سوابق تحصیلی
دکتری: مهندسی شیمی – فرایند
کارشناسی ارشد: مهندسی شیمی – بیوتکنولوژی
کارشناسی:  شیمی
زمینه های تحقیقاتی مورد علاقه
  1. اگزرژی و ترمودینامیک میکروارگانیسم‌های فوتوسنتزکننده
  2. مدل‌سازی پدیده‌های زیستی مربوط به مقابله با ریزگردها
  3. ترمودینامیک سیکل‌های اکولوژیکی ترکیب‌های شیمیایی
مقالات چاپ شده در نشریات معتبر علمی- پژوهشی بین المللی و ISI
  1. Lababpour, A.; Hada, K.; Shimahara, K.; Katsuda, T.; Katoh, S. Effects of nutrient supply methods and illumination with blue light emitting diodes (LEDs) on astaxanthin production by Haematococcus pluvialis. J. Biosci. Bioeng. 2004, 98, 452–۴۵۶٫
  2. Katsuda, T.; Lababpour, A.; Shimahara, K.; Katoh, S. Astaxanthin production by Haematococcus pluvialis under illumination with LEDs. Enzyme Microb. Technol. 2004, 35, 81–۸۶٫
  3. Lababpour, A.; Shimahara, K.; Hada, K.; Kyoui, Y.; Katsuda, T.; Katoh, S. Fed-batch culture under illumination with blue light emitting diodes (LEDs) for astaxanthin production by Haematococcus pluvialis. J. Biosci. Bioeng. 2005, 100, 339–۳۴۲٫
  4. Lababpour, A.; Lee, C.-G. Simultaneous measurement of chlorophyll and astaxanthin in Haematococcus pluvialis cells by first-order derivative ultraviolet-visible spectrophotometry. J. Biosci. Bioeng. 2006, 101, 104–۱۱۰٫
  5. Lababpour, A.; Hong, S.-J.; Lee, C.-G. Haematococcus pulvialis cell- mass sensing using ultraviolet fluorescence spectroscopy. J. Microbiol. Biotechnoogy 2007, 17, 1922–۱۹۲۹٫
  6. Sharafi, H.; Alidost, L.; Lababpour, A.; Shahbani Zahiri, H.; Abbasi, H.; Vali, H.; Akbari Noghabi, K. Antibacterial Activity of Probiotic Lactobacillus plantarum HK01: Effect of Divalent Metal Cations and Food Additives on Production Efficiency of Antibacterial Compounds. Probiotics Antimicrob. Proteins 2013, 5, 121–۱۳۰٫
  7. A. Moafi, A. Lababpour, D.D. Ganji, E. M. A new technique to calculate the lagrangian coeficient to be used in variational by using laplace transformation. Int. J. Nonlinear Dyn. Eng. Sci. 2013, 5, 1–۵٫
  8. Lababpour, A.; Kaviani, M. Isolation and submerged culture biomass production of the arid land cyanobacteria Microcoleus spp., an investigation on its utilization for biological soil crust restoration. Environ. Earth Sci. 2016, 75, 1495–۱۵۰۸٫
  9. Lababpour, A. Diffusion Limited Aggregation Model and Microcoleus Morphological and Growth Assessment on the Soil Surface. J. Environ. Biol. Sci. 2017, 7, 65–۷۳٫
  10. Lababpour, A. A simultaneous Spirulina biomass production and brine desalination in an autotrophic culture. Desalin. water Treat. 2017, 79, 135–۱۴۱٫
  11. Lababpour, A. Development of a Mathematical Model for Simulation of Macroalgae Farming in the Coastal Areas. Sultan Qaboos Univ. J. Sci. [SQUJS] 2018, 23, 32–۴۲٫
  12. Naimabadi, A.; Shirmardi, M.; Maleki, H.; Teymouri, P.; Goudarzi, G.; Shahsavani, A.; Sorooshian, A.; Babaei, A. A.; Mehrabi, N.; Baneshi, M. M.; Zarei, M. R.; Lababpour, A.; Ghozikali, M. G. On the chemical nature of precipitation in a populated Middle Eastern Region (Ahvaz, Iran) with diverse sources. Ecotoxicol. Environ. Saf. 2018, 163, 558–۵۶۶٫
  13. Lababpour, A. A dynamic model for the prediction of flue gas carbon dioxide removal by the microalga Chlorella vulgaris in column photobioreactor. Alexandria Eng. J. ( Press. 2018.
