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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]
下载量
1.
Confining Fluorescent Probes in Nanochannels to Construct Reusable..
[2]
2.
Utilizing Polymer Micelle to Control Dye J-aggregation and Enhance..
[1]
3.
Near-Infrared Polymer Dots with Aggregation-Induced Emission for T..
[1]
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