Papers

Reviste internaționale (ISI Thomson Reuters și BID)

194. Ioana Stanciu, Spectrophotometric analysis of olive oil, Oriental Journal of Chemistry, 42(2), 744-749 (Factor impact 0.1100) DOI: http://dx.doi.org/10.13005/ojc/420235

193. Ioana Stanciu, Rheology of lard, UKR Journal of Multidisciplinary Studies, 2(4), 165-169 DOI: https://doi.org/10.5281/zenodo.19842825

192. Ioana Stanciu, Composition of polystyrene determined by IR spectroscopy, International Journal of Advanced Engineering and Technology, 10(2), 1-3 (Factor imapct 8.0000)

191. Ioana Stanciu, Composition of polyethylene and polypropylene determined by IR spectroscopy, International Journal of Research in Advanced Engineering and Technology, 12(2), 1-3 (Factor impact 8.0000)

190. Ioana Stanciu, Chemical composition of glycerol determined by IR spectroscopy, International Journal of Advanced Science and Research, 11(2), 4-6 (Factor impact 8.0000)

189. Ioana Stanciu, Composition determined by IR spectroscopy of chloroform,  International Journal of Pharmaceutical Science and Research, 11(1), 135-136 (Factor impact 8.0000)

188. Ioana Stanciu, Composition Determined by IR Spectroscopy of Pine Oil, International Journal of Advanced Multidisciplinary Research and Studies, 6(2), 1053-1054 (Factor impact 4.0360) DOI: https://doi.org/10.62225/2583049X.2026.6.2.6068

187. Ioana Stanciu, Composition Determined by IR Spectroscopy of Castor Oil, International Journal of Advanced Multidisciplinary Research and Studies, 6(2), 1051-1052 (Factor impact 4.0360) DOI: https://doi.org/10.62225/2583049X.2026.6.2.6067

186. Ioana Stanciu, Composition determined by IR spectroscopy of soybean oil, International Journal of Multidisciplinary Research and Development, 13(1), 639-641 (Factor impact 8.0000)

185. Ioana Stanciu, Rheological behavior of SAE 85W-140 oil, International Journal of Academic Research and Development, 11(1), 120-122 (Factor impact 8.0000)

184. Ioana Stanciu, IR spectrum of oil extract from anise (Pimpinella Anisum L.), Nexus Global Research Journal of Multidisciplinary, 2(4), 132-134.

183. Ioana Stanciu, Composition determined by IR spectroscopy of nicotine, UKR Journal of Medicine and Medical Research, 2(2), 43-46 DOI: https://doi.org/10.5281/zenodo.19497841 

182. Ioana Stanciu, Composition of normal human blood determined by FTIR, International Journal of Research in All Subject, 2(2), 7-8 (Factor imapct 8.0000)

181. Ioana Stanciu, Study of the composition of silymarin determined by IR spectroscopy, International Journal of Advanced Education, 2(1), 138-140 (Factor impact 8.0000)

180. Ioana Stanciu, Chemical composition of α-amino acids determined by IR spectroscopy,  International Journal of Multidisciplinary Research and Development, 13(1), 497-501 2026 (Factor impact 8.0000)

179. Ioana Stanciu, FTIR study of urea and thiourea, International Journal of Academic Research and Development, 11(1), 60-62 2026 (Factor impact 8.0000)

178. Ioana Stanciu, FTIR study of L-Histidina, International Journal of Advanced Research and Development, 11(1), 103-105 2026 (Factor impact 8.0000)

177. Ioana Stanciu, Chemical composition of commercial cellulose determined by IR spectroscopy,  International Journal of Applied Review, 2(1), 287-289 2026 (Factor impact 8.0000)

176. Ioana Stanciu, Chemical composition of amylase determined by IR spectroscopy, International Journal of Research in All Subject, 2(1), 128-130 2026 (Factor impact 8.0000)

175. Ioana Stanciu, Cotton composition determined by IR spectroscopy, International Journal of Advanced Education, 2(1), 99-100 2026 (Factor impact 8.0000)

174. Ioana Stanciu, Composition rice bran oil determinate for spectroscopy IR, International Journal of Advanced Engineering and Technology, 10(1), 65-67 2026 (Factor impact 8.0000)

173. Ioana Stanciu, Composition corn oil determinate for spectroscopy IR, International Journal of Advanced Scientific Research, 11(1), 45-48 2026 (Factor impact 8.0000)

172. Ioana Stanciu,   Study of the composition of phthalic esters by IR spectroscopy, International Journal of Advanced Education and Research, 11(1), 16-19 2026 (Factor impact 8.0000)

171. Ioana Stanciu, Structural study of adipic esters by 1H-NMR nuclear magnetic resonance spectroscopy, International Journal of Multidisciplinary Education and Research, 11(1), 48-51 2026 (Factor impact 8.0000)

170 . Ioana Stanciu, Composition of adipic esters used as lubricants, International Journal of Advanced Educational Research, 11(1), 12-15 (Factor impact 8.0000)

169. Ioana Stanciu,   Experimental Study of Polymers Thermal Behavior by Differential Scanning Calorimetry – DSC –, National Journal of Multidisciplinary Research and Development, 11(1), 90-92 2026 (Factor impact 8.0000)

168. Ioana Stanciu, Study esters with lubricant properties, International Journal of Advanced Engineering and Technology, 10(1), 37-39 2026 (Factor impact 8.0000) 

167. Ioana Stanciu, Chemical composition of aromatic organic compounds with condensed nuclei, International Journal of Research in Advanced Engineering and Technology, 12(1), 7-10 2026 (Factor impact 8.0000) 

166. Ioana Stanciu, Adipic acid composition determined by IR spectroscopy,  International Journal of Advanced Science and Research, 11(1), 37-39 2026 (Factor impact 8.0000) 

165. Ioana Stanciu, Chemical composition of aromatic halogenated derivatives determined by IR spectroscopy, International Journal of Chemical Science, 10(1) 34-37 2026 (Factor impact 8.0000) 

164. Ioana Stanciu, Composition of ampicillin determined by IR spectroscopy,  International Journal of Pharmaceutical Science and Research, 11(1), 46-47 2026 (Factor impact 8.0000) 

