商品分類

瀏覽歷史

B20614	姜黃素
源葉	分析標準品,HPLC≥98%

英文名：
Curcumin

別名：

CAS號：
458-37-7

分子式：
C₂₁H₂₀O₆

分子量：
368.38

MDL：
MFCD00008365

核磁/質譜：

品牌	貨號	產品規(guī)格	價格(RMB)	庫存（上海）	北京	武漢	南京	計量單位	加入購物車...
源葉	B20614-20mg	分析標準品,HPLC≥98%	￥200.00元	>10	4	5	3	EA	加入購物車
源葉	B20614-200mg	分析標準品,HPLC≥98%	￥1000.00元	3	-	-	-	EA	加入購物車
源葉	B20614-500mg	分析標準品,HPLC≥98%	￥2000.00元	5	-	-	-	EA	加入購物車
源葉	B20614-1g	分析標準品,HPLC≥98%	￥3200.00元	1	-	-	-	EA	加入購物車

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產品介紹

參考文獻(171篇)

質檢證書(COA)

摩爾濃度計算器

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介紹：
生物實驗稀釋過程分步進行（例如 1ul母液，可以先加入1ul生理鹽水或者培養(yǎng)基，混合均勻沒有析出之后再加入2ul稀釋液，依次類推，逐漸稀釋。如果有析出及時超聲復溶。）在稀釋時要確保工作液中 DMSO 的終濃度盡量在0.1%以下，最高不要超過0.5%，并設置相應濃度的DMSO對照組。DMSO熔點是18.5℃，一旦稀釋用的培養(yǎng)基溫度較低，DMSO結晶，藥物就會析出。所以稀釋過程注意一下溫度控制。

熔點： 183°C

沸點： 591.4 °C at 760 mmHg

外觀：橙黃色結晶性粉末

溶解性： DMSO：80mg/ml。

儲存條件： 2-8℃

注意：部分產品我司僅能提供部分信息，我司不保證所提供信息的權威性，僅供客戶參考交流研究之用。

171. [2.2] Wasim Muhammad et al."Fabrication of Curcumin Grafted Aramid Nanofibers-Based Aerogel Films: Dyes Removal from Contaminated Effluents with High Adsorption Capacity and Antimicrobial Characteristics."FIBERS AND POLYMERS.2024 Sep;:1-14

170. [3.8] Xiu-mei Luan et al."Improvement of polarity-based solvent system for countercurrent chromatography in the guidance of solvent selectivity: n-hexane/ethyl acetate/ alcohol solvents/water as an example."JOURNAL OF CHROMATOGRAPHY A.2024 Nov;1736:465389

169. [3.3] Yihui Li et al."Understanding regulating effects of protein–anionic octenyl succinic anhydride-modified starch interactions on the structural, rheological, digestibility and release properties of starch."JOURNAL OF THE SCIENCE OF FOOD AND AGRICULTURE.2024

168. [4.7] Jie Liu et al."Preparation of Transglutaminase-Catalyzed Rice Bran Protein Emulsion Gels as a Curcumin Vehicle."Foods.2024 Jan;13(13):2072

167. [6.7] Jiahui Kong et al."CPP10-Targeted Photoactivatable MOF Nanosystem for Combined Photodynamic Therapy?Chemotherapy of Cancer."Journal of Science-Advanced Materials and Devices.2024 Jun;:100761

166. [6.7] Ruiqian Sun et al."Astragali Radix-Curcumae Rhizoma herb pair reduces the stemness of colorectal cancer cells through HIF-2α/β-catenin pathway."PHYTOMEDICINE.2024 Sep;132:155824

165. [8.5] Jia Cao et al."Effect of pH on the soybean whey protein–gum arabic emulsion delivery systems for curcumin: Emulsifying, stability, and digestive properties."FOOD CHEMISTRY.2024 Jun;:139938

164. [13.3] Wanting Miao et al."Indicative bacterial cellulose films incorporated with curcumin-embedded Pickering emulsions: Preparation, antibacterial performance, and mechanism."CHEMICAL ENGINEERING JOURNAL.2024 Sep;495:153284

163. [4.4] Jin Qiuxia et al."Study on antihepatocellular carcinoma effect of 6-shogaol and curcumin through network-based pharmacological and cellular assay."Frontiers in Pharmacology.2024 Aug;15:

162. [2.5] Wen Shen et al."Assembly and in vitro cytotoxicity of polylactic acid-phosphoglyceride composite drug loaded microspheres."International Journal of Polymeric Materials and Polymeric Biomaterials.

161. [5.8] Yicheng Jiang et al."A copper missile triggered power coalescence and death vortex within tumor cell mitochondria for synergistic cuproptosis/phototherapy/chemotherapy."Nanoscale.2024 Jul;:

160. [7.7] Mengyao Liu et al."Preparation of chitosan/Tenebrio molitor larvae protein/curcumin active packaging film and its application in blueberry preservation."INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES.2024 Aug;275:133675

159. [IF=1.9] Mei Li et al."Curcumin Affects the Pharmacokinetics of Florfenicol by Downregulating the Expression of BCRP in Poultry."JOURNAL OF APPLIED POULTRY RESEARCH".2024 May;:100439

158. [IF=5] Yuxin Sun et al."A Cellulose-Based Dual-Crosslinked Framework with Sensitive Shape and Color Changes in Acid/Alkaline Vapors."Polymers".2024 Jan;16(11):1547

