Volume 19, Issue 2, 2012, Pages 241-245,
Hanley, B., Chen, C.-C., New mass-transfer correlations for packed towers, AIChE Journal, Volume 58, Issue 1, January 2012, Pages 132-152
Kashid, M.N., Renken, A., Kiwi-Minsker, L., Gas-liquid and liquid-liquid mass transfer in microstructured reactors( Review ), Chemical Engineering Science Volume 66, Issue 17, 1 September 2011, Pages 3876-3897,
Serrenho, A., Miguel, A.F.Fluid flow and solid/fluid suspensions flow in 3-D packed beds of spheres: The effect of periodicity of fixed beds ( Conference Paper ) Defect and Diffusion Forum Volume 312-315, 2011, Pages 871-876 6th International Conference on Diffusion in Solids and Liquids, DSL-2010;Paris;5 July 2010 through 7 July 2010;Code84766;
Raghavendra Rao, Kishore Kumar, R., Sankarshana, T., Khan, A., Interfacial area for concurrent gas-liquid upflow through packed bed, Canadian journal of chemical engineering , Volume 88, issue 6, december 2010, pages 929-935,
Agarwal, L., Pavani, V., Rao, D.P., Kaistha, N., Process intensification in HiGee absorption and distillation: Design procedure and applications, Industrial and Engineering Chemistry Research Volume 49, Issue 20, 20 October 2010, Pages 10046-10058.
Kolev, N., Nakov, S., Ljutzkanov, L., Kolev, D., Effective area of a highly efficient random packing (2006) Chemical Engineering and Processing: Process Intensification, 45 (6), pp. 429-436. doi: 10.1016/j.cep.2005.10.008
Цитирана от:
-
Hanley, B., Chen, C.-C., New mass-transfer correlations for packed towers, AIChE Journal, Volume 58, Issue 1, January 2012, Pages 132-152
-
Zou, H., Sun, B., Shao, L., Chen, J.-F., Yang, K., Chu, G., Determination of the effective interfacial area in rotating packed bed., Chemical Engineering Journal Volume 168, Issue 3, 15 April 2011, Pages 1377-1382,
-
Tan, L.S., Shariff, A.M., Lau, K.K., Bustam, M.A., Factors affecting CO 2 absorption efficiency in packed column: A review, Journal of Industrial and Engineering Chemistry, 18 (6) 2012, pp. 1874-1883.
-
Faramarzi L. “Post-Combustion Capture of CO2 from Fossil Fueled Power Plants”, PhD Thesis, Department of Chemical and Biochemical Engineering, Technical University of Denmark (2010) 85.
Nakov, Sv., Kolev, N., Ljutzkanov, L., Kolev, D., Comparison of the effective area of some highly effective packings (2007) Chemical Engineering and Processing: Process Intensification, 46 (12), pp. 1385-1390.
Цитирана от:
-
Hanley, B., Chen, C.-C., New mass-transfer correlations for packed towers, AIChE Journal, Volume 58, Issue 1, January 2012, Pages 132-152
-
Tan, L.S., Shariff, A.M., Lau, K.K., Bustam, M.A., Factors affecting CO 2 absorption efficiency in packed column: A review, Journal of Industrial and Engineering Chemistry, 18 (6) 2012, pp. 1874-1883.
-
Sutheerayongpasert A., “Comparison of continuous water washing system of biodiesel”, Master of Engineering Thesis, Prince of Songkla University (2009), 66,
N. Kolev, E. Razkazova-Velkova, A New Column Packing for Operation at Extremely Low Liquid Loads, Chem. Eng. Processing 40 (5) (2001) 471-476.
Цитирана от:
-
L.S. Tan, A.M. Shariff, K.K. Lau, M.A. Bustam, Factors affecting CO2 absorption efficiency in packed column: A review, Journal of Industrial and Engineering Chemistry, Volume 18, Issue 6, 25 November 2012, Pages 1874-1883;
N. Kolev, E. Razkazova-Velkova, P. Lozanov, A New Principle for Creation of Packings Operating at Extremely Low Liquid Superficial Velocity, Chem. Eng. Processing 43 (1) (2004) 1-7.
