References
(1) Taubes, G., The Bacteria Fight Back. Science 2008,321 (5887), 356-361.
(2) Levy, S. B.; Marshall, B., Antibacterial resistance worldwide:
causes, challenges and responses. Nat Med 2004,10 (12 Suppl), S122-9.
(3) Hartmann, M.; Betz, P.; Sun, Y.; Gorb, S. N.; Lindhorst, T. K.;
Krueger, A., Saccharide-modified nanodiamond conjugates for the
efficient detection and removal of pathogenic bacteria. Chemistry2012, 18 (21), 6485-92.
(4) Kieron; M.; G.; O’Connell; James; T.; Hodgkinson; Hannah; F.; Sore,
Combating Multidrug-Resistant Bacteria: Current Strategies for the
Discovery of Novel Antibacterials. Angewandte Chemie International
Edition 2013, 52 (41), 10706-10733.
(5) Morgan, D.; Okeke, I. N.; Laxminarayan, R.; Perencevich, E. N.;
Weisenberg, S., Non-prescription antimicrobial use worldwide: a
systematic review. Lancet Infectious Diseases 2011,11 (9), 692-701.
(6) Michaelidou, M.; Karageorgos, S. A.; Tsioutis, C., Antibiotic Use
and Antibiotic Resistance: Public Awareness Survey in the Republic of
Cyprus. Antibiotics (Basel) 2020, 9 (11).
(7) Qing, G.; Zhao, X.; Gong, N.; Chen, J.; Liang, X. J.,
Thermo-responsive triple-function nanotransporter for efficient
chemo-photothermal therapy of multidrug-resistant bacterial infection.Nature Communications 2019, 10 (1), 1-12.
(8) Sun, P.; Zhang, Y.; Ran, X.; Liu, C.; Wang, Z.; Ren, J.; Qu, X.,
Phytochemical-encapsulated nanoplatform for “on-demand” synergistic
treatment of multidrug-resistant bacteria. Nano Research2018, 11 (7), 3762-3770.
(9) Zhang, Y.; Sun, P.; Zhang, L.; Wang, Z.; Wang, F.; Dong, K.; Liu,
Z.; Ren, J.; Qu, X., Silver-Infused Porphyrinic Metal-Organic Framework:
Surface-Adaptive, On-Demand Nanoplatform for Synergistic Bacteria
Killing and Wound Disinfection. Advanced Functional Materials2019, 29 (11).
(10) Wang, Y.; Ding, X.; Chen, Y.; Guo, M.; Zhang, Y.; Guo, X.; Gu, H.,
Antibiotic-loaded, silver core-embedded mesoporous silica nanovehicles
as a synergistic antibacterial agent for the treatment of drug-resistant
infections. Biomaterials 2016, 101 , 207-216.
(11) Gao, G.; Jiang, Y. W.; Jia, H. R.; Wu, F. G., Near-infrared
light-controllable on-demand antibiotics release using thermo-sensitive
hydrogel-based drug reservoir for combating bacterial infection.Biomaterials 2019, 188 , 83-95.
(12) Wu, Y.; Song, Z.; Wang, H.; Han, H., Endogenous stimulus-powered
antibiotic release from nanoreactors for a combination therapy of
bacterial infections. Nat Commun 2019, 10 (1),
4464.
(13) Tao, B.; Lin, C.; Yuan, Z.; He, Y.; Cai, K., Near infrared
light-triggered on-demand Cur release from Gel-PDA@Cur composite
hydrogel for antibacterial wound healing. Chemical Engineering
Journal 2020, 403 , 126182.
(14) Zhao, Y.; Dai, X.; Wei, X.; Yu, Y.; Chen, X.; Zhang, X.; Li, C.,
Near-Infrared Light-Activated Thermosensitive Liposomes as Efficient
Agents for Photothermal and Antibiotic Synergistic Therapy of Bacterial
Biofilm. ACS Appl Mater Interfaces 2018, 10 (17),
14426-14437.
(15) J. Ouyang, R. Y. L., W. Chen, Z. Liu, Q. Xu, K. Zeng, L. Deng, L.
Shen, Y.N. Liu,, A black phosphorus based synergistic antibacterial
platform against drug resistant bacteria. J. Mater. Chem. B2018, 6 , 6302-6310.
(16) Wang X, S. K., Tan L, Liu X, Cui Z, Jing D, Yang X, Liang Y, Li Z,
Zhu S, Yeung KWK, Zheng D, Wu S, Rapid and highly effective noninvasive
disinfection by hybrid Ag/CS@MnO2 nanosheets using
near-infrared light[J]. ACS Appl. Mater. Interfaces2019, 11 (16), 15014-15027.
(17) Yang, Y.; He, P.; Wang, Y.; Bai, H.; Wang, S.; Xu, J.-F.; Zhang,
X., Supramolecular Radical Anions Triggered by Bacteria In Situ for
Selective Photothermal Therapy. Angewandte Chemie International
Edition 2017, 56 (51), 16239-16242.
