Citation: | Chen Zhao, Rui Jing, Shanshan Wang, Xiaoying Tang. Nanoscale Metal-Organic Frameworks: Stimulus-Response and Applications[J].JOURNAL OF BEIJING INSTITUTE OF TECHNOLOGY, 2022, 31(3): 225-237.doi:10.15918/j.jbit1004-0579.2022.007 |
[1] |
H. Li, M. Eddaoudi, M. O’Keeffe, and O. M. Yaghi,“Design and synthesis of an exceptionally stable and highly porous metal-organic framework,”
Nature, vol. 402, no. 6759, pp. 276-279, 1999.
doi:10.1038/46248
|
[2] |
M. Eddaoudi, J. Kim, N. Rosi, D. Vodak, J. Wachter, M. O’Keeffe, and O. M. Yaghi,“Systematic design of pore size and functionality in isoreticular MOFs and their application in methane storage,”
Science, vol. 295, no. 5554, pp. 469-472, 2002.
doi:10.1126/science.1067208
|
[3] |
X. G. Wang, Z. Y. Dong, H. Cheng, S. S. Wan, W. H. Chen, M. Z. Zou, J. W. Huo, H. X. Deng, and X. Z. Zhang,“A multifunctional metal-organic framework based tumor targeting drug delivery system for cancer therapy,”
Nanoscale, vol. 7, no. 38, pp. 16061-16070, 2015.
doi:10.1039/C5NR04045K
|
[4] |
W. L. Jiang, Q. J. Fu, B. J. Yao, L. G. Ding, C. X. Liu, and Y. B. Dong,“Smart pH-responsive polymer-tethered and Pd NP-loaded NMOF as the Pickering interfacial catalyst for one-pot cascade biphasic reaction,”
ACS Applied Materials & Interfaces, vol. 41, no. 41, pp. 36438-36446, 2017.
|
[5] |
D. Wang, J. Zhou, R. Chen, R. Shi, G. Zhao, G. Xia, R. Li, Z. Liu, J. Tian, and H. J. B. Wang,“Controllable synthesis of dual-MOFs nanostructures for pH-responsive artemisinin delivery, magnetic resonance and optical dual-model imaging-guided chemo/photothermal combinational cancer therapy,”
Biomaterials, vol. 100, pp. 27-40, 2016.
doi:10.1016/j.biomaterials.2016.05.027
|
[6] |
L. Zhang, Z. Z. Wang, Y. Zhang, F. F. Cao, K. Dong, J. S. Ren, and X. G. Qu,“Erythrocyte membrane cloaked metal-organic framework nanoparticle as biomimetic nanoreactor for starvation-activated colon cancer therapy,”
ACS Nano, vol. 2018.12, no. 10, pp. 10201-10211, 2018.
|
[7] |
Y. B. Pan, S. Wang, X. He, W. Tang, J. Wang, A. Shao, and J. M. Zhang,“A combination of glioma in vivo imaging and in vivo drug delivery by metal-organic framework based composite nanoparticles,”
Journal of Materials Chemistry B, vol. 7, no. 48, pp. 7683-7689, 2019.
doi:10.1039/C9TB01651A
|
[8] |
Y. Duan, F. Ye, Y. Huang, Y. Qin, C. He, and S. Zhao,“One-pot synthesis of a metal-organic framework-based drug carrier for intelligent glucose-responsive insulin delivery,”
Chemical Communications, vol. 54, no. 42, pp. 119, 2018.
|
[9] |
W. H. Chen, G. F. Luo, V. G. Margarita, C. Rémi, S. Y. Sung, N. Rachel, M. Yossi, and W. Itamar, “Glucose-responsive metal-organic-framework nanoparticles act as ‘smart’ sense-and-treat carriers, ”
ACS Nano, vol. 12, no. 8, pp. 7538-7545, 2018.
