90. [IF=8.5] Ting-Ting Chen et al."Enhancement of gel characteristics of curdlan thermo-irreversible gels by β-cyclodextrin and its possible mechanisms."FOOD CHEMISTRY.2025 Mar;467:142320 89. [IF=7.7] Jiage Ma et al."Electrospray whey protein-polysaccharide microcapsules co-encapsulating Lactiplantibacillus plantarum and EGCG: Enhanced probiotic viability and antioxidant activity."INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES.2025 Feb;290:138734 88. [IF=8.5] Guijing Li et al."Optimization and characterization of apple essence microencapsulation utilizing β-cyclodextrin/gum arabic/montmorillonite for fresh-cut apple preservation."FOOD CHEMISTRY.2025 Apr;470:142732 87. [IF=2.6] Shili Pan et al."Formation and stabilization mechanism of Ginsenoside Rg3 inclusion complexes based on molecular simulation."PHARMACEUTICAL DEVELOPMENT AND TECHNOLOGY. 86. [IF=10.7] Rui Zhao et al."Tanshinone IIA@β-cyclodextrin encapsulated with Eucommia ulmoides rubber/acetylated starch film as novel oral delivery system for therapy of orthotopic colon cancer."CARBOHYDRATE POLYMERS.2025 Apr;353:123295 85. [IF=5.6] Chao Zhang et al."Cyclodextrin inclusion complex enhances solubility and antimicrobial activity of chlortetracycline hydrochloride."TALANTA.2025 Mar;:127977 84. [IF=6] Chen Chen et al."Encapsulation of Lacticaseibacillus casei TCS using a Pickering water-in-oil-in-water double emulsion to preserve bacterial viability and aroma characteristics in yogurt."LWT-FOOD SCIENCE AND TECHNOLOGY.2025 Apr;:117740 83. [IF=8.5] Fei Hu et al."Sodium alginate hydrogel beads loaded with clove essential oil liposomes: Preparation, characterization and fumigant activity."FOOD CHEMISTRY.2025 Aug;483:144240 82. [IF=2.7] Gang Wei et al."Microencapsulation of flavored liquor by spray drying: Optimization using response surface methodology and genetic algorithm-based support vector regression."DRYING TECHNOLOGY. 81. [IF=1.4] Yan Y. T. et al."Self-Assembling Ceramide 2-Cyclodextrin Inclusion Nanoparticles for Corneal Repair."COLLOID JOURNAL.2024 Aug;86(4):644-654 80. [IF=5.7] Hui Bai et al."Stereoisomeric separation and chiral recognition mechanism study of star cyclodextrin polymer as the chiral stationary phase."ANALYTICA CHIMICA ACTA.2024 Nov;1329:343249 79. [IF=7.7] Kunpeng Xiao et al."Study on color and flavor changes of 4D printed white mushroom gel with microcapsules containing gelatin / β-cyclodextrin induced by microwave heating."INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES.2024 Nov;279:135365 78. [IF=9.7] Ting Yao et al."Preparation of β-cyclodextrin-reduced graphene oxide aerogel and its application for adsorption of herbicides."Journal of Cleaner Production.2024 Aug;468:143109 77. [IF=7.7] Meiling Fu et al."Adsorption performance and mechanism of pectin modified with β-cyclodextrin for Zn2+ and Cu2+."INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES.2024 Aug;274:133563 76. [IF=5.2] Zhenyu Luo et al."Enhancing