157. [IF=5.5] Yanhong Liu et al."Fabrication of chitosan-based smart film by the O/W emulsion containing curcumin for monitoring pork freshness."JOURNAL OF FOOD ENGINEERING".2024 Oct;379:112115

156. [IF=5.8] Yuesong Wu et al."Biomimetic Platelet-like Nanoparticles Enhance Targeted Hepatocellular Carcinoma Therapy."COLLOIDS AND SURFACES B-BIOINTERFACES".2024 May;:113973

155. [IF=8.1] Lei Zhou et al."Effects and mechanisms of ultrasound-assisted emulsification treatment on the curcumin delivery and digestive properties of myofibrillar protein-carboxymethyl cellulose complex emulsion gel."FOOD RESEARCH INTERNATIONAL".2024 Jul;188:114531

154. [IF=5.6] Ma Li et al."Constructing a Novel Oleogel Based on Decrystallization: Enhancing the Loading Efficiency and Bioaccessibility of Curcumin."Food and Bioprocess Technology".2024 Apr;:1-13

153. [IF=5] Liping Chen et al."Curcumin analogue NL04 inhibits spinal cord central sensitization in rats with bone cancer pain by inhibiting NLRP3 inflammasome activation and reducing IL-1β production."EUROPEAN JOURNAL OF PHARMACOLOGY".2024 Mar;:176480

152. [IF=3.8] Jiawei Han et al."Insight into Formation, Synchronized Release and Stability of Co-Amorphous Curcumin-Piperine by Integrating Experimental-Modeling Techniques."JOURNAL OF PHARMACEUTICAL SCIENCES".2024 Feb;:

151. [IF=5.6] Heng Sun et al."Molecular-Scale Investigations Reveal the Effect of Natural Polyphenols on BAX/Bcl-2 Interactions."INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES".2024 Jan;25(5):2474

150. [IF=6] Dian Liu et al."Pickering emulsions constructed on the basis of nanostructured lipid carriers: Effect of carrier models and volume fractions."JOURNAL OF MOLECULAR LIQUIDS".2024 Mar;397:124161

149. [IF=10.7] Qi Qi et al."Fabrication and characterization of curcumin-loaded complex acid-induced cold gels of soybean and red bean protein isolates incorporated with common and waxy corn starches."FOOD HYDROCOLLOIDS".2024 Jun;151:109863

148. [IF=4.8] Bian-Xia Xue et al."A strategy integrating GC–MS, UPLC profiling, and DNA metabarcoding for characterization and discrimination of the medicinal and culinary pieces from four Curcuma species."MICROCHEMICAL JOURNAL".2024 Aug;203:110895

147. [IF=8.8] Feng Xue et al."Physicochemical properties of active films of rose essential oil produced using soy protein isolate-polyphenol conjugates for cherry tomato preservation."FOOD CHEMISTRY".2024 May;:139614

146. [IF=4.1] Xiefei Li et al."Preparation and characterization of zein–caseinate–pectin complex nanoparticles for encapsulation of curcumin: pectin extracted by high-speed shearing from passion fruit (Passiflora edulis f. flavicarpa) peel."JOURNAL OF THE SCIENCE OF FO

145. [IF=5.6] Jing Sun et al."The Tumor Microenvironment Mediates the HIF-1α/PD-L1 Pathway to Promote Immune Escape in Colorectal Cancer."INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES".2024 Jan;25(7):3735

144. [IF=8.8] Yanlei Guo et al."Glucuronidation dynamics of curcumin and tetrahydrocurcumin for differential structures and chemical reactivities in human liver microsome and uridine diphosphate glucuronosyltransferase 2B7."FOOD CHEMISTRY".2024 Mar;:138929

143. [IF=5.2] Yumeng Tian et al."Improved antioxidant activities of edible films by curcumin-containing with zein/polysaccharide."Food Bioscience.2023 Dec;:103538

142. [IF=8.4] Jianyu Zhu et al."Curcumin-loaded oil body emulsions prepared by an ultrasonic and pH-driven method: Fundamental properties, stability, and digestion characteristics."ULTRASONICS SONOCHEMISTRY.2023 Dec;101:106711

141. [IF=6.7] Hua-Bin Yuan et al."Fabrication of multi-functional and breathable superhydrophobic cotton fabric based on curcumin/ZIF-8 through mild thiol-ene click chemistry reaction."APPLIED SURFACE SCIENCE.2024 Feb;646:158882

140. [IF=2.4] Yuehui Jiang et al."Curcumin Attenuates Ferroptosis and Ameliorates Erectile Function in Diabetic Rats by Activating Nrf2/HO-1 Pathway."ANDROLOGIA.2023;2023:7236816

139. [IF=10.7] Chunfang Zhao et al."An integrated in vitro human iPSCs-derived neuron and in vivo animal approach for preclinical screening of anti-seizure compounds."Journal of Advanced Research.2023 Nov;:

138. [IF=3.9] Xuanming Zhang et al."Active compounds from Calendula officinalis flowers act via PI3K and ERK signaling pathways to offer neuroprotective effects against Parkinson's disease."Food Science & Nutrition.2023 Oct;:

137. [IF=5.8] Ming Wu et al."Oral delivery of pectin-chitosan hydrogels entrapping macrophage-targeted curcumin-loaded liposomes for the treatment of ulcerative colitis."INTERNATIONAL JOURNAL OF PHARMACEUTICS.2023 Nov;647:123510