|
[10] |
L. H. Du, H. Z. He, Z. C. Xiao, H. Xiao, Y. C. An, H. H. Zhang, M.Z. Lin, X. C. Meng, S. S. Han, and X. T. Shuai, “GSH-responsive metal-orginc framework for intratumoral release of NO and IDO inhibitor to enhance antitumor immunotherapy,”
Small, vol.18, pp. 2107732, 2022
|
[11] |
Y. Wang, W. Wu, J. Liu, P. N. Manghnani, and B. Liu,“Cancer-cell-activated photodynamic therapy assisted by Cu(II) based metal-organic framework,”
ACS Nano, vol. 13, no. 6, pp. 6879-6890, 2019.
doi:10.1021/acsnano.9b01665
|
[12] |
L. Bo, X. Wang, C. Lei, Y. Zhou, W. Dang, C. Jiang, and C. Wu,“Ultrathin Cu-TCPP MOF nanosheets: A new theragnostic nanoplatform with magnetic resonance/near-infrared thermal imaging for synergistic phototherapy of cancers,”
Theranostics, vol. 8, no. 15, pp. 4086-4096, 2018.
doi:10.7150/thno.25433
|
[13] |
J. F. Huang, Z. R. Xu, Y. H. Jiang, W. C. Law, B. Q. Dong, X. R. Zeng, M. Z. Ma, G. X. Xu, J. Z. Zou, and C. B. Yang, “Metal organic framework-coated gold nanorod as an on-demand drug delivery platform for chemo-photothermal cancer therapy, ”
Journal of Nanobiotechnology, vol. 19, no. 1, pp. 1-13, 2021.
|
[14] |
Y. Zhang, Q. Wang, G. Chen, and P. Shi,“DNA-functionalized metal–organic framework: Cell imaging, targeting drug delivery and photodynamic therapy,”
Inorganic Chemistry, vol. 58, no. 10, pp. 6593-6596, 2019.
doi:10.1021/acs.inorgchem.9b00734
|
[15] |
J. Silva, Y. G. Proenza, L. Leonis, and S. Araujo,“A thermo-responsive adsorbent-heater-thermometer nanomaterial for controlled drug release: (ZIF-8, EuxTby)@AuNP core-shell,”
Materials Science and Engineering:C, vol. 102, pp. 578-588, 2019.
|
[16] |
K. Zhang, X. Meng, Z. Yang, H. Dong, and X. J. Zhang,“Enhanced cancer therapy by hypoxia-responsive copper metal-organic frameworks nanosystem,”
Biomaterials, vol. 258, pp. 120278, 2020.
doi:10.1016/j.biomaterials.2020.120278
|
[17] |
H. Cai, T. Shen, J. Zhang, C. Shan, J. Jia, X. Li, W. Liu, and Y. Tang,“A core-shell metal-organic-framework (MOF)-based smart nanocomposite for efficient NIR/H
2O
2-responsive photodynamic therapy against hypoxic tumor cells,”
Journal of Materials Chemistry B, vol. 5, no. 13, pp. 2390-2394, 2017.
doi:10.1039/C7TB00314E
|
[18] |
B. Lei, M. Wang, Z. Jiang, W. Qi, R. Su, and Z. J. He,“Constructing redox-responsive metal-organic framework nanocarriers for anticancer drug delivery,”
ACS Applied Materials Interfaces, vol. 10, no. 19, pp. 16698-16706, 2018.
doi:10.1021/acsami.7b19693
|
[19] |
Z. Gharehdaghi, R. Rahimi, S. M. Naghib, and F. Molaabasi,“Cu (II)-porphyrin metal–organic framework/graphene oxide: synthesis, characterization, and application as a pH-responsive drug carrier for breast cancer treatment,”
JBIC Journal of Biological Inorganic Chemistry, vol. 26, no. 6, pp. 689-704, 2021.
doi:10.1007/s00775-021-01887-3
|
[20] |
Q. Jia , Z. Li , and C. Guo ,“A γ-cyclodextrin-based metal-organic framework embedded with graphene quantum dots and modified with PEGMA via SI-ATRP for anticancer drug delivery and therapy,”
Nanoscale, vol. 11, no. 43, pp. 20956-20967, 2019.
