. Cooperative Blinking from Dye Ensemble Activated by Energy Transfe.. [139]
58. Semiconducting Polymer Nanoparticles in the Second Near-Infrared R.. [138]
59. Biomimetic semiconducting polymer dots for highly specific NIR-II .. [136]
60. Sialylglycan-Assembled Supra-Dots for Ratiometric Probing and Bloc.. [135]
61. Mid-infrared Tunable High Pulse Energy Femtosecond Pulse Laser Gen.. [133]
62. Semiconducting Polymer Nanocavities: Porogenic Synthesis, Tunable .. [131]
63. Multifunctional nanoprobes for photoacoustic imaging-guided cancer.. [130]
64. Purification of Semiconducting Polymer Dots by Size Exclusion Chro.. [130]
65. Recent advances in semiconducting polymer dots as optical probes f.. [130]
66. Multimode Time-Resolved Superresolution Microscopy Revealing Chain.. [129]
67. Multicolor Photo-Crosslinkable AIEgens toward Compact Nanodots for.. [125]
68. All-in-One Photoacoustic Theranostics Using Multi-Functional Nanop.. [124]
69. Long-Term In Vivo Glucose Monitoring by Polymer-Dot Transducer in .. [123]
70. Erratum to: NIR-IIb excitable bright polymer dots with deep-red em.. [119]
71. "六十载激光与生物医学的融合发展"专题前言 [116]
72. Monitoring Metabolites Using an NAD(P)H-sensitive Polymer Dot and .. [116]
73. Multicolor Super-resolution Fluorescence Microscopy with Blue and .. [113]
74. Surface Plasmon-Enhanced NIR-II Fluorescence in a Multilayer Nanop.. [113]
75. Editorial [112]
76. Mesoporous Carbon Nanospheres as Broadband Saturable Absorbers for.. [109]
77. In Vivo Imaging of Exosomes Labeled with NIR-II Polymer Dots in Li.. [107]
78. Semiconducting polymer dots with bright narrow-band emission at 80.. [104]
79. Light-Induced PEGylation and Functionalization of Semiconductor Po.. [103]
80. Spectra-separated depth-of-field extended fluorescence imaging thr.. [100]
81. Organic nanodots for superresolution optical imaging [96]
82. Near-Infrared Optical Transducer for Dynamic Imaging of Cerebrospi.. [95]
83. Monitoring Metabolites Using an NAD(P)H‐sensitive Polymer Dot and.. [91]
84. Photoswitchable semiconducting polymer dots for pattern encoding a.. [90]
85. Covalent incorporation of metalloporphyrin in luminescent polymer .. [84]
86. Organic Semiconducting Probes for Super-resolution Imaging and In .. [82]
87. Quantitative Imaging of Blood Glucose Concentration Using Organic .. [81]
88. Anisotropic assembly and fluorescence enhancement of conjugated po.. [79]
89. 聚合物量子点的荧光调控和光学成像 [71]
90. Highly efficient and non-doped red conjugated polymer dot for phot.. [59]
91. Selective visualization of nitric oxide in living cells and tissue.. [50]
92. Development and Characterization of Nanobody-Derived CD47 Theranos.. [47]
93. Near Infrared-Absorbing Nanoparticle-Mediated Endovascular Phototh.. [43]
94. Bone Marrow Stromal Cells Sorted by Semiconducting Polymer Nanodot.. [41]
95. Near-Infrared II Semiconducting Polymer Dots: Chain Packing Modula.. [37]
96. Site-Specific Modification of Single Domain Antibodies by Enzyme-I.. [35]
97. Self-Immolative Photosensitizers for Self-Reported Cancer Photothe.. [25]
98. Fluorescence Lifetime Multiplex Imaging in Expansion Microscopy wi.. [23]
99. Photoswitchable vibrational nanoscopy with sub-100-nm optical reso.. [17]
100. NIR-II fluorescence confocal imaging based on indirect wavefront s.. [13]
Baidu
map