(18) Gao, Q.; Zhang, X.; Yin, W.; Ma, D.; Xie, C.; Zheng, L.; Dong, X.;
Mei, L.; Yu, J.; Wang, C.; Gu, Z.; Zhao, Y., Functionalized MoS2
Nanovehicle with Near-Infrared Laser-Mediated Nitric Oxide Release and
Photothermal Activities for Advanced Bacteria-Infected Wound Therapy.Small 2018, 14 (45), 1802290.
(19) Yang, Y.; Ma, L.; Cheng, C.; Deng, Y.; Huang, J.; Fan, X.; Nie, C.;
Zhao, W.; Zhao, C., Nonchemotherapic and Robust Dual-Responsive
Nanoagents with On-Demand Bacterial Trapping, Ablation, and Release for
Efficient Wound Disinfection. Advanced Functional Materials2018, 28 (21), 1705708.
(20) Hu, D.; Li, H.; Wang, B.; Ye, Z.; Lei, W.; Jia, F.; Jin, Q.; Ren,
K.-F.; Ji, J., Surface-Adaptive Gold Nanoparticles with Effective
Adherence and Enhanced Photothermal Ablation of Methicillin-Resistant
Staphylococcus aureus Biofilm. ACS Nano 2017, 11(9), 9330-9339.
(21) Ray, P. C.; Khan, S. A.; Singh, A. K.; Senapati, D.; Fan, Z.,
Nanomaterials for targeted detection and photothermal killing of
bacteria. Chemical Society Reviews 2012, 41 (8),
3193.
(22) Gao, Q.; Zhang, X.; Yin, W.; Ma, D.; Xie, C.; Zheng, L.; Dong, X.;
Mei, L.; Yu, J.; Wang, C.; Gu, Z.; Zhao, Y., Functionalized MoS2
Nanovehicle with Near-Infrared Laser-Mediated Nitric Oxide Release and
Photothermal Activities for Advanced Bacteria-Infected Wound Therapy.Small 2018, 14 (45), e1802290.
(23) Yuwen, L.; Sun, Y.; Tan, G.; Xiu, W.; Zhang, Y.; Weng, L.; Teng,
Z.; Wang, L., MoS2@polydopamine-Ag nanosheets with enhanced
antibacterial activity for effective treatment of Staphylococcus aureus
biofilms and wound infection. Nanoscale 2018, 10(35), 16711-16720.
(24) J. Sun, L. S., Y. Fan, L. Tian, S. Luan, S. Niu, L. Ren, W. Ming,
J. Zhao, Synergistic photodynamic and photothermal antibacterial
nanocomposite membrane triggered by single NIR light source. ACS
Appl Mater Interfaces 2019, 11 (30), 26581-26589.
(25) Rubio-Ruiz, B.; Perez-Lopez, A. M.; Bray, T. L.; Lee, M.; Serrels,
A.; Prieto, M.; Arruebo, M.; Carragher, N. O.; Sebastian, V.;
Unciti-Broceta, A., High-Precision Photothermal Ablation Using
Biocompatible Palladium Nanoparticles and Laser Scanning Microscopy.ACS Appl Mater Interfaces 2018, 10 (4),
3341-3348.
(26) Wang, H.; Zhao, B.; Dong, W.; Zhong, Y.; Zhang, X.; Gong, Y.; Zhan,
R.; Xing, M.; Zhang, J.; Luo, G.; Qian, W., A dual-targeted platform
based on graphene for synergistic chemo-photothermal therapy against
multidrug-resistant Gram-negative bacteria and their biofilms.Chemical Engineering Journal 2020, 393 , 124595.
(27) Zeng, X.; Luo, M.; Liu, G.; Wang, X.; Tao, W.; Lin, Y.; Ji, X.;
Nie, L.; Mei, L., Polydopamine-Modified Black Phosphorous Nanocapsule
with Enhanced Stability and Photothermal Performance for Tumor
Multimodal Treatments. Advanced science 2018, 5(10), 1800510.
(28) Mei, Z.; Gao, D.; Hu, D.; Zhou, H.; Ma, T.; Huang, L.; Liu, X.;
Zheng, R.; Zheng, H.; Zhao, P.; Zhou, J.; Sheng, Z., Activatable NIR-II
photoacoustic imaging and photochemical synergistic therapy of MRSA
infections using miniature Au/Ag nanorods. Biomaterials2020, 251 , 120092.
(29) C. Tong, X. Z., Y. Yang, X. Liu, G. Zhong, C. Xiao, B. Liu, W.
Wang, X. Yang, PB@PDA@Ag nanosystem for synergistically eradicating MRSA
and accelerating diabetic wound healing assisted with laser irradiation.Biomaterials 2020, 243 , 119936.
(30) Liu B, W. W., Fan J, Long Y, Xiao F, et al, RBC membrane
camouflaged prussian blue nanoparticles for gamabutolin loading and
combined chemo/photothermal therapy of breast cancer. Biomaterials
217 , 119301.
(31) Cai, X.; Jia, X.; Gao, W.; Zhang, K.; Ma, M.; Wang, S.; Zheng, Y.;
Shi, J.; Chen, H., A Versatile Nanotheranostic Agent for Efficient
Dual-Mode Imaging Guided Synergistic Chemo-Thermal Tumor Therapy.Advanced Functional Materials 2015, 25 (17),
2520-2529.
