Computational Methods in Organometallic Catalysis. Yu LanЧитать онлайн книгу.
Society Reviews 44: 8848–8858.
6 6 Barboiu, M. and Gilles, A. (2013). From natural to bioassisted and biomimetic artificial water channel systems. Accounts of Chemical Research 46: 2814–2823.
7 7 Patel, M., Saunthwal, R.K., Verma, A.K. et al. (2017). Base‐mediated hydroamination of alkynes. Accounts of Chemical Research 50: 240–254.
8 8 Golder, M.R. and Jasti, R. (2015). Syntheses of the smallest carbon nanohoops and the emergence of unique physical phenomena. Accounts of Chemical Research 48: 557–566.
9 9 Kolb, H.C., Finn, M.G., Sharpless, K.B. et al. (2001). Click chemistry: diverse chemical function from a few good reactions. Angewandte Chemie International Edition 40: 2004–2021.
10 10 Mosesa, J.E. and Moorhousea, A.D. (2007). The growing applications of click chemistry. Chemical Society Reviews 36: 1249–1262.
11 11 Devaraj, N.D. and Weissleder, R. (2011). Biomedical applications of tetrazine cycloadditions. Accounts of Chemical Research 44: 816–827.
12 12 Hu, R., Leung, N.L.C., Zhong, B. et al. (2014). AIE macromolecules: syntheses, structures and functionalities. Chemical Society Reviews 43: 4494–4562.
13 13 Luo, Z., Yuan, X., Yu, Y. et al. (2012). From aggregation‐induced emission of Au(I)–thiolate complexes to ultrabright Au(0)@Au(I)–thiolate core–shell nanoclusters. Journal of the American Chemistry Society 134: 16662–16670.
14 14 Dreyer, D.R., Park, S., Bielawski, C.W. et al. (2010). The chemistry of graphene oxide. Chemical Society Reviews 1: 228–240.
15 15 Zou, X. and Zhang, Y. (2015). Noble metal‐free hydrogen evolution catalysts for water splitting. Chemical Society Reviews 44: 5148–5158.
16 16 Lee, Y.H., Zhang, X.Q., Zhang, W. et al. (2012). Synthesis of large‐area MoS2 atomic layers with chemical vapor deposition. Advanced Materials 24: 2320–2325.
17 17 König, H.M. and Kilbinger, A.F. (2007). Learning from nature: β‐sheet‐mimicking copolymers get organized. Angewandte Chemie International Edition 46: 8334–8340.
18 18 Biernacki, J.J., Bullard, J.W., Sant, G. et al. (2017). Cements in the 21st century: challenges, perspectives, and opportunities. Journal of the American Chemistry Society 100 (7): 2746–2773.
19 19 Long, N.J. and Williams, C.K. (2003). Metal alkynyl sigma complexes: synthesis and materials. Angewandte Chemie International Edition 42: 2586–2617.
20 20 Palacci, J., Sacanna, S., and Steinberg, A.P. (2013). Living crystals of light‐activated colloidal surfers. Science 339: 6122.
21 21 Lutolf, M.P. and Hubbell, J.A. (2005). Synthetic biomaterials as instructive extracellular microenvironments for morphogenesis in tissue engineering. Nature Biotechnology 23: 47–55.
22 22 James, S.L. (2003). Metal–organic frameworks. Chemical Society Reviews 32: 276–288.
23 23 Hollister, S.J. (2005). Porous scaffold design for tissue engineering. Nature Materials 4: 518–524.
24 24 Hoyle, C.E. and Bowman, C.N. (2010). Thiol–ene click chemistry. Angewandte Chemie International Edition 49: 1540–1573.
25 25 Tan, C., Cao, X., and Wu, X. (2017). Recent advances in ultrathin two‐dimensional nanomaterials. Chemical Reviews 117: 6225–6331.
26 26 Larcher, D. and Tarascon, J.M. (2015). Towards greener and more sustainable batteries for electrical energy storage. Nature Chemistry 7: 19–29.
27 27 Ghidiu, M., Lukatskaya, M.R., Zhao, M.Q. et al. (2014). Conductive two‐dimensional titanium carbide ‘clay’ with high volumetric capacitance. Nature 516: 78.
28 28 Cheng, F., Shen, J., Peng, B. et al. (2011). Rapid room‐temperature synthesis of nanocrystalline spinels as oxygen reduction and evolution electrocatalysts. Nature Chemistry 3: 79–84.
29 29 Duncan, R. (2003). The dawning era of polymer therapeutics. Nature Reviews Drug Discovery 2: 347–360.