doi:10.1039/C9NR06195A
|
[21] |
Z. Wu, K. Zhang, X. Li, G. Hai, X. Huang, and G. Wang,“Conjugated polymer coated MIL-125(Ti) as an efficient photocatalyst for selective oxidation of benzylic C H bond under visible light,”
Applied Surface Science, vol. 555, pp. 149732, 2021.
doi:10.1016/j.apsusc.2021.149732
|
[22] |
K. Jiang, L. Zhang, Q. Hu, Y. Yang, W. Lin, Y. Cui, Y. Yang, and G. J. Qian,“A biocompatible Ti-based metal-organic framework for pH responsive drug delivery,”
Materials Letters, vol. 225, no. 8, pp. 142-144, 2018.
|
[23] |
Y. Duan, F. Ye, Y. Huang, Y. Qin, C. He, and S. Zhao,“One-pot synthesis of a metal-organic framework-based drug carrier for intelligent glucose-responsive insulin delivery,”
Chemical Communications, vol. 54, no. 42, pp. 5377-5380, 2018.
doi:10.1039/C8CC02708K
|
[24] |
H. Li, M. M. Sadiq, K. Suzuki, C. Doblin, S. Lim, P. Falcaro, A. Hill, and M. R. J. Hill,“MaLISA – a cooperative method to release adsorbed gases from metal-organic frameworks,”
Journal of Materials Chemistry A, vol. 4, no. 48, pp. 18757-18762, 2016.
doi:10.1039/C6TA09826F
|
[25] |
L. L. Dang, X. J. Zhang, L. Zhang, J. Q. Li, F. Luo, and X. F. Feng,“Photo-responsive azo MOF exhibiting high selectivity for CO
2and xylene isomers,”
Journal of Coordination Chemistry, vol. 69, no. 7, pp. 1179-1187, 2016.
doi:10.1080/00958972.2016.1166359
|
[26] |
J. Park, D. Q. Yuan, K. T. Pham, J. R. Li, and H. C. Zhou, “Reversible alteration of CO
2adsorption upon photochemical or thermal treatment in a metal-organic framework,”
Journal of the American Chemical Society, vol. 134, no. 1, pp. 99-102, 2012.
|
[27] |
I. M. Walton, J. M. Cox, J. A. Coppin, C. M. Linderman, D. G. Patel, and J. B. J. Benedict,“Photo-responsive MOFs: Light-induced switching of porous single crystals containing a photochromic diarylethene,”
Chemical Communications, vol. 49, no. 73, pp. 8012-8014, 2013.
doi:10.1039/c3cc44119a
|
[28] |
H. Agarkar and D. Das,“The photo-switching study of guest 2-(phenylazo)pyridine (PAP) embedded in solid host material MOF-5,”
Journal of Molecular Structure, vol. 1184, pp. 435-442, 2019.
doi:10.1016/j.molstruc.2019.02.059
|
[29] |
Y. Zhou and B. J. Yan,“Ratiometric detection of temperature using responsive dual-emissive MOF hybrids,”
Journal of Materials Chemistry C, vol. 3, no. 36, pp. 9353-9358, 2015.
doi:10.1039/C5TC02004B
|
[30] |
W. Huang, F. Pan, Y. Liu, S. Huang, Y. Li, J. Yong, Y. Li, A. M. Kirillov, and D. J. Wu,“An efficient blue-emissive metal–organic framework (MOF) for lanthanide-encapsulated multicolor and stimuli-responsive luminescence,”
Inorganic Chemistry, vol. 56, no. 11, pp. 6362-6370, 2017.
doi:10.1021/acs.inorgchem.7b00457
|
[31] |
J. Zhang, W. Kosaka, and Y. Kitagawa. “A metal-organic framework that exhibits CO
2-induced transitions between paramagnetism and ferrimagnetism, ”
Nature Chemistry,vol. 13, no. 2, pp. 191-199, 2021.