Цитирана от:
-
L.S. Tan, A.M. Shariff, K.K. Lau, M.A. Bustam, Factors affecting CO2 absorption efficiency in packed column: A review, : Journal of Industrial and Engineering Chemistry, Volume 18, Issue 6, 25 November 2012, Pages 1874-1883
Kolev, N., Nakov, Sv. Performance characteristics of a packing with boundary layer turbulizers. III. Liquid film controlled mass transfer (1994) Chemical Engineering and Processing, 33 (6), pp. 437-442.
Цитирана от:
-
Alix, P., Raynal, L., Abbe, F., Meyer, M., Prevost, M., Rouzineau, D., Mass transfer and hydrodynamic characteristics of new carbon carbon packing:Application to CO 2 post-combustion capture, Chemical Engineering Research and Design Volume 89, Issue 9, September 2011, Pages 1658-1668.
Dzhonova-Atanasova D., N. Kolev, S. Nakov, “Determination of Liquid radial Spreading Coefficient of Some Highly Effective Packings”, Chem. Eng. Technol. 30, Nr.2 (2007)202-207.
Цитирана от:
-
Roberto Nasser Junior, Optimization of the absorption columns in the acetone recovery at the Filter Tow production by phenomenological studies and statistical analysis, PhD thesis, Escola Politécnica, São Paulo, 2009 (in Portuguese)
Minkova, M. Razvigorova, M. Goranova, L. Ljutzkanov, G. Angelova, "Effect of water vapour on the pyrolysis of solid fuels. I. Effect of water vapour during the pyrolysis of solid fuels on the yield and composition of the liquid products", Fuel, vol.70, 1991, pp. 713-719.
Цитирана от:
-
Liu, J., Jiang, J., Yang, W., Preparation of high heating value gas, high quality bio-oil and added value carbon materials from Caragana pyrolyzed via super-high temperature steam, Advanced Materials Research 512-515 , pp. 2152-2161 2012,.
Banov, B., Ljutzkanov L., Dimitrov, I., Tritonova, A., Vasilchina, H., Aleksandrova, A., Mochilov, A., Hang, B.T., Okada, S., Yamaki, J.-I., A study of nanosize Fe3O4 deposited on carbon matrix, Journal of Nanoscience and Nanotechnology, Volume 8, Issue 2, February 2008, Pages 591-594.
Цитирана от:
-
Liu, J., Jiang, J., Yang, W., Preparation of high heating value gas, high quality bio-oil and added value carbon materials from Caragana pyrolyzed via super-high temperature steam, Advanced Materials Research 512-515 , pp. 2152-2161, 2012.
-
He, L., Li, Z., Fu, J., Wang, F., Ma, C., Deng, Y., Shi, Z., (...), He, N., Preparation of SiO 2/(PMMA/Fe 3O 4) nanoparticles using linolenic acid as crosslink agent for nucleic acid detection using chemiluminescent method, Journal of Nanoscience and Nanotechnology, 11 (3) , pp. 2256-2262, 2011.
-
Wang, G., Liu, T., Luo, Y., Zhao, Y., Ren, Z., Bai, J., Wang, H., Preparation of Fe 2O 3/graphene composite and its electrochemical performance as an anode material for lithium ion batteries, Journal of Alloys and Compounds 509 (24) , pp. L216-L220, 2011.
-
Wang, G., Liu, T., Xie, X., Ren, Z., Bai, J., Wang, H., Structure and electrochemical performance of Fe 3O 4/graphene nanocomposite as anode material for lithium-ion batteries, Materials Chemistry and Physics, 128 (3) , pp. 336-34, 2011.
-
Ni, S., He, D., Yang, X., Li, T., Low temperature synthesis of Fe 3O 4 nanoparticles and its application in lithium ion batteries, Materials Chemistry and Physics, 130 (3) , pp. 1260-1264, 2011.
-
Su, D., Horvat, J., Munroe, P., Ahn, H., Ranjbartoreh, A.R., Wang, G., Polyhedral magnetite nanocrystals with multiple facets: Facile synthesis, structural modelling, magnetic properties and application for high capacity lithium storage, Chemistry - A European Journal, 18 (2) , pp. 488-497, 2012.
-
Lu, L., Wang, J.-Z., Gao, X.-W., Zhu, X.-B., Liu, H.-K., Enhanced cycling performance of nanocrystalline Fe 3O 4/C as anode material for lithium-ion batteries, Journal of Nanoscience and Nanotechnology, 12 (2) , pp. 1246-1250, 2012.