(32) Zhou, J.; Li, M.; Hou, Y.; Luo, Z.; Chen, Q.; Cao, H.; Huo, R.;
Xue, C.; Sutrisno, L.; Hao, L.; Cao, Y.; Ran, H.; Lu, L.; Li, K.; Cai,
K., Engineering of a Nanosized Biocatalyst for Combined Tumor Starvation
and Low-Temperature Photothermal Therapy. ACS Nano 2018,12 (3), 2858-2872.
(33) Fan, J.; Liu, B.; Long, Y.; Wang, Z.; Tong, C.; Wang, W.; You, P.;
Liu, X., Sequentially-targeted biomimetic nano drug system for
triple-negative breast cancer ablation and lung metastasis inhibition.Acta Biomater 2020, 113 , 554-569.
(34) Tong, C.; Zhong, X.; Yang, Y.; Liu, X.; Zhong, G.; Xiao, C.; Liu,
B.; Wang, W.; Yang, X., PB@PDA@Ag nanosystem for synergistically
eradicating MRSA and accelerating diabetic wound healing assisted with
laser irradiation. Biomaterials 2020, 243 ,
119936.
(35) Liu, B.; Wang, W.; Fan, J.; Long, Y.; Xiao, F.; Daniyal, M.; Tong,
C.; Xie, Q.; Jian, Y.; Li, B.; Ma, X.; Wang, W., RBC membrane
camouflaged prussian blue nanoparticles for gamabutolin loading and
combined chemo/photothermal therapy of breast cancer.Biomaterials 2019, 217 , 119301.
(36) Xiao, F.; Fan, J.; Tong, C.; Xiao, C.; Wang, Z.; Liu, B.; Daniyal,
M.; Wang, W., An erythrocyte membrane coated mimetic nano-platform for
chemo-phototherapy and multimodal imaging. RSC Advances2019, 9 (48), 27911-27926.
(37) Zhong, X.; Tong, C.; Liu, T.; Li, L.; Liu, X.; Yang, Y.; Liu, R.;
Liu, B., Silver nanoparticles coated by green graphene quantum dots for
accelerating the healing of MRSA-infected wounds. Biomaterials
Science 2020, 8 (23), 6670-6682.
(38) Wang, L.; Yang, J.; Yang, X.; Hou, Q.; Liu, S.; Zheng, W.; Long,
Y.; Jiang, X., Mercaptophenylboronic Acid-Activated Gold Nanoparticles
as Nanoantibiotics against Multidrug-Resistant Bacteria. ACS Appl
Mater Interfaces 2020, 12 (46), 51148-51159.
(39) Li, Y.; Gao, Z.; Zhang, Y.; Chen, F.; An, P.; Wu, H.; You, C.; Sun,
B., MOF-shielded and glucose-responsive ultrasmall silver nano-factory
for highly-efficient anticancer and antibacterial therapy.Chemical Engineering Journal 2021, 416 , 127610.
(40) Tong, C.; Li, L.; Xiao, F.; Fan, J.; Zhong, X.; Liu, X.; Liu, B.;
Wu, Z.; Zhou, J., Daptomycin and AgNP co-loaded rGO nanocomposites for
specific treatment of Gram-positive bacterial infection in vitro and in
vivo. Biomaterials Science 2019, 7 (12),
5097-5111.
(41) Tong, C.; Zou, W.; Ning, W.; Fan, J.; Li, L.; Liu, B.; Liu, X.,
Synthesis of DNA-guided silver nanoparticles on a graphene oxide
surface: enhancing the antibacterial effect and the wound healing
activity. RSC Advances 2018, 8 (49), 28238-28248.
(42) Cui, Y.; Zhao, Y.; Tian, Y.; Zhang, W.; Lu, X.; Jiang, X., The
molecular mechanism of action of bactericidal gold nanoparticles on
Escherichia coli. Biomaterials 2012, 33 (7),
2327-33.
(43) Zhao, R.; Kong, W.; Sun, M.; Yang, Y.; Liu, W.; Lv, M.; Song, S.;
Wang, L.; Song, H.; Hao, R., Highly Stable Graphene-Based Nanocomposite
(GO-PEI-Ag) with Broad-Spectrum, Long-Term Antimicrobial Activity and
Antibiofilm Effects. ACS Appl Mater Interfaces 2018,10 (21), 17617-17629.
(44) Hu, D.; Zou, L.; Yu, W.; Jia, F.; Han, H.; Yao, K.; Jin, Q.; Ji,
J., Relief of Biofilm Hypoxia Using an Oxygen Nanocarrier: A New
Paradigm for Enhanced Antibiotic Therapy. Adv Sci (Weinh)2020, 7 (12), 2000398.
(45) Ivanova, A.; Ivanova, K.; Tied, A.; Heinze, T.; Tzanov, T.,
Layer‐By‐Layer Coating of Aminocellulose and Quorum Quenching Acylase on
Silver Nanoparticles Synergistically Eradicate Bacteria and Their
Biofilms. Advanced Functional Materials 2020, 30(24).