163. Ioana Stanciu, Chemical composition of Methylene Blue determined by IR spectroscopy, International Journal of Research in Pharmacy and Pharmaceutical Sciences, 11(1), 84-86 2026 (Factor impact 8.0000) 

162. Ioana Stanciu, Chemical composition of propranolol determined by IR spectroscopy, International Journal of Applied Review, 2(1), 108-110 2026 (Factor impact 8.0000) 

161. Ioana Stanciu, Chemical composition of methyl orage determined by IR spectroscopy, International Journal of Advanced Multidisciplinary Research and Studies, 6(1), 2052-2053 2026 DOI: https://doi.org/10.62225/2583049X.2026.6.1.5767

160. Ioana Stanciu, Chemical composition of phenolphthalein determined by IR spectroscopy, International Journal of Research in All Subject, 2(1), 79-81 2026 (Factor impact 8.0000) 

159. Ioana Stanciu, Chemical composition of aspirin determined by IR spectroscopy, International Journal of Advanced Education, 2(1), 92-94 2026 (Factor impact 8.0000) 

158. Ioana Stanciu, Chemical composition of paracetamol determined by IR spectroscopy,  International Journal of Educational Research and Development, 8(1), 29-31 2026 (Factor impact 8.0000) 

157. Ioana Stanciu, Chemical composition of ibuprofen determined by IR spectroscopy, International Journal of Educational Research and Studies, 8(1), 1-2 2026 (Factor impact 8.0000) 

156. Ioana Stanciu, The mystery of the earth: creation, matter and return, International Journal of Theology, Philosophy and Science, 10(18), 27-38 2026 DOI: https://doi.org/10.26520/ijtps.2026.10.18.27-38

155. Ioana Stanciu, A review-Study of FTIR analysis of linseed oil, International Journal of Advanced Chemistry Research, 8(1), 13-15 2026 DOI: https://www.doi.org/10.33545/26646781.2026.v8.i1a.352

154. Ioana Stanciu, Determination of the composition of linseed oil by nuclear magnetic resonance spectroscopy, International Journal of Chemical and Biological Sciences, 8(1), 1-3 2026 DOI: https://www.doi.org/10.33545/26646765.2026.v8.i1a.178

153. Ioana Stanciu, A review-Study of FTIR analysis of olive oil, International Journal of Chemical Research and Development, 8(1), 1-2 2026 DOI: https://www.doi.org/10.33545/26646552.2026.v8.i1a.116

152. Ioana Stanciu, Spectrum FTIR of vitamin B12, Journal of Chemical Studies, 14(1), 14-16 2026 DOI: https://www.doi.org/10.22271/chemi.2026.v14.i1a.12641

151. Ioana Stanciu, Study of the chemical composition of vitamin C, Journal of Research in Chemistry, 7(1), 28-30 2026 DOI: https://www.doi.org/10.22271/reschem.2026.v7.i1a.246

150. Ioana Stanciu, Chemical composition of hemp determined by IR spectroscopy,  International Journal of Research in Engineering, 8(1), 1-3 2026 DOI: https://www.doi.org/10.33545/26648776.2026.v8.i1a.153

149. Ioana Stanciu, Chemical composition of Indigo dye, International Journal of Multidisciplinary Research and Development, 13(1), 16-17 2026 (Factor impact 8.0000)

148. Ioana Stanciu, Study of the composition of vitamin B6 by IR spectroscopy, International Journal of Academic Research and Development, 11(1), 1-3 2026 (Factor impact 8.0000)

147. Ioana Stanciu, Composition of acetic acid determined by IR spectroscopy, International Journal of Advanced Research and Development, 11(1), 1-2 2026 (Factor impact 8.0000)

146. Ioana Stanciu, Sucrose composition determined by IR spectroscopy, International Journal of Advanced Scientific Research, 11(1), 7-9 2026 (Factor impact 8.0000)

145. Ioana Stanciu,   Starch composition determined by IR spectroscopy, National Journal of Multidisciplinary Research and Development, 11(1), 18-20 2026 (Factor impact 8.0000)

144. Ioana Stanciu, Chemical composition of vitamin K1 determined by IR spectroscopy,  National Journal of Advanced Research, 12(1), 1-2 2026 (Factor impact 8.0000)

143. Ioana Stanciu, Spectrophotometric analysis of soybean oil, Oriental Journal of Chemistry, 42(1), 364-367 2026 (Factor impact 0.1100) DOI: http://dx.doi.org/10.13005/ojc/420138

142. Ioana Stanciu, Rheological behavior of concentrated solutions depending on the type of polymer, Oriental Journal of Chemistry,  41(6),  2302-2306 2025  (Factor impact 0.1100) DOI: http://dx.doi.org/10.13005/ojc/410640

141. Ioana Stanciu, Studying the composition of alcohols using IR spectroscopy, International Journal of Multidisciplinary Research and Development, 12(12), 75-77 2025 (Factor impact 8.0000)

140. Ioana Stanciu, Study of the composition of amines using IR spectroscopy, International Journal of Academic Research and Development, 10(6), 41-43 2025   (Factor impact 8.0000)

139. Ioana Stanciu, Study of the composition of carboxylic compounds using IR spectroscopy,  International Journal of Advanced Research and Development, 10(4), 59-62 2025 (Factor impact 8.0000)

138. Ioana Stanciu, Study of the composition of aromatic hydrocarbons using IR spectroscopy,  International Journal of Advanced Scientific Research, 10(4), 138-139 2025  (Factor impact 8.0000)

137. Ioana Stanciu, Study of the composition of nitriles using IR spectroscopy, National Journal of Advanced Research, 11(2), 63-64 2025 (Factor impact 8.0000)

136. Ioana Stanciu, A review-Study of FTIR analysis of hemp fibres, National Journal of Multidisciplinary Research and Development, 10(4), 94-96 2025 (Factor impact 8.0000)

135. Ioana Stanciu , Rheological behavior of oil MC20W50, International Journal of Chemical and Biological Sciences, 7(2), 203-206 2025 (Factor impact 5.7200)  DOI:  https://www.doi.org/10.33545/26646765.2025.v7.i2c.172  