-
Lim, H.-S., Jung, B.-Y., Sun, Y.-K., Suh, K.-D., Hollow Fe 3O 4 microspheres as anode materials for lithium-ion batteries, Electrochimica Acta, 75 , pp. 123-130, 2012.
-
Ni, S., Li, T., Yang, X., Fabrication of Cu 2S on Cu film electrode and its application in lithium ion battery, Thin Solid Films, 520 (21) , pp. 6705-6708, 2012.
Ljutzkanov L., Patent № 63594/2002, Republic of Bulgaria.
Цитиран от:
-
Ivanov, M., Mihaylov, M., Silica obtained via pyrolysis of waste 'green' tyres - A filler for tyre tread rubber blends, Journal of Elastomers and Plastics Volume 43, Issue 4, July 2011, Pages 303-316.
Darakchiev, S., Semkov, K. (2008). A study on modern high-effective random packing for ethanol-water rectification, Chemical Engineering Technology, v. 31, 7, pp. 1039-1045
Цитирана от:
-
Marisa Fernandes Mendes, HETP evaluation of structured and randomic packing distillation column, Mass Transfer in Chemical Engineering Processes, Dr. Josef MarkoAi (Ed.), 2011.ISBN: 978–953–307–619-5
-
T. Petrova, Influence of gas flow velocity on the outlet maldistribution coefficient of gas flow after four types gas distribution devices, Journal of international scientific publication: Materials, methods and technologies, 5, Part 2, 192-200 (2011). ISSN: 1313-2539
Nakov Sv., N. Kolev, L. Ljutzkanov and D. Kolev, “Comparison of the effective area of some highly effective packings”, Chem. Eng and Processing, 46 (2007) 1385-1390.
Цитирана от:
-
Hanley B., Ch. Chen “New Mass-Transfer Correlations for Packed Towers” AIChE J, 58, (2012), 132–152.
-
L.S. Tan, A.M. Shariff, K.K. Lau, M.A. Bustam, Factors affecting CO2 absorption efficiency in packed column: A review, Journal of Industrial and Engineering Chemistry (2010), Volume 18, Issue 6, 25 November 2012, 1874-1883
T. Petrova, Kr. Semkov, Ch. Dodev, Mathematical modeling of gas distribution in packed columns, Chem. Eng. Process., 42, 931-937 (2003).
Цитирана от:
-
Yongjia Zhu, Liquid distribution and its effect on local mass transfer in a packed column of Pall rings, Thesis for MSc, Ryerson University, Toronto, Ontario, Canada, 7 (2005)
T. Zhelev, Kr. Semkov, Cleaner flue gas and energy recovery through pinch analysis, Journal of Cleaner Production, 12, 165-170 (2004).
Цитирана от:
-
Sadiq Muhammad Munir, Zainuddin Abdul Manan, Sharifah Rafidah Wan Alwi, Holistic carbon planning for industrial parks: a waste-to-resources process integration approach, Journal of Cleaner Production, 33, 74-85 (2012).
-
Nabeel K. Abbood, Zainuddin A. Manan, Sharifah R. Wan Alwi, A combined numerical and visualization tool for utility targeting and heat exchanger network retrofitting, Journal of Cleaner Production, 23, 1-7 (2012).
-
Perry W. Johnson, Tim A.G. Langrish,.Pinch and Exergy Analysis in Drying: A Thermodynamic Backbone for Process Optimisation and Environmental Assessment, Chemeca 2011: Engineering a Better World: Sydney Hilton Hotel, NSW, Australia, 18-21 Sept. 2011.
-
Chaojun Wang, Boshu He, Shaoyang Sun, Ying Wu, Na Yan, Linbo Yan, Xiaohue Pei, Application of a low pressure economizer for waste heat recovery from exhaust flue gas in a 600 MW power plant, Energy, 48, 196-202 (2012).
Liszi, M.,Hasznosne Nezdei, B. G., F.G. Lakatos, Ts. J. Sapundzhiev, R. Popov, Determination of the crystal growth mechanism of KCl in ethanol-water system, J. of Crystal Growth, 198/199, pp. 1330-1334, 1999.
Цитирана от:
-
Linnikov, O.D., Spontaneous crystallization of potassium chloride from aqueous and aqueous-ethanol solutions part 1: Kinetics and mechanism of the crystallization process, Crystal Research and Technology, 39 (6) , pp. 516-528, (2004).