Fresh-Cut Apple Preservation: Impact of Slightly Acidic Electrolyzed Water and Chitosan–Apple Essence Microencapsulation Coating on Browning and Flavor."Foods".2024 Jan;13(10):1585 75. [IF=4.1] Qing Wang et al."Preparation of a β-cyclodextrin grafted magnetic biochar for efficient extraction of four antiepileptic drugs in plasma samples."JOURNAL OF CHROMATOGRAPHY A".2024 Apr;:464893 74. [IF=6] Zhuyang Jiang et al."Lignocellulosic hydrogel for profile control and water plugging in high salt reservoirs."JOURNAL OF MOLECULAR LIQUIDS".2024 May;401:124707 73. [IF=6] Yachao Tian et al."Development of soy protein isolate-based orally disintegrating film: Improvement of disintegration speed, mechanical properties, and thermal stability by β-Cyclodextrin."LWT-FOOD SCIENCE AND TECHNOLOGY".2024 Apr;198:116037 72. [IF=8.8] Liangzhi Qiao et al."Rigid crosslink improves the surface area and porosity of β-cyclodextrin beads for enhanced adsorption of flavonoids."FOOD CHEMISTRY.2024 May;439:138081 71. [IF=6] Ya Liu et al."Effect of tea-polyphenol/β-cyclodextrin/NaCl inclusion complexes as a salt substitute on quality of low-salt Sichuan-style sausages."LWT-FOOD SCIENCE AND TECHNOLOGY.2023 Oct;188:115328 70. [IF=8.2] Jiaxin Li et al."Dual-function β-cyclodextrin/starch-based intelligent film with reversible responsiveness and sustained bacteriostat-releasing for food preservation and monitoring."INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES.10.1016/j.ijbiomac.2023 69. [IF=8.8] Jingang He et al."Difference in the complexation of cholesterol with β-cyclodextrin derivatives: A combined theoretical and experimental study."FOOD CHEMISTRY.10.1016/j.foodchem.2023.137459 68. [IF=3] Lixuan Zhang et al."Fabrication of mixed-mode amphoteric β-cyclodextrin polymer for the simultaneous extraction of acidic and alkaline drugs."JOURNAL OF CHROMATOGRAPHY B-ANALYTICAL TECHNOLOGIES IN THE BIOMEDICAL AND LIFE SCIENCES.2023 Aug;1228:123833 67. [IF=5.518] Zhu-yang Jiang et al."A Thermally Induced β-Cyclodextrin/Benzene Derivatives Gel and the Potential Application in Fracturing Temporary Plugging."COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS.2023 May;:131738 66. [IF=6.633] Liuqiang Ai et al."Acrylamide preformed particle gels with movable-crosslinking for conformance control."JOURNAL OF MOLECULAR LIQUIDS.2023 May;:122217 65. [IF=5.561] Qing Li et al."Microencapsulation with Different Starch-Based Polymers for Improving Oxidative Stability of Cold-Pressed Hickory (Carya cathayensis Sarg.) Oil."Foods.2023 Jan;12(5):953 64. [IF=1.754] Ou, Minrui et al."Adsorption of uranium(VI) with a novel AMPS-modified thermostable β-cyclodextrin biosorbent."JOURNAL OF RADIOANALYTICAL AND NUCLEAR CHEMISTRY.2023 Jan;332(1):23-32 63. [IF=5.561] Shuang Jia et al."Comparison of Inhibitory Effects of Cinnamic Acid, β-Cyclodextrin, L-Cysteine, and Ascorbic Acid on Soluble and Membrane-Bound Polyphenol Oxidase in Peach Fruit."Foods.2023 Jan;12(1):167 62. [IF=8.025] Minrui Ou et al."