134. Ioana Stanciu, Study of the rheological behavior of oil MG20W50, International Journal of Chemical Research and Development, 7(2), 100-104 2025 (Factor impact 5.5000) DOI: https://www.doi.org/10.33545/26646552.2025.v7.i2b.107

133. Ioana Stanciu, Rheological behavior of oil EP90, International Journal of Advanced Chemistry Research, 7(11), 34-38 2025 (Factor impact 4.7700)  DOI:   https://www.doi.org/10.33545/26646781.2025.v7.i11a.331  

132. Ioana Stanciu, Studying the composition of alkanes, alkenes and alkynes using IR spectroscopy, Journal of Research in Chemistry, 6(2), 204-207 2025 (Factor impact 5.2900) DOI:   https://www.doi.org/10.22271/reschem.2025.v6.i2c.227  

131. Ioana Stanciu, ¹H NMR spectrum of refined sunflower oil, International Journal of Research in Engineering, 7(2), 226-228 2025 (Factor impact 8.2600) DOI: https://www.doi.org/10.33545/26648776.2025.v7.i2c.147  

130.  Ioana Stanciu, Study of the rheological properties of SAE20W50 mineral oil,  International Journal of Chemical Studies, 13(6), 32-34 2025 (Factor impact 6.8500) DOI: https://www.doi.org/10.22271/chemi.2025.v13.i6a.12615

129.  Ioana Stanciu, Effect of oxidation of soybean oil used in biodegradable lubricant, Oriental Journal of Chemistry,  41(5),  1828-1832 2025  (Factor impact 0.1100) DOI: http://dx.doi.org/10.13005/ojc/410538

 128.  Ioana Stanciu,  Oxidative stability of rapeseed oil based lubricants, Oriental Journal of Chemistry,  40(4),  1377-1382  2025  (Factor impact 0.1100) DOI: http://dx.doi.org/10.13005/ojc/410436

127. Ioana Stanciu,  Chemical composition of vitamin D3, International Journal of Chemical and Biological Sciences, 7(1), 136-138 2025 (Factor impact 5.6000) DOI: https://www.doi.org/10.33545/26646765.2025.v7.i1b.137   

126. Ioana Stanciu,  Variety of energetic consistency of oxidized and non-oxidized corn oils with temperature, Oriental Journal of Chemistry,  41(3),  1028-1031, 2025  (Factor impact 0.1100) DOI: :  http://dx.doi.org/10.13005/ojc/410337

125. Ioana Stanciu,  Spectral analysis of pelicilin G, International Journal of Advanced Multidisciplinary Research and Studies, 5(3) 984-987 (Factor impact 4.0360) 2025 DOI: :  https://doi.org/10.62225/2583049X.2025.5.3.4395

124. Ioana Stanciu,  Structural study of Adipic esters by IR spectroscopy, 7(1), 54-58, 2025 DOI:  https://www.doi.org/10.33545/26648776.2025.v7.i1a.76

123. Ioana Stanciu,   Application of FTIR Spectroscopy in the Analysis and Quality Assessment of Sunflower Oil, Journal of Research in Chemistry, 6(1), 113-117 DOI: https://www.doi.org/10.22271/reschem.2025.v6.i1b.178 2025

122. Ioana Stanciu, Structural Study of Citric Esters by IR Spectroscopy, International Journal of Multidisciplinary Research and Publications, 7(12), 167-171 (Factor impact 7.4250) 2025

121. Ioana Stanciu, Rheological behavior of DXTIII oil, International Journal of Advanced Chemistry Research, 7(5), 21-24, DOI:  https://www.doi.org/10.33545/26646781.2025.v7.i5a.275 2025 

120. Ioana Stanciu, Chemical composition of SAE 10W oil without additives, Oriental Journal of Chemistry, 41(2), 555-557 2025 (Factor impact 0,1100) DOI: http://dx.doi.org/10.13005/ojc/410225

119. Ioana Stanciu, Characterization of Carbon Nanotubes: Properties and Applications, Current Journal of Applied Science and Technology, 44(4), 234-244 2025 DOI:  https://doi.org/10.9734/cjast/2025/v44i44530

118. Ioana Stanciu, Study of the composition of adipic esters by IR spectroscopy, Journal of Applied Chemical Science International, 16(1), 26-33 DOI: 10.56557/jacsi/2025/v16i19115

117. Ioana Stanciu, A review: Other types of esters used as plasticizers, International Journal of Chemical Studies, 13(1), 46-47 DOI: https://doi.org/10.22271/chemi.2025.v13.i1a.12501

116. Ioana Stanciu,  A review-Study of FTIR analysis of rapeseed oil, International Journal of Research in Engineering, 7(1), 8-10 2025 DOI:https://doi.org/10.33545/26648776.2025.v7.i1a.68 

115. Ioana Stanciu, A review: oils, greases, lubricants, additives with superior properties, Journal of Research in Chemistry, 6(1), 23-25   2025 DOI: https://doi.org/10.22271/reschem.2025.v6.i1a.162

114. Ioana Stanciu, A review: Esters from the citrus class, International Journal of Chemical Research and Development, 7(1), 25-28 (Factor impact 5.5000) 2025 https://doi.org/10.33545/26646552.2025.v7.i1a.75

113. Ioana Stanciu, A review: Esters from the phthalic class, International Journal of Chemical and Biological Sciences, 7(1), 29-31 2025 (Factor impact 5.6000) https://doi.org/10.33545/26646765.2025.v7.i1a.121

112. Ioana Stanciu,  Rheological behavior of lineesed ( Linum usitatissimum) oil, Oriental Journal of Chemistry,  41(1),  282-286  2025  (Factor impact 0.1100) DOI:  http://dx.doi.org/10.13005/ojc/410133

111. Ioana Stanciu, ,  A Review of Biodegradable Lubricants 3. Caracterization, Current Status, and Future Improvement Trends,  International Journal of Advanced Chemistry Research, 6(2), 66-68  2024 DOI: https://doi.org/10.33545/26646781.2024.v6.i2a.230

110. Ioana Stanciu, A Review: Esters with lubricant properties  International Journal of Chemical Research and Development, 6(2), 79-81 DOI: https://doi.org/10.33545/26646552.2024.v6.i2a.71