-
Linnikov, O.D., Spontaneous crystallization of potassium chloride from aqueous and aqueous-ethanol solutions part 2: Mechanism of aggregation and coalescence of crystals, Crystal Research and Technology, 39 (6) , pp. 529-539, (2004).
-
Hao, H., Wang, J., Wang, Y., Determination of induction period and crystal growth mechanism of dexamethasone sodium phosphate in methanol-acetone system, Journal of Crystal Growth, 274 (3-4) , pp. 545-549, (2005).
-
Lopes, A., Farelo, F., Growth kinetics of potassium chloride II - Water-ethanol systems, Journal of Crystal Growth, 290 (1) , pp. 220-224, (2006)
-
Martins, P.M., Rocha, F. ,Characterization of crystal growth using a spiral nucleation model, Surface Science, 601 (16) , pp. 3400-3408,(2007).
Lazarova, Z., Lazarova, M., Kinetic aspects of copper-LIX® extraction from nitrate/nitric acid aqueous solutionsSolvent Extraction and Ion Exchange 25 (5), pp. 619-638, 2007.
Цитирана от :
-
Dey, P., Basu, S., Synergistic effects of organophosphorus compounds on the extraction of copper from aqueous nitrate medium with N-(thioacetyl)benzamide into toluene Journal of the Indian Chemistry Society, 88 (10), pp.1581-1587, 2011.
-
N-C, Panda, S., Parhi, P.K., Pradhan, N., Mohapatra, U.B., Park, K.H.,Extraction of copper from bacterial leach liquor of a low grade chalcopyrite using LIX 984 Hydrometallurgy,121-124, pp. 116-119, 2012.
T. Leiknes, M. Lazarova, H. Ødegaard, Development of a hybrid ozonation biofilm-membrane filtration process for the production of drinking water,Water Science and Technology 51 (6-7), pp. 241-248, 2005.
Цитирана от :
-
Wang, H., Keller, A.A., Clark, K.K.,Natural organic matter removal by adsorption onto magnetic permanently confined micelle arrays Journal of Hazardous Materials, 194, pp. 156-161, 2011.
-
Wang, H., Keller, A.A., Li, F.,Natural organic matter removal by adsorption onto carbonaceous nanoparticles and coagulation ,Journal of Environmental Engineering, 136 (10), pp. 1075-1081, 2010.
Z. Lazarova, M. Lazarova, Solvent Extraction of Copper from Nitrate Media with Chelating LIX-Reagents: Comparative Equilibrium Study, Solvent Extraction and Ion Exchange, 23 (5), pp. 695 - 711, 2005.
Цитирана от :
-
Marjani, A., Shirazian, S., Theoretical studies on copper extraction by means of polymeric membrane contactors, Oriental Journal of Chemistry, 28 (1), pp. 23-28, 2012.
-
N-C, Panda, S., Parhi, P.K., Pradhan, N., Mohapatra, U.B., Park, K.H.,Extraction of copper from bacterial leach liquor of a low grade chalcopyrite using LIX 984 Hydrometallurgy,121-124, pp. 116-119, 2012.
-
Dey, P., Basu, S., Synergistic extraction of copper from nitrate solutions using β-hydroxy-naphthaldoxime and organophosphorus compounds into carbon-tetrachloride, Metallurgical and Materials Transactions B: Process Metallurgy and Materials Processing Science, 42 (6), pp.1136-1143, 2011.
-
Dey, P., Basu, S., Synergistic effects of organophosphorus compounds on the extraction of copper from aqueous nitrate medium with N-(thioacetyl)benzamide into toluene Journal of the Indian Chemistry Society, 88 (10), pp.1581-1587, 2011.
