[1] FRANKE R,SELENT D,BORNER A. Applied hydroformylation[J]. Chemical Reviews,2012,112:5675-5732.
[2] SHARMA S K,JASRA R V. Aqueous phase catalysis hydroformylation reactions of alkenes[J]. Catalysis Today,2015,247:70-73.
[3] OBRECHT L,KAMER P C J,LAAN W. Alternative approaches for the aqueous-organic biphasic hydroformylation of higher alkenes[J]. Catalysis Science & Technology,2013,3:541-551.
[4] NEVES A C B,CALVETE M J F,PEREIRA M M,et al. Immobilized catalysts for hydroformylation reactions:a versatile tool for aldehyde synthesis[J]. European Journal of Organic Chemistry,2012(32):6309-6310.
[5] LI X M,DING Y J,JIAO G P,et al.A new concept of tethered ligand-modified Rh/SiO2 catalyst for hydroformylation with high stability[J].Applied Catalysis A:General,2009,353:266-269.
[6] LIU J,YAN L,JIANG M,et al. Effect of lengthening alkyl spacer on hydroformylation performance of tethered-phosphine modified Rh/SiO2 catalyst[J]. Chinese Journal of Catalysis,2016,37:268-271.
[7] LIU J,YAN L,DING Y J,et al. Promoting effect of Al on tethered ligand-modified Rh/SiO2 catalysts for ethylene hydroformylation[J]. Applied Catalysis A:General,2015,492:127-131.
[8] LIU J,YAN L,JIANG M,et al. Effect of metal particle size on the performance of tethered-phosphine modified Rh/SiO2 in hydroformylation[J]. Chemical Journal of Chinese Universities,2016,37(1):114-120.
[9] ARAKAWA H,TAKAHASHI N,HANAOKA T,et al. Effect of Rh dispersion on vapor phase and pressurized hydroformylation of ethylene over Rh/SiO2 catalyst[J].Chemistry Letters,1988,24(11):1917-1918.
[10] SUDHEESH N,PARMAR J N,SHUKLA R S. Hydroformylation of propene heterogeneously catalyzed by HRh(CO)(PPh3)3 encapsulated in to hexagonal mesoporous silica-parametric variation and mass transfer study[J].Applied Catalysis A:General,2012,415/416:124-131.
[11] KHOKHAR M D,SHUKLA R S,JASRA R V. Rh complex encapsulated hexagonal mesoporous silica as an efficient heterogeneous catalyst for the selective hydroformylation of styrene[J]. Reac. Kinet. Mech. Cat.,2015,114:265-277.
[12] WANG X L,DU P,CHI K,et al. Synthesis of Ni Mo catalysts supported on mesoporous silica FDU-12 with different morphologies and their catalytic performance of DBT HDS[J].Catalysis Today,2017,291:146-152.
[13] JEON J K,KOY S Y,IM J H,et al. A selective functionalized mesoporous silica-supported Rh catalyst for effective 1-octene hydroformylation[J]. Nanoscience and Nanotechnology,2013,13:3087-3095.
[14] ZHOU W,LI Y M,HE D H,et al. Substrate influences on activity and stability of SBA-15-Pr-anchored Rh-P complex catalysts for olefin hydroformylation[J]. Applied Catalysis A:General,2010,377:114-120.
[15] AHMED M,SAKTHIVEL A. Covalent grafting of cobalt carbonyl cluster on functionalized mesoporous SBA-15 molecular sieve and its applications towards hydroformylation of 1-octene[J]. Journal of Molecular Catalysis A:Chemical,2016,424:85-90.
[16] BASKARAN T,MAHATO N R,CHRISTOPHER J,et al. Cobalt-nanoparticles supported on mesoporous silica intercalated hydrotalcite prospective catalysts for hydroformylation[J].Advanced Porous Materials,2015,2(3):183-188.