109. Ioana Stanciu, FTIR spectroscopy analysis of butanoic acid, Journal of Applied Chemical Science International,  15(2), 26-29 DOI:10.56557/jacsi/2024/v15i28863

108. Ioana Stanciu, Temperature-dependent changes in the dynamic viscosity of oxidized and non-oxidized olive oils,  Oriental Journal of Chemistry,  40(6), 1836-1840  2024  (Factor impact 0.1100) DOI:  http://dx.doi.org/10.13005/ojc/400636

107. Ioana Stanciu,  A Review of Biodegradable Lubricants 1. Caracterization, Current Status, and Future Improvement Trends,  Journal of Research in Chemistry , 5(2) 52-54  2024 DOI: https://doi.org/10.22271/reschem. 2024.v5.i2a.143

106. Ioana Stanciu,  Rheological Properties of Soybean Oil with Nano Additives: A Comprehensive Review, Asian Journal of Advances in Research , 7(1), 408-412, 2024

105. Ioana Stanciu,  A Mini Review of Biodegradable Lubricants 2. Caracterization, Current Status, and Future Improvement Trends,  International Journal of Multidisciplinary Research and Publications, 7(3), 69-70  2024

104. Ioana Stanciu,  A Review of Biodegradable Lubricants 2. Caracterization, Current Status, and Future Improvement Trends,  International Journal of Chemical and Biological Sciences, 6(2), 63-64 2024 https://doi.org/10.33545/26646765.2024.v6.i2a.10

103.  Ioana Stanciu,  Influence of oxidation on the rheological parameters of vegetable oils,  Oriental Journal of Chemistry,  40(5),  1479-1483 2024  (Factor impact 0.1100) DOI: :  http://dx.doi.org/10.13005/ojc/400531

102.  Ioana Stanciu,  Investigation rheological behavior of chocolate,  Oriental Journal of Chemistry,  40(4), 1087-1090  2024  (Factor impact 0.1100) DOI: http://dx.doi.org/10.13005/ojc/400420 

101.  Ioana Stanciu,  New equations describing the rheological behavior of chocolate,  Oriental Journal of Chemistry,  40(3), 862-866  2024   (Factor impact 0.1100) DOI:  http://dx.doi.org/10.13005/ojc/400331

100.  Ioana Stanciu,  Influence of shear speed on the rheological behavior of chocolate,  Oriental Journal of Chemistry,  40(2), 437-440  2024  (Factor impact 0.1100) DOI: http://dx.doi.org/10.13005/ojc /400215 

99.  Ioana Stanciu,  Modele reologice pentru comportamentul uleiului de susan ( Sesamum indicum)  ,  Oriental Journal of Chemistry,  40(1), 165-168  2024  (Factor impact 0.1100) DOI:  http://dx.doi.org/10.13005/ ojc/400120

98.  Ioana Stanciu,  Study of the rheological behavior of olive oil at shear rates between 3.3 and 120s ^-1,  Oriental Journal of Chemistry,  39(1), 126-128  2023  (Factor impact 0.1100) DOI:  http://dx. doi.org/10.13005/ojc/390114 

97.  Ioana Stanciu,  Some methods for determining the viscosity index of hydraulic oil,  Indian Journal of Science & Technology,  16 (4), 254-258  2023  (Factor impact 0.1130)   DOI:  10.17485/IJST/v16i4.1461

96. Ioana Stanciu, Rheological behavior of corn oil at different viscosity and shear rate, Oriental Journal of Chemistry, 39(2), 335-339 2023 (Factor impact 0.1100) DOI:  http://dx.doi.org/10.13005/ojc/390212

95. Ioana Stanciu, Rheological characteristics of corn oil used in biodegradable lubricant, Oriental Journal of Chemistry, 39(3), 592-595 (Factor impact 0.1100) DOI:  http://dx.doi.org/10.13005/ojc/390307

94. Ioana Stanciu, Effect of temperature on rheology of corn (Zea mays) oil, Oriental Journal of Chemistry, 39(4),  1068-1070 2023 (Factor impact 0.1100) DOI: http://dx.doi.org/10.13005/ojc/390434

93. Ioana Stanciu, Rheology of almond (Prunus amygdalus) oil used as biodegradable lubricant, Oriental Journal of Chemistry, 39(5), 1252-1254 2023 (Factor impact 0.1100) http://dx.doi.org/10.13005/ojc/390518

92. Ioana Stanciu, Rheology of cottonseed (Gossypium hirsutum) oil used as biodegradable lubricant, Oriental Journal of Chemistry, 39(6), 1696-1699 2023 (Factor impact 0.1100) http://dx.doi.org/10.13005/ojc/390633 

91. Ioana Stanciu, Rheological Behavior of Rapeseed Oil Shear Rate 3.3s^-1 and 120s^-1, Journal of  Biochemical Technology, 2(13), 54-59, 2022 (Impact factor 1.3270) https://doi.org/10.51847/yn8oUb7bPT

90. Ioana Stanciu, Rheological behavior of ruminal fluid obtained from barley feed speed, Oriental Journal of Chemistry, 38(2), 439-443, 2022 (Impact factor 0.1640) DOI: http://dx.doi.org/10.13005/ojc/380228

89. Ioana Stanciu, Rheological behavior of fruit and vegetable purees and tomato sauce, Oriental Journal of Chemistry, 38(6), 1550-1553, 2022 (Impact factor 0.1640) DOI: http://dx.doi.org/10.13005/ojc/380629

88. Ioana Stanciu, Rheograms describing the evolution of dynamic viscosity as a function of shear rate and shear stress for vegetable oils, Oriental Journal of Chemistry, 38(3), 724-726, 2022 (Impact factor 0.1640) DOI:  http://dx.doi.org/10.13005/ojc/380324

87. Ioana Stanciu, Influence of temperature on the rheological behavior of non-dditive olive oil, Oriental Journal of Chemistry, 38(1), 106-109, 2022 (Impact factor 0.1640) DOI: http://dx.doi.org/10.13005/ojc/380113

86. Ioana Stanciu, Rheology of gums used in the food and flour industry for "tortillas", Oriental Journal of Chemistry, 38(4), 936-939, 2022 (Impact factor 0.1640)  DOI: http://dx.doi.org/10.13005/ojc/380414