Z. Lazarova, K. Tonova, Integrated reversed micellar extraction and stripping of -amylase, Biotechnol. Bioeng. 63(5) 583-592 (1999)
Цитирана от :
-
Tian Y.L., Li N., Li H.L., Phase separation of reverse micelles, Advanced Materials Research 396-398 498-503 (2012)
-
Gaikaiwari R.P., Wagh S.A., Kulkarni B.D., Efficient lipase purification using reverse micellar extraction, Bioresource Technol. 108 224-230 (2012)
Ulbert O., Bélafi-Bakó K., Tonova K., Gubicza L., Thermal stability enhancement of Candida rugosa lipase using ionic liquids, Biocatal. Biotransform. 23(3-4) 177-183 (2005)
Цитирана от :
-
Hemavathi A.B., Hebbar U.H., Raghavarao K.S.M.S., Reverse micellar extraction of bioactive compounds for food products, in Enhancing extraction processes in the food industry, Lebovka N., Vorobiev E., Chémat F. (Eds.), Contemporary Food Engineering Series (Da-Wen Sun, Series Editor), CRC Press, Taylor & Francis Group, LLC, 399-434 (2012)
-
Sajjadi S., Ghourchian H., Rafiee-Pour H.-A., Rahimi P., Accelerating the electron transfer of choline oxidase using ionic-liquid/NH 2-MWCNTs nanocomposite, J. Iranian Chem. Soc. 9(2) 111-119 (2012)
-
de los Rios A.P., van Rantwijk F., Sheldon R.A., Effective resolution of 1-phenyl ethanol by Candida antarctica lipase B catalysed acylation with vinyl acetate in protic ionic liquids (PILs), Green Chem. 14 (6) 1584-1588 (2012)
-
Shim Y., Kim H.J., Jung Y.J., Solvation of a small metal-binding peptide in room-temperature ionic liquids, Bull. Korean Chem. Soc. 33(11) 3601-3606 (2012)
Konstantza Tonova, Zdravka Lazarova, Influence of enzyme aqueous source on RME-based purification of -amylase, Sep. Purif. Technol. 47(1-2) 43-51 (2005)
Цитирана от :
-
Hemavathi A.B., Hebbar U.H., Raghavarao K.S.M.S., Reverse micellar extraction of bioactive compounds for food products, in Enhancing extraction processes in the food industry, Lebovka N., Vorobiev E., Chémat F. (Eds.), Contemporary Food Engineering Series (Da-Wen Sun, Series Editor), CRC Press, Taylor & Francis Group, LLC, 399-434 (2012)
-
Gaikaiwari R.P., Wagh S.A., Kulkarni B.D., Extraction and purification of tannase by reverse micelle system, Sep. Purif. Technol. 89 288-296 (2012)
K. Tonova, Z. Lazarova, N. Nemestóthy, L. Gubicza, K. Bélafi-Bakó, Lipase-catalyzed esterification in a reversed micellar reaction system, Chem. Ind. Chem. Eng. Quart. 12(3) 175-180 (2006)
цитираща книга :
-
Hemavathi A.B., Hebbar U.H., Raghavarao K.S.M.S., Reverse micellar extraction of bioactive compounds for food products, in Enhancing extraction processes in the food industry, Lebovka N., Vorobiev E., Chémat F. (Eds.), Contemporary Food Engineering Series (Da-Wen Sun, Series Editor), CRC Press, Taylor & Francis Group, LLC, 399-434 (2012)
Konstantza Tonova, Zdravka Lazarova, Reversed micelle solvents as tools of enzyme purification and enzyme-catalyzed conversion, Biotechnol. Adv. 26(6) 516-532 (2008)
Цитирана от :
-
Hemavathi A.B., Hebbar U.H., Raghavarao K.S.M.S., Reverse micellar extraction of bioactive compounds for food products, in Enhancing extraction processes in the food industry, Lebovka N., Vorobiev E., Chémat F. (Eds.), Contemporary Food Engineering Series (Da-Wen Sun, Series Editor), CRC Press, Taylor & Francis Group, LLC, 399-434 (2012)
-
Fragoso A., Pacheco R., Karmali A., Investigation of structural effects and behaviour of Pseudomonas aeruginosa amidase encapsulated in reversed micelles, Process Biochem. 47(2) 264-272 (2012)
-
Gaikaiwari R.P., Wagh S.A., Kulkarni B.D., Efficient lipase purification using reverse micellar extraction, Bioresource Technol. 108 224-230 (2012)
-