  14. Lababpour, A. Potentials of the microalgae inoculant in restoration of biological soil crusts to combat desertification. Int. J. Environ. Sci. Technol. 2016, 13, 2521–۲۵۳۲٫
  15. Lababpour, A. Continuous Hydrothermal Liquefaction for Biofuel and Biocrude Production from Microalgal Feedstock. ChemBioEng Rev. 2018, 5
مقالات چاپ شده در نشریات معتبر داخلی
 

  1. Lababpour, A. Phytoplankton community and physico-chemical characteristics of seawater in the Bandar Abbas coastal water, Persian Gulf: An environmental and process perspective. J. Persian Gulf 2015, 6, 39–۵۰٫
  2. Sheykhi Nejad, A.; Lababpour, A.; Moazami, N. Increasing cyanobacteria Spirulina production with mixing and chemical composition of culture medium. J. Plant Resaerch 2016, 28, 344–۳۵۳٫
  3. Lababpour, A. Soil restoration and dust reduction by using prokaryotic soil microalgae. Hakim Res. J. 2017, 19, 111–۱۱۷٫
  4. Lababpour, A. Site assessment for industrial mass cultivation of microalgae: Case studies from Persian Gulf and Oman Sea coastal areas. J. Appl. Res. Geogr. Sci. 2018, 47, 227–۲۳۹٫
همایش های بین المللی
  1. Lababpour A., K. Shimahara, T. Katsuda, S. K. Effects of Light on theProduction of Astaxanthin by Green Algae Haematococcus pluvialis. In The 35th AutumnMeeting of Society of Chemical Engineer’s Japan.; 2002.
  2. Katsuda T., A. Lababpour, K. Shimahara, S. K. Astaxanthin production by Using LED Lamps. In Astaxanthin production by Using LED Lamps, Presented in “YABEC (Young Asian Biochemical Engineer’s Community) Symposium2002; Taipei, 2002.
  3. Katsuda, T.; Lababpour, A.; Shimahara, K.; Katoh, S. Using light emitting diodes (LED’s) for production of astaxanthin by Haematococcus pluvialis. In The “۳۵th Autumn Meeting of Society of Chemical Engineer’s Japan; Japan, 2002.
  4. Lababpour, A. A glances on technical and vocational education in the ministry of education of Iran. In International Symposium on Educational Cooperation for “Industrial Technology Education; Nagoya, Japan, 2003.
  5. Katsuda, T.; Lababpour, A.; Shimahara, K.; Hada, K.; Katoh, S. Production of Astaxanthin by Haematococcus Under pulse illumination. In The 36th Annual Meeting of the Society of Chemical Engineers; Japan, 2003.
  6. Lababpour, A. An educational multimedia package for integration of photobioprocesses and photobioreactors into the biotechnology education curriculum. In American Society for Engineering Education (ASEE) Annual Conference Exhibition; USA, 2004.
  7. Lababpour, A.; Katsuda, T.; Katoh, S. Astaxanthin production by H. pluvialis in sequential batch followed by fed-batch culture illuminated by LED lamps. In AIChE Annual Meeting, Conference Proceedings; 2004.
  8. Lababpour, A. A Survey of biotechnology education in schools of iran. In ASEE Annual Conference Proceedings; 2003.
  9. Lababpour, A. Bioremediation of municipal wastewater using macroalga genus Gracilaria. In International Society for Horticultural Science (ISHS); Muscat, Oman, 2013; pp. 215–۲۲۰٫
  10. Lababpour, A. Simultaneous microalga biomass production and wastewater treatment in various pond geometries. In International Society for Horticultural Science (ISHS); Muscat, Oman, 2013; pp. 161–۱۶۸٫
  11. Lababpour, A. Open-water cultivation of seaweed genus gracilaria in the coastal waters of Qeshm island for agar production. Acta Hortic. 2014, 1054, 325–۳۳۲٫
  12. Lababpour, A.; Kaviani, M.; Hosseini, N. Identification of soil prokariotic microalgae of Asaluye area to increase soil stability and combat desertification. In International Conference on Dust; Mar 2-4, Ahwaz, Iran, 2016; pp. 842–۸۴۸٫
  13. Lababpour, A.; Kaviani, M. Experimental evaluation of biological soil crust formation on the desert soil surface. In 3rd National and 1th International Conference in Applied Research on Biology; Sep 8, Tehran, Iran, 2016; pp. 1–۵٫
  14. Lababpour, A. Effect of light modeling on the filamentous cyanobacteria Microcoleus biofilm growth. In International Conference on Research in Agricultural Science and Environment; Sep 9, Tehran, Iran, 2016; pp. 1–۶٫
  15. Lababpour, A. Effects of soil inoculation with alive and dried cyanobacteria Microcoleus on nitrogen content of soil dust sources. In 1st International Joint Conference on New Trends In Biotechnology; Zahedan April 18-19, 2017; pp. 988–۹۹۲٫
  16. Lababpour, A. Development of a simple mathematical model of filamentous cyanobacteria Microcoleus biofilm on the soil surface of desert. In 5th International Conference on Applied Resaerch in Chemistry and Chemical Engineering Focusing on Local technologies; 2018.
  17. Lababpour, A. A thermodynamic model for attachment of soil particles to cyanobacteria sheath in liquid medium. In 5th International Conference on Applied Resaerch in Chemistry and Chemical Engineering Focusing on Local technologies; Tehran, Iran, 2018.