136. [IF=10.7] Chenxiao Jiang et al."Ceria nanozyme coordination with curcumin for treatment of sepsis-induced cardiac injury by inhibiting ferroptosis and inflammation."Journal of Advanced Research.2023 Oct;:

135. [IF=11.2] Lu Tang et al."Preparation and characterization of cellulose nanocrystals with high stability from okara by green solvent pretreatment assisted TEMPO oxidation."CARBOHYDRATE POLYMERS.2024 Jan;324:121485

134. [IF=5.6] Shengnan Xu et al."Effects of age and tissue of Juniperus sabina L. on its phytochemical characteristics, anti-cholinesterase, antidiabetes, and anti-drug resistant bacteria activities."Frontiers in Plant Science.10.3389/fpls.2023.1174922

133. [IF=6.1] Pengkui Xia et al."Konjac glucomannan assisted curcumin alleviated Dextran sulfate sodium-induced mice colitis via regulating immune response and maintaining intestinal barrier integrity."Food & Function.10.1039/D3FO01068F

132. [IF=19] Yi Wu et al."4D Printing of Chiral Mechanical Metamaterials with Modular Programmability using Shape Memory Polymer."ADVANCED FUNCTIONAL MATERIALS.10.1002/adfm.202306442

131. [IF=5.2] Yue Pan et al."Enhancing the physical stability and bioaccessibility of curcumin emulsions through the interaction of whey protein isolate and soybean lecithin."Food Bioscience.2024 Apr;58:103676

130. [IF=3.3] Yongyu Li et al."Physicochemical stability of Pickering emulsion stabilized by green tea polysaccharide conjugates-soy protein isolate complex and its delivery of curcumin."INTERNATIONAL JOURNAL OF FOOD SCIENCE AND TECHNOLOGY.2023 Dec;:

129. [IF=8.8] Jiayan Lu et al."Stability and gastrointestinal behavior of curcumin-loaded emulsion stabilized by multi-conformation soy proteins: Influence of oil volume fraction."FOOD CHEMISTRY.2024 May;440:138215

128. [IF=3.4] Si Li et al."Active ingredients of Erhuang Quzhi Granules for treating non-alcoholic fatty liver disease based on the NF-κB/NLRP3 pathway."FITOTERAPIA.2023 Dec;171:105704

127. [IF=6] Yifan Cui et al."Microfluidic assisted preparation of soybean hydrolyzed protein-curcumin nanocomplexes: Evaluation of structure, functional properties, and interaction mechanism."LWT-FOOD SCIENCE AND TECHNOLOGY.2023 Oct;188:115416

126. [IF=2.3] Zhenguo Cai et al."Curcumin Alleviates Epidermal Psoriasis-Like Dermatitis and IL-6/STAT3 Pathway of Mice."Clinical Cosmetic and Investigational Dermatology.10.2147/CCID.S423922

125. [IF=5.2] Lan Wang et al."Coating carboxymethylpachymaran on bovine serum albumin (BSA) nanoparticles for the encapsulation and oral delivery of curcumin."Food Bioscience.10.1016/j.fbio.2023.103160

124. [IF=6.1] Hang Liu et al."Construction of curcumin-fortified juices using their self-derived extracellular vesicles as natural delivery systems: grape, tomato, and orange juices."Food & Function.10.1039/D3FO02605A

123. [IF=10.7] Tianfu Cheng et al."Gel properties of rice proteins-pectin composite and the delivery potential for curcumin: Based on different concentrations and the degree of esterification of pectin."FOOD HYDROCOLLOIDS.10.1016/j.foodhyd.2023.109305

122. [IF=10.2] Lei Fenting et al."Oral hydrogel nanoemulsion co-delivery system treats inflammatory bowel disease via anti-inflammatory and promoting intestinal mucosa repair."JOURNAL OF NANOBIOTECHNOLOGY.2023 Dec;21(1):1-19

121. [IF=5.8] Yingyin Zhu et al."Study of the Skin-penetration Promoting Effect and Mechanism of Combined System of Curcumin Liposomes Prepared by Microfluidic Chip and Skin Penetrating Peptides TD-1 for Topical Treatment of Primary Melanoma."INTERNATIONAL JOURNAL OF P

120. [IF=10] Chengyuan Qin et al."Liposomes Co-Delivering Curcumin and Colistin to Overcome Colistin Resistance in Bacterial Infections."Advanced Healthcare Materials.2023 Aug;:2202903

119. [IF=3.1] Cuicui Liu et al."Identification and quantitative analysis of the chemical constituents of Gandouling tablets using ultra-high-performance liquid chromatography with quadrupole time-of-flight mass spectrometry."JOURNAL OF SEPARATION SCIENCE.2023 Jun;:2300

118. [IF=4.6] Shanshan Wang et al."Combination of Lycopene and Curcumin Synergistically Alleviates Testosterone-Propionate-Induced Benign Prostatic Hyperplasia in Sprague Dawley Rats via Modulating Inflammation and Proliferation."MOLECULES.2023 Jan;28(13):4900

117. [IF=5.2] Housheng Xiong et al."Stabilization mechanism of different emulsifiers using dissipative particle dynamic simulation."COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS.2023 Jun;:131797

116. [IF=5.6] Yawei Wang et al."Curcumin Attenuates Periodontal Injury via Inhibiting Ferroptosis of Ligature-Induced Periodontitis in Mice."INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES.2023 Jan;24(12):9835

