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- Solid-phase synthesis for thalidomide-based proteolysis-targeting chimeras (PROTAC). S. Krajcovicova, R. Jorda, D. Hendrychova, V. Krystof, M. Soural
, Chem. Commun.
, 2019
, 55
, 929
- Two-photon ESIPT-based fluorescent probe using 4-hydroxyisoindoline-1,3-dione for the detection of peroxynitrite. Luling Wu, Xue Tian, Dong Joon Lee, Juyoung Yoon, Chang Su Lim, Hwan Myung Kim, Tony D. James
, Chem. Commun.
, 2021
, 57
, 11084
- Postsynthetic modification of metal–organic frameworks—a progress report. Kristine K. Tanabe, Seth M. Cohen
, Chem. Soc. Rev.
, 2011
, 40
, 498
- Computational approaches for the prediction of the selective uptake of magnetofluorescent nanoparticles into human cells. E. Papa, J. P. Doucet, A. Doucet-Panaye
, RSC Adv.
, 2016
, 6
, 68806
- Intramolecular catalysis of phosphate triester hydrolysis. Nucleophilic catalysis by the neighbouring carboxy-group of the hydrolysis of diaryl 2-carboxyphenyl phosphates. R. H. Bromilow, S. A. Khan, A. J. Kirby
, J. Chem. Soc., Perkin Trans. 2
, 1972
, 911
- A mitochondrion-targeted fluorescent probe based on ESIPT phthalimide for the detection of Hg2+ with large Stokes shift. Aishan Ren, Wenqin Yao, Dongjian Zhu
, Analyst
, 2023
, 148
, 5882
- Strategies for the application of metal–organic frameworks in catalytic reactions. Fei Gao, Runhan Yan, Yao Shu, Qingbin Cao, Li Zhang
, RSC Adv.
, 2022
, 12
, 10114
- Ultrahigh porosity in mesoporous MOFs: promises and limitations. Irena Senkovska, Stefan Kaskel
, Chem. Commun.
, 2014
, 50
, 7089
- Mesoporous metal–organic framework materials. Weimin Xuan, Chengfeng Zhu, Yan Liu, Yong Cui
, Chem. Soc. Rev.
, 2012
, 41
, 1677
- Mixed-component metal–organic frameworks (MC-MOFs): enhancing functionality through solid solution formation and surface modifications. Andrew D. Burrows
, CrystEngComm
, 2011
, 13
, 3623