β-Cyclodextrin and diatomite immobilized in sodium alginate biosorbent for selective uranium(VI) adsorption in aqueous solution."INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES.2022 Oct;: 61. [IF=2.602] ZHOU Wei et al."Preparation and characterization of an oridonin and γ-cyclodextrin complex."Food Science and Technology.2022 Aug;42: 60. [IF=9.147] Yunxiang Dai et al."Interaction mechanism of cholesterol/β-cyclodextrin complexation by combined experimental and computational approaches."Food Hydrocolloid. 2022 Sep;130:107725 59. [IF=7.514] Rui Liu et al."Host-guest interactions between oleic acid and β-cyclodextrin: A combined experimental and theoretical study."Food Chem. 2022 Sep;387:132910 58. [IF=10.998] Shaoyi Cen et al."4D printing of a citrus pectin/β-CD Pickering emulsion: A study on temperature induced color transformation."Additive Manufacturing. 2022 Aug;56:102925 57. [IF=9.381] Ziyang Jia et al."Effect of β-cyclodextrins on the physical properties and anti-staling mechanisms of corn starch gels during storage."Carbohyd Polym. 2022 May;284:119187 56. [IF=6.558] Yuanqing Luo et al."Pd nanoparticles decorated thiol-functionalized MOF as an efficient matrix for differentiation and quantitation of oligosaccharide isomers by laser desorption/ionization mass spectrometry."Anal Chim Acta. 2022 Apr;1202:339665 55. [IF=1.633] Yu Xuan et al."Evaluation of biosafety/biocompatibility of calixpyridinium on different cell lines."J Incl Phenom Macro. 2021 Feb;99(1):109-115 54. [IF=1.633] Wan Hui-da et al."Isosteviol preparation and inclusion complexation of it with γ-cyclodextrin."J Incl Phenom Macro. 2019 Jun;94(1):65-73 53. [IF=3.119] Zhenzhen Ren et al."Construction of a water-soluble and photostable rubropunctatin/β-cyclodextrin drug carrier."Rsc Adv. 2019 Apr;9(20):11396-11405 52. [IF=4.411] Dongmei Ke et al."Preparation and Characterization of Octenyl Succinate β-Cyclodextrin and Vitamin E Inclusion Complex and Its Application in Emulsion."Molecules. 2020 Jan;25(3):654 51. [IF=4.464] Zhuo Ye et al."Simultaneous detection of bisphenol A and bisphenol S with high sensitivity based on a new electrochemical sensor."J Electroanal Chem. 2019 Dec;854:113541 50. [IF=4.539] Fan Ye et al."Carbon nanotubes grafted with β-cyclodextrin by an ultrasonication method and its demulsification performance in oily wastewater."Colloid Surface A. 2020 Sep;600:124939 49. [IF=4.952] Zhongbo Liu et al."Fabrication and characterization of food-grade Pickering high internal emulsions stabilized with β-cyclodextrin."Lwt Food Sci Technol. 2020 Dec;134:110134 48. [IF=5.279] Hui Niu et al."Preparation and Characterization of a Modified-β-Cyclodextrin/β-Carotene Inclusion Complex and Its Application in Pickering Emulsions."J Agr Food Chem. 2019;67(46):12875–12884 47. [IF=5.537] Qiang Yue et al."Optimized preparation of tea tree oil complexation and their antifungal activity against Botrytis cinerea."Postharvest Biol Tec. 2020 Apr;162:111114 46. [IF=5.923] Dongxu Han et al."Solubility Enhancement of Myricetin by Inclusion Complexation with Heptakis-O-(2-Hydroxypropyl)-β-Cyclodextrin: A Joint Experimental and Theoretical Study."Int J Mol Sci. 2020 Jan;21(3):766 45. [IF=6.064] Wang Yu et al."