85. Ioana Stanciu, Rheology of non-additive olive oil used as a biodegradable lubricant, Oriental Journal of Chemistry, 38(5), 1296-1299, 2022 (Impact factor 0.1640) DOI: http://dx.doi.org/10.13005/ojc/380528

84. Ioana Stanciu, Study of Rheological Behavior of Olive Oil used as Biodegradable Lubricant, Oriental Journal of Chemistry, 37(5), 1248-1251, 2021 (Impact factor 0.7470) DOI:  http://dx.doi.org/10.13005/ojc/370533 

83. Ioana Stanciu, Rheological Study of Orange Honey with Influence on Concentration, Oriental Journal of Chemistry, 37(4), 864-867, 2021 (Impact factor 0.7470) DOI: http://dx.doi.org/10.13005/ojc/370413 

82. Ioana Stanciu, Noureddine Ouerfelli, Application extended Vogel -Tammann-Fulcher equation for soybean oil, Oriental Journal of Chemistry, 37(6), 1287-1294 2021 (Factor impact 0.7470)  DOI: http://dx.doi.org/10.13005/ojc/370603 

81. Ioana Stanciu, Influence of temperature on the rheological behavior of orange honey, Oriental Journal of Chemistry, 37(2), 440-443, 2021 (Impact factor 0.7470) DOI: http://dx.doi.org/10.13005/ojc/370225

80. Ioana Stanciu, Comparative study of rapeseed oil with hydraulic oil, Oriental Journal of Chemistry, 37(3), 752-754, 2021 (Impact factor 0.7470) DOI: http://dx.doi.org/10.13005/ojc/370333

79. Ioana Stanciu, Study rheological behavior of rapeseed oils compared to mineral oil, Oriental Journal of Chemistry, 37(1), 247-249, 2021 (Impact factor 0.7470)                  DOI: http://dx.doi.org/10.13005/ojc/370135

78. Ioana Stanciu, Rheological Characteristics of Castor Oil used as Biodegradable Lubricant,  Oriental Journal of Chemistry, 36(5), 973-975, 2020 (Impact factor 0.5610) DOI:  http://dx.doi.org/10.13005/ojc/360526

77. Ioana Stanciu, Theoretical rheological models for olive oil, Technium: Romanian Journal of Applied Sciences and Technology, 2(3), 122-127 2020

76. Ioana Stanciu, Aymen Messaâdi, Octavio Díez-Sales, Suhailah S. Al-Jameel, Ezzedine Mliki, Jose V. Herráez, Noureddine Ouerfelli, A novel equation correlating the rheological properties of some commercial tomato ketchups, Journal of Biochemical Technology, 3(11),  102-114, 2020 (Impact factor 1.3270)

75. Ioana Stanciu, Study Rheological Behavior of Refined Rapeseed Oil, Technium: Romanian Journal of Applied Sciences and Technology, 2(2), 20-24 2020

74. Ioana Stanciu, Noureddine Ouerfelli, An extended Casson equation for rheological properties of soybean oil at different temperatures and atmospheric pressure, Journal of Biochemical Technology, 3(11), 52-57 2020 (Impact factor 1.3270)

73. Ioana Stanciu, Dependence Viscosity of Temperature and Shear Rate for Vegetable Oil used as Biodegradable Lubricant, Oriental Journal of Chemistry, 36(3)  563-566 2020 (Impact factor 0.5610)  DOI:  http://dx.doi.org/10.13005/ojc/360329

72. Ioana Stanciu, Rheological Behavior of Castor Oil: Shear Stress Dependence Shear Rate, Journal of Biochemical Technology, 3(11), 37-42 2020 (Impact factor 1.3270) 

71. Ioana Stanciu, Rheological Characteristics of Lubricating Oils, Journal of Science and Arts, 2(51), 501-506 2020 (Impact factor 0.6750)

70. Ioana Stanciu, Study Rheological Behaviour of Biodegradable Lubricant, Oriental Journal of Chemistry, 36(2), 268-272 2020 (Impact factor 0.5610) DOI:  http://dx.doi.org/10.13005/ojc/360208

69. Ioana Stanciu, Assessment of Rheological Behaviors of Coconut Oil, Journal of Science and Arts, 1(50), 183-186 2020 (Impact factor 0.6750)

68. Ioana Stanciu, Viscosity Index for Coconut Oil Used as Biodegradable Lubricant, PONTE International Scientific Researches Journal, 76(7), 222-225 2020 (Impact factor 0.8140) DOI: http://dx.doi.org/10.21506/j.ponte.2020.7.17

67. Ioana Stanciu, Correlation Between Dynamic Viscosity and Shear Rate for Vegetable Oil, Oriental Journal of Chemistry, 36(1), 33-36  2020 (Impact factor 0.5610)  DOI: http://dx.doi.org/10.13005/ojc/360105

66. Ioana Stanciu, Model Mathematical of Dependence Dynamic Viscosity-Temperature for Coconut Oil, PONTE International Scientific Researches Journal, 76(2), 224-229 2020 (Impact factor 0.8140) DOI: http://dx.doi.org/10.21506/j.ponte.2020.2.18

65. Ioana Stanciu, Viscosity index for oil used as biodegradable lubricant, Indian Journal Science and Technology, 13(3), 352-359 2020 (Impact factor 0.5200) DOI: 10.17485/ijst/2020/v13i03/147759

64. Ioana Stanciu, Solubility Parameter for Copolymer used Additives for Lubricating Oil, Indian Journal Science and Technology, 12(30), 1-7 2019 (Impact factor 0.5200) DOI: 10.17485/ijst/2019/v12i30/146154

63. Ioana Stanciu, Rheological Behavior of Biodegradable Lubricants, Oriental Journal of Chemistry, 35(2) 684-688 2019 (Impact factor 0.6950) DOI:  http://dx.doi.org/10.13005/ojc/350224

62. Ioana Stanciu, Studies Concerning Vegetable Oils used as Biodegradable Lubricant, Journal of Science and Arts, 1(46), 195-200  2019 (Impact factor 0.6750)

61. Ioana Stanciu, New Models Theoretical of the Rheological Behavior of Coconut Oil, Journal of Science and Arts, 2(47), 449-454  2019 (Impact factor 0.6750)