115. [IF=5.318] Lei Zhou et al."Effects of pH on the emulsifying, gelation and curcumin delivery properties of myofibrillar protein and carboxymethyl cellulose emulsions."Food Bioscience.2023 Jun;53:102744

114. [IF=5.518] Zehan Hong et al."Fabrication, performance and curcumin-controlled release of electrospun sarcoplasmic protein nanofiber films via layer-by-layer self-assembly."COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS.2023 Sep;672:131731

113. [IF=5.561] Yasi Yu et al."Physicochemical and In Vitro Digestion Properties of Curcumin-Loaded Solid Lipid Nanoparticles with Different Solid Lipids and Emulsifiers."Foods.2023 Jan;12(10):2045

112. [IF=5.999] Ru Zhao et al."Understanding molecular interaction between thermally modified β-lactoglobulin and curcumin by multi-spectroscopic techniques and molecular dynamics simulation."COLLOIDS AND SURFACES B-BIOINTERFACES.2023 May;:113334

111. [IF=6.056] Dandan Lu et al."Structure, interface properties and curcumin encapsulation of hogskin particles stabilized novel Pickering emulsions."LWT-FOOD SCIENCE AND TECHNOLOGY.2023 Jun;182:114830

110. [IF=9.231] Xutao Mai et al."Novel PVA/carboxylated cellulose antimicrobial hydrogel grafted with curcumin and ε-polylysine for chilled chicken preservation."FOOD CHEMISTRY.2023 Oct;424:136345

109. [IF=5.561] Tao Han et al."Development and Characterization of an Edible Zein/Shellac Composite Film Loaded with Curcumin."Foods.2023 Jan;12(8):1577

108. [IF=16.744] Jing Yang et al."An oral nano-antioxidant for targeted treatment of inflammatory bowel disease by regulating macrophage polarization and inhibiting ferroptosis of intestinal cells."CHEMICAL ENGINEERING JOURNAL.2023 Jun;465:142940

107. [4.026] Zhang Qian et al."Impact of Solid-State Properties on the Aerosolization Performance of Spray-Dried Curcumin Powders."AAPS PHARMSCITECH.2023 Mar;24(3):1-12

106. [4.125] Jiao Lv et al."Solubilization mechanism of self-assembled walnut protein nanoparticles and curcumin encapsulation."JOURNAL OF THE SCIENCE OF FOOD AND AGRICULTURE.2023 Mar;:

105. [5.364] Lixing Xu et al."Polyaspartic Acid-Stabilized CaCO3-Containing In Situ Hydrogel for Protection and Treatment of Gastric Ulcer."MOLECULAR PHARMACEUTICS.2023;20(4):2105–2118

104. [7.033] Jia Zeng et al."“Shell-Core” Bilayer Nanoparticle as Chemotherapeutic Drug Co-Delivery Platforms Render Synchronized Microenvironment Respond and Enhanced Antitumor Effects."International Journal of Nanomedicine.

103. [6.525] Shengli Wan et al."Curcumin-Loaded Platelet Membrane Bioinspired Chitosan-Modified Liposome for Effective Cancer Therapy."Pharmaceutics.2023 Feb;15(2):631

102. [8.025] Zhen Du et al."Organic solvent-free starch-based green electrospun nanofiber mats for curcumin encapsulation and delivery."INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES.2023 Mar;232:123497

101. [9.231] Decheng Bi et al."Enhancement of the chemical stability of nanoemulsions loaded with curcumin by unsaturated mannuronate oligosaccharide."FOOD CHEMISTRY.2023 Jul;414:135670

100. [5.195] Min Hao et al."Active ingredients screening and pharmacological mechanism research of curcumae rhizoma-sparganii rhizoma herb pair ameliorates liver fibrosis based on network pharmacology."JOURNAL OF ETHNOPHARMACOLOGY.2023 Apr;305:116111

99. [5.589] Linxia Jiang et al."Inhalation of L-arginine-modified liposomes targeting M1 macrophages to enhance curcumin therapeutic efficacy in ALI."EUROPEAN JOURNAL OF PHARMACEUTICS AND BIOPHARMACEUTICS.2022 Nov;:

98. [5.589] Zhaoyun Liu et al."Construction of pH-responsive polydopamine coated magnetic layered hydroxide nanostructure for intracellular drug delivery."EUROPEAN JOURNAL OF PHARMACEUTICS AND BIOPHARMACEUTICS.2023 Jan;182:12

97. [6.525] Shengli Wan et al."Bioinspired Platelet-like Nanovector for Enhancing Cancer Therapy via P-Selectin Targeting."Pharmaceutics.2022 Dec;14(12):2614

96. [11.504] Sohail Khan et al."Characterization of a novel bioactive film based on Artemisia sphaerocephala Krasch. Gum (ASKG) complexed with β-cyclodextrin/curcumin (β-CD/CUR) inclusion complex and its application in meat preservation."FOOD HYDROCOLLOIDS.2022 Nov;:1

95. [IF=6.056] Ying Feng et al."Co-amorphous delivery systems based on curcumin and hydroxycinnamic acids: Stabilization, solubilization, and controlled release."LWT-FOOD SCIENCE AND TECHNOLOGY.2022 Dec;170:114091