|
[32] |
L. Jiao, Y. Dong, X. Xin, L. Qin, and H. J. Lv,“Facile integration of Ni-substituted polyoxometalate catalysts into mesoporous light-responsive metal-organic framework for effective photogeneration of hydrogen,”
Applied Catalysis B: Environmental, vol. 291, pp. 120091, 2021.
doi:10.1016/j.apcatb.2021.120091
|
[33] |
J. Liang, F. Mazur, C. Tang, X. A. Ning, and K. Liang,“Peptide-induced super-assembly of biocatalytic metal-organic frameworks for programmed enzyme cascade,”
Chemical Science, vol. 10, no. 34, pp. 7852-7858, 2019.
doi:10.1039/C9SC02021G
|
[34] |
C. Yang, K. Chen, M. Chen, X. Hu, S. Y. Huan, L. Chen, G. Song, and X. B. Zhang,“Nanoscale metal–organic framework based two-photon sensing platform for bioimaging in live tissue,”
Analytical Chemistry, vol. 91, no. 4, pp. 2727-2733, 2019.
doi:10.1021/acs.analchem.8b04405
|
[35] |
C. Guo, S. Xu, A. Anila, and L. Wang,“A pH-responsive nanoprobe for turn-on 19F-magnetic resonance imaging,”
Chemical Communications, vol. 54, no. 70, pp. 9853-9856, 2018.
doi:10.1039/C8CC06129G
|
[36] |
J. Y. Kim, J. Park, J. Ha, M. Jung, and H. J. Oh,“Specific isotope-responsive breathing transition in flexible metal-organic frameworks,”
Journal of the American Chemical Society, vol. 142, no. 31, pp. 13278-13282, 2020.
doi:10.1021/jacs.0c04277
|
[37] |
Y. Yang, X. M. Zhang, J. P. Ma, Q. K. Liu, W. Peng, and Y. B. Dong,“Cu(I)-MOF: Naked-eye colorimetric sensor for humidity and formaldehyde in single-crystal-to-single-crystal fashion,”
Chemical Communications, vol. 50, no. 12, pp. 1444-1446, 2014.
doi:10.1039/C3CC47723A
|
[38] |
A. K. Chaudhari, H. J. Kim, I. Han, and J. Tan,“Optochemically responsive 2D nanosheets of a 3D metal-organic framework material,”
Advanced Materials, vol. 29, no. 27, pp. 1701463, 2017.
doi:10.1002/adma.201701463
|
[39] |
X. M. Du, Q. Wang, Q. Liu, D. Ning, B. Zhao, Y. Li, and W. J. Ruan,“A dual-emissive MOF for the simultaneous detection of tetrachlorobenzoquinone isomers in their mixtures,”
Journal of Materials Chemistry C, vol. 7, no. 28, pp. 8626-8633, 2019.
doi:10.1039/C9TC01941C
|
[40] |
M. C. Canver, E. C. Smith, F. Sher, L. Pinello, N. E. Sanjana, and O. Shalem, “BCL11A enhancer dissection by Cas9-mediated in situ saturating mutagenesis,”
Nature, vol. 527. no. 7577, pp. 192, 2015.
|
[41] |
C. Liu, J. Cui, Y. Wang, and M. J. Zhang, “A new 2D Cu-MOF constructed from carboxylate ligands containing C interactions as a recyclable responsive luminescent sensor for VOCs,”
Dalton Transaction, vol. 50, no. 12, pp. 4124-4128, 2021.
|
[42] |
Y. Liu, C. S. Gong, Y. L. Dai, Z. Yang, G. C. Yu, Y. J. Liu, M. R. Zhang, and L. Lin,“In situ polymerization on nanoscale metal-organic frameworks for enhanced physiological stability and stimulus-responsive intracellular drug delivery,”
Biomaterials, vol. 218, pp. 119365, 2019.
doi:10.1016/j.biomaterials.2019.119365
|