30 30 Cho, S.H., Kim, J.Y., Kwak, J. et al. (2011). Recent advances in the transition metal‐catalyzed twofold oxidative C—H bond activation strategy for C—C and C—N bond formation. Chemical Society Reviews 40: 5038–5083.
31 31 Seregina, I.V. and Gevorgyan, V. (2007). Direct transition metal‐catalyzed functionalization of heteroaromatic compounds. Chemical Society Reviews 36: 1173–1193.
32 32 Fischbach, M.A. and Walsh, C.T. (2009). Antibiotics for emerging pathogens. Science 325: 1089–1093.
33 33 Shimizu, M. and Hiyama, T. (2005). Modern synthetic methods for fluorine‐substituted target molecules. Angewandte Chemie International Edition 44: 214–231.
34 34 Sun, J.Y., Zhao, X., Illeperuma, W.R.K. et al. (2012). Highly stretchable and tough hydrogels. Nature 489: 133–136.
35 35 Nugent, P., Belmabkhout, Y., Burd, S.D. et al. (2013). Porous materials with optimal adsorption thermodynamics and kinetics for CO2 separation. Nature 495: 80–84.
36 36 Cortright, R.D., Davda, R.R., Dumesic, J.A. et al. (2002). Hydrogen from catalytic reforming of biomass‐derived hydrocarbons in liquid water. Nature 418: 964–967.
37 37 Hu, B., Wang, K., and Wu, L. (2010). Engineering carbon materials from the hydrothermal carbonization process of biomass. Advanced Materials 22: 813–828.
38 38 Hirst, A.R., Escuder, B., Miravet, J.F. et al. (2008). High‐tech applications of self‐assembling supramolecular nanostructured gel‐phase materials: from regenerative medicine to electronic devices. Angewandte Chemie International Edition 47: 8002–8018.
39 39 Li, L., Wu, G., Yang, G. et al. (2013). Focusing on luminescent graphene quantum dots: current status and future perspectives. Nanoscale 5: 4015–4039.
40 40 Katz, H.E., Bao, Z., Gilat, S. et al. (2001). Synthetic chemistry for ultrapure, processable, and high‐mobility organic transistor semiconductors. Accounts of Chemical Research 34: 359–369.
41 41 Pron, A. and Rannou, P. (2002). Processible conjugated polymers: from organic semiconductors to organic metals and superconductors. Progress in Polymer Science 27: 135–190.
42 42 Furukawa, H., Cordova, K.E., O'Keeffe, M. et al. (2013). The chemistry and applications of metal–organic frameworks. Science 341: 974.
43 43 Burke, M.D. and Schreiber, S.L. (2004). A planning strategy for diversity‐oriented synthesis. Angewandte Chemie International Edition 43: 46–58.
44 44 Jiang, H., Taranekar, P., Reynolds, J.R. et al. (2009). Conjugated polyelectrolytes: synthesis, photophysics, and applications. Angewandte Chemie International Edition 48: 4300–4316.
45 45 Salonen, M.S.L.M., Ellermann, M., Diederich, F. et al. (2011). Aromatic rings in chemical and biological recognition: energetics and structures. Angewandte Chemie International Edition 50: 4808–4842.
46 46 Khodagholy, D., Rivnay, J., Sessolo, M. et al. (2013). High transconductance organic electrochemical transistors. Nature Communication 2013 (4): 2133.
47 47 Yu, J., Shi, F., Gong, L.Z. et al. (2011). Bronsted‐acid‐catalyzed asymmetric multicomponent reactions for the facile synthesis of highly enantioenriched structurally diverse nitrogenous heterocycles. Accounts of Chemical Research 2011 (44): 1156–1171.
48 48 Moonen, K., Laureyn, I., Stevens, C.V. et al. (2014). Synthetic methods for azaheterocyclic phosphonates and their biological activity. Chemical Reviews 104: 6177–6215.
49 49 Bartoli, G., Bencivennia, G., Dalpozzob, R. et al. (2010). Organocatalytic strategies for the asymmetric functionalization of indoles. Chemical Society Reviews 39: 4449–4465.
50 50 Qin, Y., Zhu, L., Luo, S. et al. (2017). Organocatalysis in inert C—H bond functionalization. Chemical Reviews 107: 9433–9520.
51 51 Shi, W., Liu, C., Lei, A. et al. (2011). Transition‐metal catalyzed oxidative cross‐coupling reactions to form C—C bonds involving organometallic reagents as nucleophiles. Chemical Society Reviews 2011 (40): 2761.
52 52 Liu, C., Zhang,