Page 26 - 《精细化工》2021年第1期
P. 26
·16· 精细化工 FINE CHEMICALS 第 38 卷
epoxidation with H 2O 2 over titanium silicalite-1: Effects of zeolite [29] GUO J W (郭建维), LIU S (刘卅), WANG L F (王乐夫), et al.
confinement and solvent[J]. Journal of Physical Chemistry B, 2019, Surface modification and regeneration of TS-1 molecular sieves[J].
123(34): 7410-7423. Chinese Journal of Materials Research (材料研究学报), 2007, (3):
[12] CLERICI M G, INGALLINA P. Epoxidation of lower olefins with 272-276.
hydrogen peroxide and titanium silicalite[J]. Cheminform, 1993, [30] ZUO Y (左轶), LIU M (刘民), JIANG H Y (姜海英), et al.
140(1): 71-83. Epoxidation of 1-butene over tetrapropylammonium hydroxide treated
[13] NIE X W, JI X J, CHEN Y G, et al. Mechanistic investigation of TS-1[J]. Acta Petrolei Sinica (Petroleum Processing Section) (石油
propylene epoxidation with H 2O 2 over TS-1: Active site formation, 学报), 2015, 31(3): 611-616.
intermediate identification, and oxygen transfer pathway[J]. Molecular [31] TSAI S T, CHAO P Y, TSAI T C, et al. Effects of pore structure of
Catalysis, 2017, 441(11): 150-167. post-treated TS-1 on phenol hydroxylation[J]. Catalysis Today, 2009,
[14] THIELE G F, ROLAND E. Propylene epoxidation with hydrogen 148(1/2): 174-178.
peroxide and titanium silicalite catalyst: Activity, deactivation and [32] LIU N, GUO H C, WANG X S, et al. Increasing the propylene
regeneration of the catalyst[J]. Molecular Catalysis, 1997, 117(1): epoxidation activity of TS-1 catalysts by hydrothermal treatment of
351-356. ammonia solution[J]. Reaction Kinetics & Catalysis Letters, 2005,
[15] WU L Z, ZHAO S F, LIN L F, et al. In-depth understanding of acid 87(1): 77-83.
catalysis of solvolysis of propene oxide over titanosilicates and [33] XU J, WANG Y Q, FENG W P, et al. Effect of triethylamine treatment
titanosilicate/H 2O 2 systems[J]. Journal of Catalysis, 2016, 337(5): of titanium silicalite-1 on propylene epoxidation[J]. Frontiers of
248-259. Chemical Science and Engineering, 2014, 8(4): 478-487.
[16] SIGNORILE M, CROCERRA V, DAMIN A, et al. Effect of Ti [34] WANG Y Q (王亚权), LIN Y J (林永杰), LIU W (刘伟), et al. Effect
speciation on catalytic performance of TS-1 in the hydrogen peroxide of TS-1 treatment by tetrapropyl ammonium hydroxideon 1-hexene
to propylene oxide reaction[J]. The Journal of Physical Chemistry C, epoxidation[J]. Journal of Tianjin University (Science and Technology)
2018, 122(16): 9021-9034. (天津大学学报:自然科学与工程技术版), 2017, 50(1): 65-70.
[17] JIAO J, SHEN B, ZHAO J. Exploration research on high selectivity [35] XIONG G, HU D, GUO Z D, et al. An efficient titanium silicalite-1
of propylene epoxidation over TS-1 catalyst[J]. Energy Sources, Part
catalyst for propylene epoxidation synthesized by a combination of
A: Recovery, Utilization, and Environmental Effects, 2011, 33(12): aerosol-assisted hydrothermal synthesis and recrystallization[J].
1147-1154. Microporous and Mesoporous Materials, 2018, 268: 93-99.
[18] LIU X Y, LIU J, XIA Y, et al. Catalytic performance of TS-1 in [36] HAN Z Z, SHEN Y, QIN X F, et al. Synthesis of hierarchical titanium-
oxidative cleavage of 1-alkenes with H 2O 2[J]. Catalysis Communications, rich titanium silicalite-1 zeolites and the highly efficient catalytic
2019, 126: 40-43.
performance for hydroxylation of phenol[J]. Chemistry Select, 2019,
[19] WANG X S, GUO X W, LI G. Synthesis of titanium silicalite (TS-1) 4(5): 1618-1626.
from the TPABr system and its catalytic properties for epoxidation of [37] GUO H C (郭洪臣), MIAO C L (苗翠兰), ZHU Q R (祝全仁). Alkali
propylene[J]. Catalysis Today, 2002, 74(1/2): 65-75. metal ion modified TS-1 (titanium silicalite) molecular sieve for gas
[20] MA S Q (马书启), LI G (李钢), WANG X S (王祥生). The effect of phase epoxidation reaction of propylene and hydrogen peroxide and
solvent and acid-base on 1-butylene epoxidation catalyzed by titanium
preparation method of alkali metal ion modified TS-1 molecular
silicalite[J]. Journal of Molecular Catalysis (分子催化), 2005, 19(1): sieve: CN110180586A[P]. 2019-08-30.