60. Ioana Stanciu, Methods for Determining the Solubility Parameter of Additives for Lubricating Oils, Oriental Journal of Chemistry, 35(4), 1297-1301 2019 (Impact factor 0.6950) DOI: http://dx.doi.org/10.13005/ojc/350407

59. Ioana Stanciu, New Models Polynomial Experimental of Variation Dynamic Viscosity –Temperature for Soybean Oil, MAGNT Research Report, 6(1), 26-29 2019 (Impact factor 0.7900)

58. Ioana Stanciu, Rheological Investigation of Soybean Oil from Soya Beans, Journal of Science and Arts, 4(49), 983-988  2019 (Impact factor 0.6750)

57. Ioana Stanciu, Rheological Behavior of Biodegradable Lubricant, Journal of Science and Arts, 3(48), 703-708  2019 (Impact factor 0.6750)

56. Ioana Stanciu, A New Model Mathematical for the Viscosity of Vegetable Oils Based on Freely Sliding Molecules, Grasas y Aceites, 70(3), e318 2019 (Impact factor 0.5640) https://doi.org/10.3989/gya.0824182

55. Ioana Stanciu, Models Rheological Mathematical of Dependence Dynamic Viscosity – Shear Rate for Soybean Oil, Journal of Science and Arts, 4(45), 1001-1006 2018 (Impact factor 0.6750) 

54. Ioana Stanciu, Viscosity Index for Soybean Oil, MAGNT Research Report, 5(3), 447-449 2018 (Impact factor 0.7900) doi:1444-8939.2018/5-3/MRR.45

53. Ioana Stanciu, Models rheological mathematical of dependence dynamic viscosity – shear rate for soybean oil, Journal of Science and Arts, 4(45), 1001-1006  2018 (Impact factor 0.6750)

52. Ioana Stanciu, Rheological  study behavior of soybean oil, Journal of Science and Arts, 3(44), 711-716 2018 (Impact factor 0.6750)

51. Ioana Stanciu, Rheology Behavior of Soybean Oil, Journal of Science and Arts, 2(43), 453-458  2018 (Impact factor 0.6750) 

50. Ioana Stanciu, Determination Viscosity Index Improvers for Multi-grade Oil of Copolymer Polyethylene-Propylene, Journal of Science and Arts, 1(42), 197-202 2018 (Impact factor 0.675)

49. Ioana Stanciu, Methods of Determination Viscosity Index Improvers for Multi-grade Oil of Copolymer Hydrogenated Poly (isoprene-co-styrene), MAGNT Research Report, 5(3), 462-467  2018 (Impact factor 0.7900) doi:1444-8939.2018/5-4/MRR.47

48. Ioana Stanciu, Viscosity Index Improvers for Multi-grade Oil of Copolymers Polyethylene -propylene and Hydrogenated Poly (isoprene-co-styrene), Journal of Science and Arts,  4(41), 771-778,  2017 (Impact factor 0.6750) 

47. Ioana Stanciu, Dynamic Viscosity Dependence of the Shear Rate of Polyethylene-polypropylene Solutions Concentrated, MAGNT Research Report, 4(1), 44-49 2017 (Impact factor 0.6800) DOI: 1444-8939.2017/4-1/MRR.6

46. IoanaStanciu, Mathematical Models Describe Rheological Behavior of Rapeseed Oils ,  PONTE International Scientific Researches Journal, 73(4), 275-284 2017 (Impact factor 0.7240) DOI: 10.21506/j.ponte.2017.4.58

45. Ioana Stanciu, Mathematical Modeling of Dynamic Viscosity with Inverse Absolute Temperature for Solutions Concentrates, PONTE  International Scientific Researches Journal, 72(7), 42-49  2016  (Impact factor 0.7240)  DOI: 10.21506/j.ponte.2016.7.35 

44. Ioana Stanciu, Effect Concentration and Temperature on the Rheological Behavior of Copolymer Polyethylene-Propylene Solutions, MAGNT Reserach Report,  4(3), 109-118, 2016 (Impact factor 0.6800) DOI: dx.doi.org/14.9831/1444-8939.2016/4-3/MRR.13

43. Ioana Stanciu, Mathematical Dependence of the Dynamic Viscosity in Relation with the Shear Rate for the of Copolymer Hydrogenated Poly(isoprene-co-styrene) Concentrated Solutions, MAGNT Research Report, 4(5), 169-174, 2016 (Impact factor 0.6800) DOI: dx.doi.org/14.9831/1444-8939.2016/4-5/MRR.18

42. Ioana Stanciu, Mathematical Equations that Describe the  Rheological   Behavior  of Sunflower Oil, MAGNT Reserach Report, 4(1), 8-12, 2016 (Impact factor 0.6800)  DOI: dx.doi.org/14.9831/1444-8939.2016/4-1/MRR.03  

41. Ioana Stanciu, A Mathematic Modelling of the Dynamic Viscosity in Relation with the Shear Rate and Temperature for the Copolymer Hydrogenated Poly(isoprene-co-styrene) Solutions, MAGNT Research Report, 3(9), 314-324, 2015 (Impact factor 0.6800) DOI: dx.doi.org/14.9831/1444-8939.2015/3-9/MRR.25

40. Ioana Stanciu, Relationship Between Dynamic Viscosity and Inverse Absolute Temperature to the Concentrated Solutions, Oriental Journal of Chemistry, 31(4), 2017-2023, 2015 (Impact factor 0.5350) DOI: http://dx.doi.org/10.13005/ojc/310419

39. Ioana Stanciu, The Physicol-chemical Analyzes of Copolymer Paratone 8900 Used as Viscosity Improvers for SAE 10W-40 Mineral Oil, Oriental Journal of Chemistry, 31(3), 1383-1387, 2015 (Impact factor 0.53500) DOI: http://dx.doi.org/10.13005/ojc/310315 

38. Ioana Stanciu, Rheological Characteristics of Hydraulic Oil, Paripex – Indian Journal of Research, 4(4), 62-63, 2015 (Impact factor 3.4163) DOI: 10.15373/22501991