[17] HENRIQUES C A,RODRIGUES F M S,CARRILHO R M B,et al. Reusable MCM-41 immobilized Rh(I) hydroformylation catalysts built on binaphyhtl-based phosphoramidite and phosphite ligands[J]. Current Organic Chemistry,2016,20:1445-1453.
[18] MA Y B,QING S J,YIN D,et al. Rh-based catalysts supported on MCM-41-type mesoporous[J]. Catalysis Today,2015,258:64-69.
[19] 尹铎,马昱博,高志贤,等. 不同载体担载的铑催化剂在双环戊二烯氢甲酰化反应中的对比研究[J]. 天然气化工,2014,39(5):27-29. YIN D,MA Y B,GAO Z X,et al. Rhodium catalysts immobilized on different supports catalyze the dicyclopentadiene hydroformylation[J]. Natural Gas Chemical Industry,2014,39(5):27-29.
[20] JIANG M,DING Y J,YAN L,et al. Rh catalysts supported on knitting aryl network polymers for the hydroformylation of higher olefins[J]. Chinese Journal of Catalysis,2014,35:1456-1464.
[21] LI B Y,GONG R N,WANG W,et al. A new strategy to microporous polymers:knitting rigid aromatic building blocks by external cross-linker[J]. Macromolecules,2011,44(8):2410-2414.
[22] LI B Y,GUAN Z H,WANG W,et al.Highly dispersed Pd catalyst locked in knitting aryl network polymers for suzuki-miyaura coupling reactions of aryl chlorides in aqueous media[J]. Advanced Materials,2012,24(25):3390.
[23] LUO Y L,LI B Y,WANG W,et al.Hypercrosslinked aromatic heterocyclic microporous polymers:a new class of highly selective CO2 capturing materials[J].Advanced Materials,2012,24(42):5703-5707.
[24] ZHANG X M,LU S M,ZHONG M M,et al. Rh-PPh3-polymer@mesosilica composite catalyst for the hydroformylation of 1-octene[J]. Chinese Journal of Catalysis,2015,36:168-174.
[25] SUN Q,JIANG M,SHEN Z J,et al. Porous organic ligands(POLs)for synthesizing highly efficient heterogeneous catalysts[J]. Chemical Communications,2014,50:11844-11846.
[26] JIANG M,YAN L,SUN X P,et al. Effect of different synthetic routes on the performance of propylene hydroformylation over 3V-PPh3 polymer supported Rh catalysts[J].Reac. Kinet. Mech. Cat.,2015,116:223-234.
[27] LI C Y,XIONG K,YAN L,et al. Designing highly efficient Rh/CPOL-bp&PPh3 heterogenous catalysts for hydroformylation of internal and terminal olefins[J].Catalysis Science & Technology,2015,6(7):2143-2149.
[28] SUN Q,DAI Z F,LIU X L,et al. Highly efficient heterogeneous hydroformylation over Rh-metalated porous organic polymers:synergistic effect of high ligand concentration and flexible framework[J]. JACS,2015,137:5204-5209.
[29] LI X G,ZHANG Y,MENG M,et al. Silicalite-1 membrane encapsulated Rh/activated-carbon catalyst for hydroformylation of 1-hexene with high selectivity to normal aldehyde[J].Journal of Membrane Science,2010,347:220-226.
[30] TAN M H,WANG D,AI P P,et al.Enhancing catalytic performance of activated carbon supported Rh catalyst on heterogeneous hydroformylation of 1-hexene via introducing surface oxygen-containing groups[J]. Applied Catalysis A:General,2016,527:53-58.
[31] GANGA V S R,DABBAWALA A A,MUNUSAMY K,et al.Rhodium complexes supported on nanoporous activated carbon for selective hydroformylation of olefins[J].Catalysis Communications,2016,84:21-24.
[32] IONI Y V,LYUBIMOV S E,DAVANKOV V A,et al.Modified grapheme oxide as a support for rhodium nanoparticles active in olefin hydroformylation[J].Russian Chemical Bulletin,2014,63(10):2243-2249.