β-Cyclodextrin-based poly(ionic liquids) membranes enable the efficient separation of the amino acids mixture."J Ind Eng Chem. 2021 Nov;103:322 44. [IF=6.165] Shaoping Ma et al."Deep-eutectic solvents simultaneously used as the phase-forming components and chiral selectors for enantioselective liquid-liquid extraction of tryptophan enantiomers."J Mol Liq. 2020 Dec;319:114106 43. [IF=6.953] Zhongbo Liu et al."Fabrication of food-grade Pickering high internal phase emulsions stabilized by the mixture of β-cyclodextrin and sugar beet pectin."Int J Biol Macromol. 2021 Jul;182:252 42. [IF=9.147] Yanping Wu et al."A deep insight into mechanism for inclusion of 2R,3R-dihydromyricetin with cyclodextrins and the effect of complexation on antioxidant and lipid-lowering activities."Food Hydrocolloid. 2020 Jun;103:105718 41. [IF=1.633] Wan Hui-da et al."Enzymatic production of steviol using a commercial β-glucosidase and preparation of its inclusion complex with γ-CD."J Incl Phenom Macro. 2019 Apr;93(3):193-201 40. [IF=4.24] Hui-da Wan et al."Preparation, characterization and evaluation of an inclusion complex of steviolbioside with γ-cyclodextrin."Food Biosci. 2018 Dec;26:65 39. [IF=4.384] Chao Chen et al."Ratiometric co-delivery of multiple chemodrugs in a single nanocarrier."Eur J Pharm Sci. 2017 Sep;107:16 38. [IF=4.759] Xingyun Zhao et al."Facile one-pot synthesized hydrothermal carbon from cyclodextrin: A stationary phase for hydrophilic interaction liquid chromatography."J Chromatogr A. 2019 Jan;1585:144 37. [IF=9.381] Qiuna Zhou et al."Preparation and characterization of inclusion complexes formed between baicalein and cyclodextrins."Carbohyd Polym. 2013 Jun;95:733 36. Liu, Zhongbo, et al. "Fabrication and characterization of food-grade Pickering high internal emulsions stabilized with β-cyclodextrin." LWT 134 (2020): 110134.https://doi.org/10.1016/j.lwt.2020.110134 35. Xu, Yongxia, et al. "Effects of lysozyme combined with cinnamaldehyde on storage quality of olive flounder (Paralichthys olivaceus) fillets." Journal of food science 85.4 (2020): 1037-1044.https://doi.org/10.1111/1750-3841.14980 34. Qiang Yue, Xingfeng Shao, Yingying Wei, Shu Jiang, Feng Xu, Hongfei Wang, Haiyan Gao, Optimized preparation of tea tree oil complexation and their antifungal activity against Botrytis cinerea, Postharvest Biology and Technology, Volume 162, 2020, 111114, I 33. 劉忠博. 基于環(huán)糊精的食品級(jí)Pickering乳液構(gòu)建[D].河南科技學(xué)院,2021. 32. 梁浩,錢(qián)璽丞,杜曉靜,郁建生.白屈菜紅堿β-環(huán)糊精包合物的制備工藝研究[J].黑龍江畜牧獸醫(yī),2020(15):131-134+176. 31. 梁浩,錢(qián)璽丞,杜曉靜,郁建生.響應(yīng)面優(yōu)化血根堿β-環(huán)糊精包合物的制備工藝[J].天津農(nóng)業(yè)科學(xué),2021,27(02):1-5. 