7-11. [38] MIAO C L, ZHU Q R, YI Y H, et al. Gas-phase epoxidation of
[21] SONG W C (宋万仓), XIONG G (熊光), ZANG J Z (臧甲忠), et al. propylene with hydrogen peroxide vapor: Effect of modification
Effect of basic additive in feedstock on propylene epoxidation catalyzed with NaOH on TS-1 titanosilicate catalyst in the presence of tetra-
by TS-1/H 2O 2[J]. Chemical Industry and Engineering Progress (化工
propylammonium bromide[J]. Industrial & Engineering Chemistry
进展), 2020, 39(3): 1021-1028.
[22] DENG X J, ZHANG S, WANG B S, et al. Enhanced catalytic activity Research, 2019, 58(27): 11739-11749.
of titanosilicates controlled by hydrogen-bonding interactions[J]. [39] WANG B R, LIN M, PENG X X, et al. Hierarchical TS-1 synthesized
Chemical Communications Royal Society of Chemistry, 2013, 49(68): effectively by post-modification with TPAOH and ammonium
7504-7506. hydroxide[J]. RSC Advances, 2016, 6(51): 44963-4497.
[40] WANG Y Q, LI H Y, LIU W, et al. Effect of TS-1 treatment by
[23] ZHANG T J, CHEN X X, CHEN G R, et al. Synthesis of anatase-
free nano-sized hierarchical TS-1 zeolites and their excellent catalytic mixed alkaline on propylene epoxidation[J]. Translation of Tianjin
performance in alkene epoxidation[J]. Journal of Materials Chemistry University, 2018, 24(1): 25-31.
A, 2018, 6(20): 9473-9479. [41] DU C L, CUI N, LI L H, et al. A large-surface-area TS-1 nanocatalyst:
[24] ZHU Q R, LIU H W, MIAO C L, et al. Grafting Ti sites on defective A combination of nanoscale particle sizes and hierarchical micro/
mesoporous structures[J]. RSC Advances, 2019, 9(17): 9694-9699.
silicalite-1 via TiCl 4 chemical vapor deposition for gas-phase
epoxidation of propylene and H 2O 2 vapor[J]. Industrial & Engineering [42] WEI Y, LI G, SU R M, et al. Ti-sites environment-mediated hierarchical
Chemistry Research, 2020, 59(7): 2828-2838. TS-1 catalyzing the solvent-free epoxidation: The remarkably promoting
[25] GUO X W (郭新闻), LIU M (刘民), WANG X S (王祥生), et al. role of alcohol modification[J]. Applied Catalysis A, General, 2019,
Effect of pretreatment methods on catalytic performance of titanium 582: 117108.
silicalite-1[J]. Chinese Journal of Catalysis (催化学报), 2001, 22(4): [43] LV G J, WANG F M, ZHANG X B, et al. Surface-active hollow
370-372. titanosilicate particles as a pickering interfacial catalyst for liquid-
[26] LI Y X, FAN Q, LI Y C, et al. Seed-assisted synthesis of hierarchical phase alkene epoxidation reactions[J]. Langmuir, 2017, 31(1): 302-
nanosized TS-1 in a low-cost system for propylene epoxidation with 310.
H 2O 2[J]. Applied Surface Science, 2019, 483: 652-660. [44] ANWANDER R, PALM C, STELZER J, et al. Silazane-silylation of
[27] NUR H, PRASETYOKO D, RAMLI Z, et al. Sulfation: A simple mesoporous silicates: Towards tailor-made support materials[J]. Journal
method to enhance the catalytic activity of TS-1 in epoxidation of of Catalysis, 1998, 117(135): 135-142.
1-octene with aqueous hydrogen peroxide[J]. Catalysis Communications, [45] ZHOU W (周炜), MENG F L (孟凡磊), XU Q H (须沁华), et al.
2004, 5(12): 725-728. Preparation of amphiphilic TS-1 zeolites and their phase-boundary
[28] XIONG G, JIA Q Y, CAO Y Y, et al. The effect of acid treatment on catalysis[J]. Acta Chimica Sinica (化学学报), 2004, 62(15): 1425-
the active sites and reaction intermediates of the low-cost TS-1 in 1429.
propylene epoxidation[J]. RSC Advances, 2017, 7(39): 24046-24054. (下转第 168 页)