94. [IF=9.221] Ziqi Li et al."Construction of pH-responsive nanoplatform from stable magnetic nanoparticles for targeted drug delivery and intracellular imaging."SENSORS AND ACTUATORS B-CHEMICAL.2023 Jan;375:132869

93. [IF=9.231] Shiyu Zeng et al."Effects of microwave power and hot air temperature on the physicochemical properties of dried ginger (Zingiber officinale) using microwave hot-air rolling drying."FOOD CHEMISTRY.2023 Mar;404:134741

92. [IF=5.168] Pan Wang et al."Discovery and characterization of novel ATP citrate lyase inhibitors from natural products by a luminescence-based assay."CHEMICO-BIOLOGICAL INTERACTIONS.2022 Nov;367:110199

91. [IF=6.317] Lijuan Chen et al."Preparation of curcumin-loaded cochleates: characterization, stability and antioxidant properties."Food & Function.2022 Sep;:

90. [IF=4.927] Dongge Yin et al."Preparation, Characterization, and In Vitro Release of Curcumin-Loaded IRMOF-10 Nanoparticles and Investigation of Their Pro-Apoptotic Effects on Human Hepatoma HepG2 Cells."MOLECULES.2022 Jan;27(12):3940

89. [IF=7.59] Hanchun Yao et al."Cascade nanozymes based on the “butterfly effect” for enhanced starvation therapy through the regulation of autophagy."Biomaterials Science.2022 Jun;:

88. [IF=4.105] Kai-Xin Wang et al."IRMOF-8-encapsulated curcumin as a biocompatible, sustained-release nano-preparation."APPLIED ORGANOMETALLIC CHEMISTRY

87. [IF=6.953] Hexiang Xie et al."Chitosan/rice hydrolysate/curcumin composite film: Effect of chitosan molecular weight."INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES. 2022 Jun;210:53

86. [IF=5.34] Dong Shao et al."Identification of the active compounds and functional mechanisms of Jinshui Huanxian formula in pulmonary fibrosis by integrating serum pharmacochemistry with network pharmacology."PHYTOMEDICINE. 2022 Jul;102:154177

85. [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

84. [IF=4.617] Chen Xinru et al."Construction and evaluation of curcumin upconversion nanocarriers decorated with MnO2 for tumor photodynamic therapy."Drug Deliv Transl Re. 2022 Jan;:1-15

83. [IF=10.435] Sun Weidong et al."Self-oxygenation mesoporous MnO2 nanoparticles with ultra-high drug loading capacity for targeted arteriosclerosis therapy."J Nanobiotechnol. 2022 Dec;20(1):1-17

82. [IF=4.35] Lijuan Chen et al."Study on the Preparation, Characterization, and Stability of Freeze-Dried Curcumin-Loaded Cochleates."Foods. 2022 Jan;11(5):710

81. [IF=9.147] Yanhong Liu et al."Preparation and properties of biodegradable films made of cationic potato-peel starch and loaded with curcumin."Food Hydrocolloid. 2022 Sep;130:107690

80. [IF=7.658] Mingyue Zhou et al."Atomic zinc sites with hierarchical porous carbon for high-throughput chemical screening with high loading capacity and stability."Pharmacol Res. 2022 Mar;:106154

79. [IF=3.638] Li Zhao et al.Fabrication and characterization of octenyl succinic anhydride modified pullulan micelles for encapsulating curcumin.Journal Of The Science Of Food And Agriculture.2021 Nov 22

78. [IF=2.082] Qin Guo et al."Synergistic inhibition effects of tea polyphenols as adjuvant of oxytetracycline on Vibrio parahaemolyticus and enhancement of Vibriosis resistance of Exopalaemon carinicauda."Aquac Res. 2021 Aug;52(8):3900-3910

77. [IF=2.091] Zhenhong Liu et al."GAPT regulates cholinergic dysfunction and oxidative stress in the brains of learning and memory impairment mice induced by scopolamine."Brain Behav. 2020 May;10(5):e01602

76. [IF=2.863] Qiang Wang et al."Effects of turmeric on reducing heterocyclic aromatic amines in Chinese tradition braised meat products and the underlying mechanism."Food Sci Nutr. 2021 Oct;9(10):5575-5582

75. [IF=3.591] Mengru Cai et al."Amino-functionalized Zn metal organic frameworks as antitumor drug curcumin carriers."New J Chem. 2020 Oct;44(41):17693-17704

74. [IF=3.69] Pan Li et al."Curcumin metabolites contribute to the effect of curcumin on ameliorating insulin sensitivity in high-glucose-induced insulin-resistant HepG2 cells."J Ethnopharmacol. 2020 Sep;259:113015

73. [IF=3.935] Zhengchao Ji et al."Global identification and quantitative analysis of representative components of Xin-Nao-Kang Capsule, a traditional Chinese medicinal formula, by UHPLC-Q-TOF-MS and UHPLC-TQ-MS."J Pharmaceut Biomed. 2021 May;198:114002

72. [IF=3.996] Liu Min et al."Curcumin Alleviates Aβ42-Induced Neuronal Metabolic Dysfunction via the Thrb/SIRT3 Axis and Improves Cognition in APPTG Mice."Neurochem Res. 2021 Dec;46(12):3166-3178

71. [IF=4.098] Le Wang et al."Fast discrimination and quantification analysis of Curcumae Radix from four botanical origins using NIR spectroscopy coupled with chemometrics tools."Spectrochim Acta A. 2021 Jun;254:119626