30. 薛雅茹.馬鮫魚(yú)內(nèi)臟抗氧化肽口服液的研制[J].黎明職業(yè)大學(xué)學(xué)報(bào),2020(03):76-85. 29. 戰(zhàn)旭梅,劉萍,祁興普,張瑤.β-環(huán)糊精包埋對(duì)玉米活性肽脫苦效果的工藝研究[J].食品科技,2020,45(10):253-260. 28. 愛(ài)迪. 漆酶-介體體系催化芳基伯醇直接氧化為羧酸的研究[D].華南理工大學(xué),2020. 27. 姜興粲,李冰,楊敏,張繼瑜.沙拉沙星/β-環(huán)糊精包合物微囊的特性分析[J].畜牧獸醫(yī)學(xué)報(bào),2020,51(08):1993-2002. 26. 韓東旭,李天樂(lè),苗瑞丹,王瑤,劉麗艷,于湛.七-(2,6-二甲基)-β-環(huán)糊精對(duì)木犀草素的增溶研究[J].中國(guó)現(xiàn)代應(yīng)用藥學(xué),2020,37(22):2747-2751. 25. 楊擋,封亮,劉俊,趙菁,李超,朱法根,邵建國(guó),賈曉斌,孫娥.基于物料性質(zhì)表征技術(shù)的蒲地藍(lán)消炎口服液兒童用藥順應(yīng)性改善研究[J].世界中醫(yī)藥,2020,15(15):2221-2227. 24. 姜建明,梁達(dá)星,李設(shè)橋.基于陽(yáng)離子β-環(huán)糊精的膽紅素吸附劑的制備與性能研究[J].廣東化工,2020,47(18):76-78+85. 23. 王章姐, 施伶俐, 華芳,等. 星點(diǎn)設(shè)計(jì)-效應(yīng)面法優(yōu)化柚皮素包合物自微乳給藥系統(tǒng)[J]. 食品與生物技術(shù)學(xué)報(bào), 2017, 36(003):310-314. 22. 馮冰玉, 祖元?jiǎng)? 魏亮,等. 青蒿素-β-環(huán)糊精包合物聯(lián)合雙硫侖抑制腸癌肝轉(zhuǎn)移的體內(nèi)活性研究[J]. 特產(chǎn)研究, 2020, 042(001):6-10. 21. 喬鑫 劉虓 楊軍 眭紅衛(wèi) 程凱 黃雨濃 彭穎.兩種二氫查爾酮甜味劑的包埋反應(yīng)及產(chǎn)物表征[J].中國(guó)食品添加劑 2019 30(03):51-58. 20. 劉艷, 段振華, 蔡彥,等. 牡蠣酶解液的脫腥工藝研究[J]. 食品研究與開(kāi)發(fā), 2015, 36(021):95-99. 19. 劉超越 賈麗華 郭祥峰. 1-溴芘在環(huán)糊精水溶液中的熒光光譜[J]. 齊齊哈爾大學(xué)學(xué)報(bào)(自然科學(xué)版) 2015 31(003):13-15. 18. 韋小翠, 楊書(shū)婷, 張焱,等. 都梁方中揮發(fā)油β-環(huán)糊精包合物的制備[J]. 中成藥, 2019, 41(04):7-12. 17. 李進(jìn)霞, 于肯明, 張慧芝,等. 芹菜素-環(huán)糊精包合物在溶液中的制備,表征及抗氧化性[J]. 山西大同大學(xué)學(xué)報(bào)(自然科學(xué)版), 2015, 000(006):40-43. 16. 梁浩,錢(qián)璽丞,杜曉靜,郁建生.白屈菜紅堿β-環(huán)糊精包合物的制備工藝研究[J].黑龍江畜牧獸醫(yī),2020(15):131-134+176. 15. 楊志偉, 周文紅, 何玲美. 珍珠母貝營(yíng)養(yǎng)口服液產(chǎn)品開(kāi)發(fā)研究[J]. 廣西輕工業(yè), 2014, 000(001):1-2,4. 14. 姜興粲,李冰,楊敏,張繼瑜.沙拉沙星/β-環(huán)糊精包合物微囊的特性分析[J].畜牧獸醫(yī)學(xué)報(bào),2020,51(08):1993-2002. 13. 樊保民, 呂金玉, 楊彪,等. 超分子緩蝕劑對(duì)凝結(jié)水中鐵含量的抑制機(jī)理[J]. 工業(yè)水處理, 2019, 039(002):21-25. 12. 王銳, 邱金雙, 牟景龍,等. 蛇床子脂溶性成分不同環(huán)糊精包合物的優(yōu)選與制備研究[J]. 中醫(yī)藥導(dǎo)報(bào), 2015, 021(005):32-34. 11. 李奕星, 李芬芳, 陳嬌,等. 芥末精油-β-環(huán)糊精包合物制備工藝、微結(jié)構(gòu)及緩釋特性研究[J]. 熱帶作物學(xué)報(bào), 2017, 038(012):2382-2387. 10. 馬玉聰, 樊保民, 郝華,等. 肉桂醛超分子緩蝕劑對(duì)冷凝水中鐵含量的凈化機(jī)理[J]. 材料導(dǎo)報(bào), 2018(20):3660-3666. 9. 閆丹, 江敏瑜, 王云紅,等. 積雪草總苷脂質(zhì)體的制備及體外透皮研究[J]. 中草藥, 2018, v.49；No.620(09):62-69. 8. 王月月, 段續(xù), 任廣躍,等. 洋蔥精油微膠囊噴霧干燥制備工藝優(yōu)化及釋放性能分析[J]. 食品與機(jī)械, 2019, 035(011):198-205. 7. 王月月, 段續(xù), 任廣躍,等. 洋蔥精油微膠囊制備工藝優(yōu)化及其品質(zhì)分析[J]. 食品科學(xué), 2018, 039(012):232-238. 6. 王章姐, 李晶晶, 胡容峰. 星點(diǎn)設(shè)計(jì)-效應(yīng)面法優(yōu)化柚皮素包合物的制備工藝[J]. 食品與生物技術(shù)學(xué)報(bào), 2016, 35(04):438-442. 5. 鄭林龍, 蔣劍平, 吳超,等. 山奈揮發(fā)油-β-環(huán)糊精包合物的制備與表征[J]. 中國(guó)中醫(yī)藥科技, 2015(02):164-167. 4. 羅國(guó)平, 閆夢(mèng)茹, 孟會(huì)寧,等. 復(fù)方丁香揮發(fā)油的提取和包合工藝研究[J]. 中國(guó)食品添加劑, 2019, 030(005):70-76. 3. 裴興麗, 黃煜宇, 龔燦,等. 基于離子液體基質(zhì)的大豆中寡糖成分基質(zhì)輔助激光解吸電離-質(zhì)譜成像分析[J]. 分析化學(xué), 2017(8). 2. XUE Shuo DONG Man ZHANG Lulu 等. β-環(huán)糊精與香芹酮形成常數(shù)的測(cè)定及其包合物的制備及表征[J]. 食品與發(fā)酵工業(yè) 2019 045(012):183-188. 1. 宋文惠 楊瑩 張潔 等. Box-Behnken分析優(yōu)化花果茶泡騰片的制作工藝研究[J]. 食品研究與開(kāi)發(fā) 2020 041(007):137-142.