Gaikaiwari R.P., Wagh S.A., Kulkarni B.D., Extraction and purification of tannase by reverse micelle system, Sep. Purif. Technol. 89 288-296 (2012)
-
Xue L., Li Y., Zou F., Lu L., Zhao Y., Huang X., Qu Y., The catalytic efficiency of lipase in a novel water-in-[Bmim][PF6] microemulsion stabilized by both AOT and Triton X-100, Colloids Surf. B: Biointerfaces 92 360-366 (2012)
-
Mazi B.G., Hamamci H., Dungan S.R., One-step separation of β-galactosidase from β-lactoglobulin using water-in-oil microemulsions, Food Chem. 132(1) 326-332
-
Peng X., Yuan X.-Z., Zeng G.-M., Huang H.-J., Zhong H., Liu Z.-F., Cui K.-L., Liang Y.-S., Peng Z.-Y., Guo L.-Z., Ma Y.-K. Liu W., Extraction and purification of laccase by employing a novel rhamnolipid reversed micellar system, Process Biochem., 47 (5) 742-748 (2012)
-
Guo L.-Z., Yuan X.-Z., Zeng G.-M., Cui K.-L., Huang H.-J., Liang Y.-S., Fang Z.-M., Peng X., The purification progress of lignin peroxidase by reversed micelle system, Zhongguo Huanjing Kexue/China Environm. Sci. 32(6) 1104-1109 (2012)
-
Qiu F., Chen Y.-Z., Tang C.-K., Lu Y.-R., Cheng J.-Q., Zhao X.-J., Formation of reversed micelle nanoring by a designed surfactant-like peptide, Nano 7(4) art. No 1250024 DOI: 10.1142/S1793292012500245 (2012)
-
Correa N.M., Silber J.J., Riter R.E., Levinger N.E., Nonaqueous polar solvents in reverse micelle systems, Chem. Rev. 112(8) 4569-4602 (2012)
-
Mohd-Setapar S.H., Mohamad-Aziz S.N., Joanne C., Reverse micelle liquid-liquid extraction of bovine serum albumin and lysozyme, Jurnal Teknologi (Sciences and Engineering) ISSN 0127-9696 58 7-11 (2012)
Konstantza Tonova, Separation of poly- and disaccharides by biphasic systems based on ionic liquids, Sep. Purif. Technol. 89 57-65 (2012)
Цитирана от :
-
Fan Y.-C., Yan J.-L., Zhang S., Li J., Chen D., Duan P., Fluorescence spectroscopic analysis of the interaction of papain with ionic liquids, Appl. Biochem. Biotechnol. 168(3) 592-603 (2012)
Karsheva M., Georgieva S., Handjieva S., The choice of the thickener - a way to improve the cosmetics sensory properties, J. Uni. Chem. Techn. Metal. 42, (2007), 187-194.
Цитирана от:
-
Habiba Nazir, Lianyan Wang, Guoping Lian, Shiping Zhu, Yueling Zhang, Yuan, Liu, Guanghui Ma,Multilayered Silicone Oil Droplets of Narrow Size Distribution:Preparation and Improved Deposition on Hair, Colloids and Surfaces B: Biointerfaces, 100, 2012 42–49.
Atanassova M., Georgieva S., Ivancheva K., Total phenolic and total flavonoid contents, antioxidant capacity and biological contaminants in medicinal herbs, Journal of the University of Chemical Technology and Metallurgy, 46, 1, 2011, 81-88.
Цитирана от:
-
Santos, Isis Sofia Norinho, Avaliação do potencial antioxidante dos compostos fenólicos de extractos de plantas da flora portuguesa, Universidade Fernando Pessoa Faculdade de ciencias da saude
-
Tatiya A., Surana S., Bhavsar S., Patil D., Patil, Y., Pharmacognostic and preliminary phytochemical investigation of Eulophia herbacea Lindl. Tubers (Orchidaceae), 2012, Asian Pacific Journal of Tropical Disease 2 (SUPPL.1), S50-S55.
-
Nunes R., Anastácio A.,Carvalho I.S., Antioxidant and Free Radical Scavenging Activities of Different Plant Parts from Two Erica Species, 2012, Journal of Food Quality, 35 (5) , 307-314.
-
Ibrahim, T.A., Chemical composition and biological activity of extracts from salvia bicolor desf. growing in Egypt, 2012, Molecules, 17 (10) , 11315-11334.
-
Redha A., Al-Mansor N., Suleman P., Al-Hasan R., Afzal M., Modulation of antioxidant defenses in Conocarpus lancifolius under variable abiotic stress, 2012, Biochemical Systematics and Ecology,
Сподели с приятели: |