70. [IF=4.617] Cheng Ziting et al."Preparation and characterization of dissolving hyaluronic acid composite microneedles loaded micelles for delivery of curcumin."Drug Deliv Transl Re. 2020 Oct;10(5):1520-1530

69. [IF=4.821] Le Wang et al."HPLC fingerprint and UV–Vis spectroscopy coupled with chemometrics for Curcumae radix species discrimination and three bioactive compounds prediction."Microchem J. 2021 Jul;166:106254

68. [IF=4.845] Hong Zhou et al."Functional analysis of an upregulated calmodulin gene related to the acaricidal activity of curcumin against Tetranychus cinnabarinus (Boisduval)."Pest Manag Sci. 2021 Feb;77(2):719-730

67. [IF=4.946] Lai Yanni et al."3D-quantitative structure–activity relationship and antiviral effects of curcumin derivatives as potent inhibitors of influenza H1N1 neuraminidase."Arch Pharm Res. 2020 May;43(5):489-502

66. [IF=4.952] Feng Xue et al."Prevention of frozen-dough from deterioration with incorporation of glutenin-polyphenols conjugates prepared by ultrasound."Lwt Food Sci Technol. 2021 Nov;151:112141

65. [IF=4.952] Hanyu Li et al."Entrapment of curcumin in soy protein isolate using the pH-driven method: Nanoencapsulation and formation mechanism."Lwt Food Sci Technol. 2022 Jan;153:112480

64. [IF=5.076] Feifei Wang et al."Preparation, Characterization and Properties of Porous PLA/PEG/Curcumin Composite Nanofibers for Antibacterial Application."Nanomaterials-Basel. 2019 Apr;9(4):508

63. [IF=5.121] Chunhong Gao et al."T807-modified human serum albumin biomimetic nanoparticles for targeted drug delivery across the blood–brain barrier."J Drug Target. 2020;28(10):1085-1095

62. [IF=5.162] Jing Han et al."Environmental stability and curcumin release properties of Pickering emulsion stabilized by chitosan/gum arabic nanoparticles."Int J Biol Macromol. 2020 Aug;157:202

61. [IF=5.268] Rui Yang et al."Mitochondrial targeting nano-curcumin for attenuation on PKM2 and FASN."Colloid Surface B. 2019 Oct;182:110405

60. [IF=5.396] Meigui Huang et al."Liposome co-encapsulation as a strategy for the delivery of curcumin and resveratrol."Food Funct. 2019 Oct;10(10):6447-6458

59. [IF=5.396] Yuan Liang et al."In vitro and in silico evaluation of EGFR targeting activities of curcumin and its derivatives."Food Funct. 2021 Nov;12(21):10667-10675

58. [IF=5.875] Yanyan Yin et al."Cascade catalytic nanoplatform based on ions interference strategy for calcium overload therapy and ferroptosis."Int J Pharmaceut. 2021 Sep;606:120937

57. [IF=6.023] Xixi Cai et al."Radix Pseudostellariae protein-curcumin nanocomplex: Improvement on the stability, cellular uptake and antioxidant activity of curcumin."Food Chem Toxicol. 2021 May;151:112110

56. [IF=8.947] Chunhong Gao et al."Neuronal mitochondria-targeted delivery of curcumin by biomimetic engineered nanosystems in Alzheimer's disease mice."Acta Biomater. 2020 May;108:285

55. [IF=9.147] Yun-Bo Yu et al."Constructing biocompatible carboxylic curdlan-coated zein nanoparticles for curcumin encapsulation."Food Hydrocolloid. 2020 Nov;108:106028

54. [IF=9.147] Yu Hu et al."Complexation with whey protein fibrils and chitosan: A potential vehicle for curcumin with improved aqueous dispersion stability and enhanced antioxidant activity."Food Hydrocolloid. 2020 Jul;104:105729

53. [IF=10.435] Gao Chunhong et al."Neuron tau-targeting biomimetic nanoparticles for curcumin delivery to delay progression of Alzheimer’s disease."J Nanobiotechnol. 2020 Dec;18(1):1-23

52. [IF=10.588] Xiang Zhang et al."Blue/yellow emissive carbon dots coupled with curcumin: a hybrid sensor toward fluorescence turn-on detection of fluoride ion."J Hazard Mater. 2021 Jun;411:125184

51. [IF=2.675] Xiumin Chen et al."Isobavachalcone and bavachinin from Psoraleae Fructus modulate Aβ42 aggregation process through different mechanisms in vitro."Febs Lett. 2013 Sep;587(18):2930-2935

50. [IF=2.896] Lu Wang et al."Rapid assay for testing superoxide anion radical scavenging activities to natural pigments by ultra-high performance liquid chromatography-diode-array detection method."Anal Methods-Uk. 2015 Feb;7(4):1535-1542

49. [IF=3.361] Junke Song et al."Activation of Nrf2 signaling by salvianolic acid C attenuates NF?κB mediated inflammatory response both in vivo and in vitro."Int Immunopharmacol. 2018 Oct;63:299

48. [IF=3.373] Issac Chi-Chung Cheng et al."Application of UPLC-MS/MS to simultaneously detect four bioactive compounds in the tumour-shrinking decoction (FM1523) for uterine fibroids treatment."Phytochem Analysis. 2019 Jul;30(4):447-455