37. Ioana Stanciu, Methods of Determination Hansen Solubility Parameter of a Paratone 8900, International Journal of Scientific Research, 4(5), 12-13, 2015 (Impact factor 3.2416)  DOI: 10.15373/22778179

36. Ioana Stanciu, Influence Temperature and Dynamic Viscosity of Rheological Behavior for Refined Sunflower Oil, Indian Journal of Applied Research, 5(3), 40-41, 2015 (Impact factor 3.6241) DOI: 10.15373/2249555X 

35. Ioana Stanciu, The Analyses of Copolymer Shelvis used as Viscosity Improvers for SAE 10W-40 Mineral Oil, Paripex – Indian Journal of Research, 4(1), 7-9, 2015 (Impact factor 3.4163) DOI: 10.15373/22501991

34. Ioana Stanciu, Method of Determination Viscosity Index of Sunflower Oil, International Journal of Scientific Research, 3(11), 55-56, 2014 (Impact factor 1.8651)  DOI: 10.15373/22778179

33. Ioana Stanciu,  The Effect Temperature and Shear Rate on the Rheological Behavior for Sunflower Oil, Paripex – Indian Journal of Research, 3(10), 14-16, 2014 (Impact factor 1.6714) DOI: 10.15373/22501991

32. Ioana Stanciu, New Mathematical Relationship of Dependence Dynamic Viscosity of Absolute Temperature for Sunflower Oil, Indian Journal of Applied Research, 4(9), 48-50, 2014 (Impact factor 2.6152) DOI: 10.15373/2249555X 

31. Ioana Stanciu, The Relationship Dynamic Viscosity on Inverse Temperature Squared for Sunflower Oil, Indian Journal of Scientific Research, 8(1)(Special Online Issue-July), 210-213, 2014 (Impact factor 1.4053)

30. Ioana Stanciu, Regression Models that Describe Sunflower Oil Dynamic Viscosity of Temperature Absolute, International Journal of Scientific Research, 3(4), 53-54, 2014 (Impact factor 1.8651) DOI : 10.15373/22778179

29. Ioana Stanciu, The Study Rheological Behavior for Sunflower Oil, International Research Journal of Pure and Applied Chemistry, 4(5)(September-October), 531-540, 2014

28. Ioana Stanciu, Rheological Behavior of Concentrated Solutions EPDM of Some  Viscosity Improvers in SAE 10W-40 Mineral Oil, Journal of Scientific Research and Reports, 3(11)(1-15 June), 1518-1533, 2014

27. Ioana Stanciu, New Relationship to Describe the Rheology of Sunflower oil, Ovidius University Annals of Chemistry, 1(25), 28-31, 2014

26. Ioana Stanciu, Application of New Models in Rheological Behavior Study Sunflower Oil, American Chemical Science Journal, 4(4)(July-August), 537-545, 2014

25. Ioana Stanciu, New Rheological Models for Vegetable Oil, International Journal of Agriculture Innovations and Research, 1(4), 107-108, 2013

24. Ioana Stanciu, Study Rheological Behaviour of Rapeseed Oils, Journal of Chemistry and Chemical Engineering, 2(7), 184-186, 2013

23. Ioana Stanciu, Study Concerning the Rheological Behavior of Sunflower oil, Journal of Science and Arts, 4(25), 355-360, 2013 (Impact factor 0.6750)

22. Ioana Stanciu, A New Viscosity-Shear Rate Relationship for Mineral Oil, Journal of Science and Arts, 2(23), 181-184, 2013 (Impact factor 0.6750)

21. Ioana Stanciu, Viscosity Improvers for Copolymer Polyethylene-Polypropylene Solutions, Journal of Science and Arts, 2(23), 189-194, 2013 (Impact factor 0.6750)

20. Ioana Stanciu, A Study Rheological Behavior of Refined Rapeseed Oil, Ovidius University Annals of Chemistry, 1(24), 51-54, 2013 (Impact factor 0.1900)

19. Ioana Stanciu, New Rheological Models for Mineral Oil, Journal of Science and Arts, 1(22), 67-70, 2013 (Impact factor 0.6750)

18. Ioana Stanciu, Viscosity Improvers for Solutions Copolymer Ethylene Propylene in Oil SAE 10W-40, Journal of Science and Arts, 1(22), 73-76, 2013 (Impact factor 0.6750)

17. Ioana Stanciu, Viscosity Improvers for Copolymer Polyethylene-Polypropylene Solutions, Journal of Science and Arts, 2(23), 181-184, 2013 (Impact factor 0.6750)

16. Ioana Stanciu, Viscosity Improvers for Concentrated Solutions of a Poly (Alkyl Methacrylate), Journal of Science and Arts, 4(25), 371-374, 2013 (Impact factor 0.6750)

15. Ioana Stanciu, A New Viscosity–Temperature Relationship for Vegetable Oil, Journal of Petroleum Technology and Alternative Fuels, 3(2), 17-21, 2012 DOI: 10.5897/JPTAF12.001

14. Ioana Stanciu, Viscosity Indices of Rapeseed Oils, Journal of Chemistry and Chemical Engineering, 6(7), 668-671, 2012

13. Ioana Stanciu, Modeling the Temperature Dependence of Dynamic Viscosity for Oil SAE 10W no Additive, Journal of Science and Arts, 3(20), 331-334, 2012 (Impact factor 0.6750)

12. Ioana Stanciu, A New Viscosity-Shear Rate Relationship for Rapeseed Oil,  Journal of Science and Arts, 3(20), 313-316, 2012 (Impact factor 0.6750)

11. Ioana Stanciu, Rheological Properties of Rapeseed Oil and Hydraulic Oil, Scientific Study & Research - Chemistry & Chemical Engineering, Biotechnology, Food Industry, 13(2), 241-245, 2012 (Impact factor 0.1330)

10. Ioana Stanciu, Methods for Calculating the Viscosity Index Hydraulic Oil, Journal of Science and Arts, 2(19), 189-192, 2012 (Impact factor 0.6750)

9. Ioana Stanciu, A New Viscosity-Temperature Relationship for Mineral Oil SAE 10W, Ovidius University Annals of Chemistry, 23(1), 27-30, 2012 (Impact factor 0.1640)

8. Ioana Stanciu, Rheological Behavior of Hydraulic Oil, Journal of Science and Arts, 1(18), 63-66, 2012 (Impact factor 0.6750)