[33] TAN M H,YANG G H,WANG T J,et al.Active and regioselective rhodium catalyst supported on reduced grapheme oxide for 1-hexene hydroformylation[J].Catalysis Science & Technology,2016,6(4):1162-1171.
[34] ZHAO Q S,LI Y,LIU R,et al.Enhanced hydrogenation of olefins and ketones with a ruthenium complex covalently anchored on grapheme oxide[J].Journal of Materials Chemistry A,2013,1:15039-15045.
[35] SHYLESH S,SCHUNEMANN V,THIEL W R. Magnetically separable nanocatalysts:bridges between homogeneous and heterogeneous catalysis[J]. Angewandte Chemie International Edition,2010,49:3433-3434.
[36] DUANMU C S,WU L L,GU J,et al. Magnetic nanoparticle supported triphenylphosphine ligand for the Rh-catalyzed hydroformylation reaction[J]. Catalysis Communications,2014,48:45-49.
[37] SHAIKH M N,AZIZ M A,HELAL A,et al. Magnetic nanoparticle-supported ferrocenylphosphine:a reusable catalysts for hydroformylation of alkene and Mizoroki-Heck olefination[J].RSC Advances,2016,6:41687-41692.
[38] ABU-REZIQ R,ALPER H,WANG D S,et al. Metal supported on dendronized magnetic nanoparticles:highly selective hydroformylation catalysts[J].JACS,2006,128:5279-5282.
[39] GARCIA M A S,OLIVEIRA K C B,COSTA J C S,et al. Rhodium nanoparticles as precursors for the preparation of an efficient and recyclable hydroformylation catalyst[J]. ChemCatChem,2015,7:1566-1572.
[40] OMAR S,DUTTA B,NATOUR S,et al. Rhodium-complexed hyperbranched poly(ethyleneimine) and polyamidoamine and their non-covalent immobilization on magnetic nanoparticles[J].Journal of Organometallic Chemistry,2016,818:48-53.
[41] MA Y B,QING S J,LI N N,et al.The effect of metal-ligand affinity on Fe3O4-supported Co-Rh catalysts for dicyclopentadiene hydroformylation[J].International Journal of Chemical Kinetics,2015,47(10):1-8.
[41] WANG L,MA Y B,QING S J,et al.Magnetically separable Fe3O4 supported Co-Rh bimetallic catalysts for dicyclopentadiene hydroformylation to value-added fine chemicals[J].Energy and Environment Focus,2015,4:1-6.
[43] 马昱博,高志贤,吾满江,等. Fe3O4负载催化剂上双环戊二烯氢甲酰化[J]. 工业催化,2013,21(9):64-65. MA Y B,GAO Z X,WU M J,et al.Hydroformylation of dicyclopentadiene on Fe3O4 based catalysts[J].Industrial Catalysis,2013,21(9):64-65.
[44] YANG X F,WANG A Q,QIAO B T,et al.Single-atom catalysts:a new frontier in heterogeneous catalysis[J]. Accounts of Chemical Research,2013,46(8):1740-1745.
[45] LI C Y,YAN L,LU L L,et al.Single atom dispersed Rh-biphephos&PPh3@porous organic copolymers:highly efficient catalysts for continuous fixed-bed hydroformylation of propene[J]. Green Chemistry,2016,18:2995-3005.
[46] LANG R,LI T B,MATSUMURA D,et al.Hydroformylation of olefins by a rhodium single-atom catalyst with activity comparable to RhCl(PPh3)3[J]. Angewandte Chemie International Edition,2016,55:1-6.
[47] WANG L B,ZHANG W B,WANG S P,et al.Atomic-level insights in optimizing reaction paths for hydroformylation reaction over Rh/CoO single-atom catalyst[J].Nature Communications,2016,7:1-6. |