47. [IF=3.534] Wenfeng Ni et al."Dual-Targeting Nanoparticles: Codelivery of Curcumin and 5-Fluorouracil for Synergistic Treatment of Hepatocarcinoma."J Pharm Sci-Us. 2019 Mar;108:1284

46. [IF=3.738] Selma Houchi et al."Investigation of common chemical components and inhibitory effect on GES-type β-lactamase (GES22) in methanolic extracts of Algerian seaweeds."Microb Pathogenesis. 2019 Jan;126:56

45. [IF=4.379] Wang Jinghui et al."A New Strategy for Deleting Animal drugs from Traditional Chinese Medicines based on Modified Yimusake Formula."Sci Rep-Uk. 2017 May;7(1):1-22

44. [IF=4.384] Rong Huang et al."Surfactant-free solid dispersion of BCS class IV drug in an amorphous chitosan oligosaccharide matrix for concomitant dissolution in vitro - permeability increase."Eur J Pharm Sci. 2019 Mar;130:147

43. [IF=5.279] Jing-Kun Yan et al."Biocompatible Polyelectrolyte Complex Nanoparticles from Lactoferrin and Pectin as Potential Vehicles for Antioxidative Curcumin."J Agr Food Chem. 2017;65(28):5720–5730

42. [IF=5.875] Ruoning Wang et al."Involvement of metabolism-permeability in enhancing the oral bioavailability of curcumin in excipient-free solid dispersions co-formed with piperine."Int J Pharmaceut. 2019 Apr;561:9

41. [IF=8.758] Dan Sun et al."Novel Curcumin Liposome Modified with Hyaluronan Targeting CD44 Plays an Anti-Leukemic Role in Acute Myeloid Leukemia in Vitro and in Vivo."Acs Appl Mater Inter. 2017;9(20):16857–16868

40. [IF=9.147] Binghua Sun et al."Linear dextrin as curcumin delivery system: Effect of degree of polymerization on the functional stability of curcumin."Food Hydrocolloid. 2018 Apr;77:911

39. Ni, Wenfeng, et al. "Dual-targeting nanoparticles: codelivery of curcumin and 5-fluorouracil for synergistic treatment of hepatocarcinoma." Journal of pharmaceutical sciences 108.3 (2019): 1284-1295.https://doi.org/10.1016/j.xphs.2018.10.042

38. Cai, Mengru, et al. "Amino-functionalized Zn metal organic frameworks as antitumor drug curcumin carriers." New Journal of Chemistry 44.41 (2020): 17693-17704.DOI https://doi.org/10.1039/D0NJ03680C

37. Chen, Xiumin, Yanfang Yang, and Yingtao Zhang. "Isobavachalcone and bavachinin from Psoraleae Fructus modulate Aβ42 aggregation process through different mechanisms in vitro."?Febs Letters?587.18 (2013): 2930-2935.https://doi.org/10.1016/j.febslet.2013.07.

36. Yu, Yun-Bo, et al. "Constructing biocompatible carboxylic curdlan-coated zein nanoparticles for curcumin encapsulation." Food Hydrocolloids 108 (2020): 106028https://doi.org/10.1016/j.foodhyd.2020.106028

35. Zeng, Yibin, et al. "Curcumin against imiquimod-induced psoriasis of mice through IL-6/STAT3 signaling pathway." Bioscience reports (2020).https://doi.org/10.1042/BSR20192842

34. Li, Pan, et al. "Curcumin metabolites contribute to the effect of curcumin on ameliorating insulin sensitivity in high-glucose-induced insulin-resistant HepG2 cells." Journal of ethnopharmacology 259 (2020): 113015.https://doi.org/10.1016/j.jep.2020.113015

33. Sun, M. X., et al. "Effects of curcumin on the role of MMP-2 in endometrial cancer cell proliferation and invasion." Eur Rev Med Pharmacol Sci 22.15 (2018): 5033-5041.

32. Weng, Qingxia, et al. "Fabrication of self-assembled Radix Pseudostellariae protein nanoparticles and the entrapment of curcumin." Food chemistry 274 (2019): 796-802.https://doi.org/10.1016/j.foodchem.2018.09.059

31. Liu, Gang, et al. "Maillard-reacted whey protein isolates and epigallocatechin gallate complex enhance the thermal stability of the pickering emulsion delivery of curcumin." Journal of agricultural and food chemistry 67.18 (2019): 5212-5220.https://doi.org

30. Huang, Meigui, et al. "Liposome co-encapsulation as a strategy for the delivery of curcumin and resveratrol."?Food & function?10.10 (2019): 6447-6458.https://doi.org/10.1039/C9FO01338E

29. Liu, Zhenhong, et al. "GAPT regulates cholinergic dysfunction and oxidative stress in the brains of learning and memory impairment mice induced by scopolamine." Brain and behavior 10.5 (2020): e01602.https://doi.org/10.1002/brb3.1602

28. Yan, Jing-Kun, et al. "Biocompatible polyelectrolyte complex nanoparticles from lactoferrin and pectin as potential vehicles for antioxidative curcumin." Journal of agricultural and food chemistry 65.28 (2017): 5720-5730.https://doi.org/10.1021/acs.jafc.7b

27. 紀萬里,周澤華,王婷婷,安叡,梁琨,王新宏.基于UPLC-LTQ-Orbitrap-MS方法分析半夏瀉心湯化學成分[J].藥物分析雜志,2020,40(10):1736-1750.