7. Ioana Stanciu, Rheological Behaviour of Mineral Oil, Journal of Science and Arts, 4(17), 487-490, 2011 (Impact factor 0.6750)

6. Ioana Stanciu, Viscosity Index of Rapeseed Oil, Journal of Science and Arts, 4(17), 445-448, 2011 (Impact factor 0.6750)

5. Ioana Stanciu, Rheological Behavior of Refined Rapeseed Oil, Journal of Chemistry and Chemical Engineering, 5(12), 1175-1178, 2011

4. Ioana Stanciu, Rheological Properties of Rapeseed Oil and Hydraulic Oil, Scientific Bulletin Series B: Chemistry and Materials Science, 73(3), 141-146, 2011 (Impact factor 0.3190)

3. Ioana Stanciu, Modeling the Temperature Dependence of Dynamic Viscosity for Rapeseed Oil, Journal of Science and Arts, 1(14), 55-58, 2011 (Impact factor 0.6750)

2. Ioana Stanciu, Minodora Leca, Studies of Some Viscosity Improvers for Multi-Grade Oils 2. Rheological Behaviour of Concentrated Solution, Materiale plastice, 43(3), 236-240, 2006 (Impact factor 0.3190)

1. Ioana Stanciu, Minodora Leca, Studies of Some Viscosity Improvers for Multi-Grade Oils 1. Solubility Parameters, Materiale plastice, 42(4), 268-271, 2005 (Impact factor 0.4120)

 National Journals (B+ and D)

10. Ioana Stanciu, Exponential Dependence of Dynamic Viscosity – Shear Rate for Vegetable Oils, Annals food science and technology, 14(2), 230-232, 2013

9. Ioana Stanciu, Rheological Properties of Mineral Oil, Annals of Dunarea de Jos University of Galati – Fascicle II – Mathematics, Physics, Theoretical Mechanics, III(XXXIII), 161-163, 2011

8. Ioana Stanciu, Integrarea tehnologiei moderne în procesul de predare – învăţare–evaluare centrat pe elev în lecţiile de fizică, Revista ştiintifică V. Adamachi,  XIX nr.1-4 (Serie nouă) ianuarie – iunie, 1-2, 2010

7. Ioana Stanciu, Study Solubility of Two Copolymers Used as Viscosity Improvers for Multi-Grade Oil, Annals of Dunarea de Jos University of Galati –Fascicle V – Technologies in Machine Building,  XXVII(XXXII), 323-326, 2009

6. Ioana Stanciu, Studies Physico-Chemical of Copolymers Used as Viscosity Improvers for SAE 10W Mineral Oil, Ovidius University Annals of Chemistry, 20(1), 72-75, 2009 

5. Ioana Stanciu, Thermic Behaviour of Two Copolymers Used as Viscosity Improvers for SAE 10W Mineral Oil, Bull.Petroleum-Gas Univ. Ploiesti- Technical Series, LX(4B), 37-40, 2008

4. Ioana Stanciu, Multilinear Regression Analysis in TGA Curves of a Copolymer INFINEUM SV 260, Bull.Petroleum-Gas Univ. Ploiesti- Technical Series, LIX(4), 81-84, 2007

3. Ioana Stanciu,  Minodora Leca, Viscosity Improvers for Multi-Grade Oils,  Bull.Petroleum-Gas Univ. Ploiesti-Technical Series, LIX(2), 65-70, 2007

2. Ioana Stanciu, Minodora Leca, Improved Method to Calculate Hansen Solubility Parameters of a Copolymer INFINEUM SV 260, Bull.Petroleum-Gas Univ. Ploiesti-Technical Series, LIX(1), 69-72, 2007

1. Ioana Stanciu, Minodora Leca, Rheological Behaviour of Multi-Grade Oils, Bull.Petroleum-Gas Univ. Ploiesti-Technical Series, LVIII(4), 37-44, 2006

 Proceedings conference

8. Ioana Stanciu, Methods of determination viscosity index improvers for multi-grade oil of copolymer hydrogenated poly (isoprene-co-styrene) Proc. 14^th International Conference on Fundamental and Applied Aspects of Physical Chemistry Belgrade, Serbia, September 24th-28th, 723-725, 2018.

7. Ioana Stanciu, Viscosity Index Improvers for Multi-grade Oil of Copolymers Polyethylene-propylene and Hydrogenated Poly (isoprene-co-styrene), Proc. IBEREO 2017 The multidisciplinary science of rheology, Valencia, Spain, September 6th-8th, 202-206, 2017. 

6. Ioana Stanciu, Rheological Behavior Modelling for the Copolymer Hydrogenated Poly (isoprene-co-styrene) Solutions, Proc. 32^nd  International Conference of the Polymer Processing Society, Lyon, France, July 25th-29th, 2016. 

5. Ioana Stanciu, Evaluation of Rheological Behavior of Some Polyethylene-Polypropylene Concentrated Solutions, Proc. IBEREO 2015 Challenges in Rheology and Product Development, Coimbra, Portugal September 7th-9th, 279-282, 2015.

4. Ioana Stanciu, New Method to Calculate Hansen Solubility Parameter for EPDM, Proc. 12^th International Conference on Fundamental and Applied Aspects of Physical Chemistry Belgrade, Serbia, September 22th-26th, 771-774, 2014.

3. Ioana Stanciu, Rheological Behaviour Study of Rapessed Oil, Proc. Romanian International Conference on Chemistry and Chemical Engineering – RICCCE XVII, International Hotel, Sinaia, September 7th-10th, 80-83, 2011.

2. Ioana Stanciu, Rheological Behavior of Refined Rapeseed Oil, Proc. Conference Dynamic of Complex Fluids, Institute of Macromolecular Chemistry ‘‘Petru Poni’’ Iasi, May 5th-7th, 248-253, 2011.

1. Ioana Stanciu, Kinetic Parameters from Thermogravimetric of Copolymer PARATONE 8900 Used as Viscosity Improvers for Multi-Grade Oil, Center of Research Food, Chemical and Biochemical Engineering, CISA 2010, University of Bacau, April 8th-11th, Slanic Moldova Bacau, 281-284, 2010.