26. 李浩銘,黃永杰,王永麗,李大鵬,李鋒.姜黃素及其代謝修飾產物對PC12細胞氧化損傷的保護作用[J].食品科學,2020,41(15):208-215.

25. 劉嘯昂,唐輝,劉盼盼,盧志雄,陳文.姜黃素對HepG2細胞脂質沉積的改善作用及機制研究[J].上海中醫(yī)藥大學學報,2021,35(01):50-54.

24. 趙文平, 賈龍剛, 路福平,等. 基于β-內酰胺酶構建大腸桿菌體內Aβ42聚集抑制劑篩選體系[J]. 食品與發(fā)酵工業(yè), 2019, 45:17-24.

23. 劉佳慧, 王修俊, 鄭君花,等. 酶法-微波法聯合提取貴州生姜中姜黃色素及其定性分析[J]. 保鮮與加工, 2016(3):61-66.

22. 李浩銘,黃永杰,王永麗,李大鵬,李鋒.姜黃素及其代謝修飾產物對PC12細胞氧化損傷的保護作用[J].食品科學,2020,41(15):208-215.

21. 黃陽,許美玉,黃群,安鳳平,滕慧,王藝偉.蛋清粉為壁材的姜黃素微膠囊的制備[J].糧食科技與經濟,2016,41(01):59-62.

20. 馮藜櫪, 曹文富, 葉鳳. 莪術含藥血清抑制大鼠HSC中Glil和β-catenin表達的機制研究[J]. 重慶醫(yī)科大學學報, 2017, 042(003):308-314.

19. 徐艷,張心怡,狄留慶,樊文玲.熱熔擠出技術制備熱敏性姜黃素固體分散體的研究[J].中草藥,2018,49(17):4014-4021.

18. 鄭君花, 王修俊, 王麗芳,等. 姜黃色素的穩(wěn)定化研究[J]. 食品科技, 2015, 040(001):287-291.

17. 劉樂環(huán), 茅玉煒, 黎翊君,等. 姜黃素炎癥靶向自微乳的制備及質量評價[J]. 世界科學技術-中醫(yī)藥現代化, 2016(12).

16. 朱雯潔, 黃莉君, 葉曾聯,等. 姜黃素微球制備工藝研究[J]. 廣州化工, 2017, 45(023):66-68.

15. 張艷莉, 張彤. 姜黃素對高氧誘導的新生小鼠視網膜病變及notch通路的影響

14. 李旭炯,劉安,陳云霞,李淑芬.姜黃素對肝肺綜合征大鼠的保護作用[J].中國臨床藥理學與治療學,2017,22(07):738-742.

13. 辛華,江源銘,馬雷,任秀英,王莉,劉金鳳,江清林.姜黃素對前列腺癌細胞C-erbB-2、Bax和Survivin表達的影響[J].中醫(yī)藥信息,2018,35(01):16-18.

12. 鐘宇, 黃瓊林, 莫明明,等. 姜黃素對H_2O_2誘導的HT29細胞氧化損傷的保護作用及機制研究[J]. 天然產物研究與開發(fā), 2019, v.31(03):33-39.

11. 劉國安, 許欣欣, 李貴琛,等. 姜黃素在生化和細胞體系的抗氧化與促氧化作用[J]. 西北師范大學學報（自然科學版）, 2020, 056(003):82-89.

10. 錢偉倫, 高修濱, 于志文,等. 姜黃素中樞給藥對胰島素抵抗小鼠的改善作用及其機制研究[J]. 福建中醫(yī)藥, 2019, v.50;No.327(02):34-36+42.

9. 邢永娜, 馮進, 李春陽. 姜黃素與白首烏蛋白以及大豆分離蛋白相互作用的比較[J]. 食品科學, 2020, v.41;No.623(10):62-69.

8. 施元旦, 劉玲. 姜黃素-茶氨酸共無定型復合物的制備與生物利用度研究[J]. 現代中藥研究與實踐, 2019, 033(005):47-53.

7. 陸佳璐, 鄧麗娜. 姜黃素-色氨酸共無定型的制備及其在大鼠體內的藥動學研究[J]. 中國藥房, 2019(17):2348-2354.

6. 陸昕怡, 韓加偉, 李文,等. 姜黃素/胡椒堿固體分散體的制備及體外評價[J]. 現代中藥研究與實踐, 2018, 032(003):49-53.

5. 黃容, 陸昕怡, 韓加偉,等. 姜黃素-胡椒堿固體分散體的制備與生物利用度研究. 中草藥.

4. 石淑先, 李慶釗, 陳曉農,等. 姜黃素/聚(α-氰基丙烯酸異丁酯)載藥微球的制備及其藥物釋放[J]. 生物醫(yī)學工程學雜志, 2018, 035(005):749-753.

3. 劉曉靜, 賈競夫, 孫麗芳,等. 基于超臨界CO_2抗溶劑技術的姜黃素固體脂質納米粒研究[J]. 中藥材, 2019, v.42;No.425(07):168-171.

2. 李照雪,胡思遠,王吉燁,陳澤慧,張閃閃,張波.基于促甲狀腺功能的姜黃素延長低溫冷凍小鼠生存時間的作用機制研究[J].中國藥理學通報,2017,33(09):1291-1297.

1. 陳佳江雅琴李偉王艷平.3種中藥活性成分對耐多藥鮑曼不動桿菌的體外抑菌作用[J].中國藥業(yè) 2018 27(08):12-14.