  18. Lababpour, A. Exergy life cycle assessment for soil restoration technologies: Case study of Khozestan province, Iran. In International Congress on Agricultural Engineering and Related Industries; Tehran, Iran, 2018.
  19. Lababpour, A.; Shimahara, K.; Katsuda, T.; Katoh, S. Effects of light on the production of astaxanthin by green algae Haematococcus pluvialis. In The 35th Autumn Meeting of Society of Chemical Engineer’s Japan; Japan, 2002.
  20. Katsuda, T.; Lababpour, A.; Shimahara, K.; Katoh, S. Astaxanthin production by using LED lamps. In Asian Biochemical Engineer’s Community Symposium (YABEC); Taiwan, 2002.
  21. Lababpour, A.; Hada, K.; Shimahara, K.; Katsuda, T.; Katoh, S. Increasing cell density and astaxanthin accumulation in H.pluvialis culture illuminated by LED lamps. In Young Asian Biochemical Engineer’s Community Symposium (YABEC); South Korea, 2003.
  22. Shimahara, K.; Lababpour, A.; Katsuda, T.; Hada, K.; Katoh, S. Effects of pulse irradiation with blue LED on astaxanthin production by the green algae Haematococcus pluvialis. In The Annual Meeting of the Society of Biotechnology; Japan, 2003.
  23. Katoh, S.; Lababpour, A.; Katsuda, T. Cultivation of microalga in photobioreactors illuminated with LED’s. In The Sixth Italian Conference on Chemical and Process Engineering; Italy, 2003.
  24. Lababpour, A.; Hada, K.; Kazumichi, Shimahara Tomohisa, K.; Katoh, S. Induction of astaxanthin accumulation in H. pluvialis by illumination with LED lamps and fed batch addition of nutrients. In Young Asian Biochemical Engineer’s Community Symposium (YABEC); Japan, 2004.
  25. Lababpour, A.; Hada, K.; Shimahara, K.; Tomohisa, K.; Katoh, S. Effects of medium replacement on H. pluvialis cultures illuminated with LED lamps. In The 10th Asian Pacific Confedration of Chemical Engineering (APCChE) Congress; Japan, 2004.
  26. Shimahara, K.; Lababpour, A.; Hada, K.; Katoh, S. Astaxanthin production with Haematococcus pluvialis by using LED. In Second Seminar of Frontiers in Biotechnology; Japan, 2004.
  27. Lababpour, A.; Hada, K.; Shimahara, K.; Tomohisa, K.; Katoh, S. Growth and astaxanthin accumulation in H.pluvialis cultures illuminated by LED lamps. In The 37th Annual Meeting of the Society of Chemical Engineers, Japan (SCEJ); Japan, 2004.
  28. Lababpour, A.; Katoh, S. Astaxanthin production with H. pluvialis by switching medium supply and lighting by LEDs. In 55th Canadian Chemical Engineering Conference; Toronto, Canada, 2005.
  29. Lababpour, A.; Katoh, S. Fed-batch cultivation of H. pluvialis under illumination with LEDs for production of astaxanthin. In 12th European Congress on Biotechnology in Copenhagen; Denmark, 2005.
  30. Katsuda, T.; Lababpour, A.; Shimahara, K.; Katoh, S. Effects of feeding method on astaxanthin production by H. pluvialis. In APBioCHEC; Korea, 2005.
  31. Katsuda, T.; Lababpour, A.; Shimahara, K.; Katoh, S. Astaxanthin production by H. pluvialis. In SCEJ; Japan, 2005.
  32. Lababpour, A. Non-Invasive Determination of Astaxanthin and Chlorophyll in Haematococcus Pluvialis. In AIChE 2006; USA, 2006.
  33. Lababpour, A. Biosynthesis of Astaxanthin in Haematococcus Pluvialis under Zinc, Copper and Iron Metal Stresses. In AIChE 2006; USA, 2006.
  34. Lababpour, A. Design of a new single hub wheel for mixing of the microalgal cultivation ponds. In 8th European Workshop in Microalgal Biotechnology, Germany; Berlin, Germany, 2010.
  35. Lababpour, A. Design of Open Photobioreactor with Semi Cylindrically Bottom Shape for Cultivation of Haematococcus pluvialis. In World Congress of Industrial Biotechnology 2010 (ibio-2010); China, 2010.
  36. Lababpour, A. Identification and characterisation of macroalgae communities in Qeshm Island coastal zones, Persian Gulf. In 5th symposium on MICROALGAE AND SEAWEED PRODUCTS IN plant/soil systems”contribution to sustainable agriculture”; Hungary, 2011.
  37. Lababpour, A. Design of algae-based facility for CO2 capture and communication with stakeholders. In GHGT-11; Kyoto, Japan, 2012.
  38. Lababpour, A. Model-based dynamic optimization of flue gas supply to cultures of microalga Chlorella vulgaris. NAOIII2014 2014.
  39. Lababpour, A.; Mehrpooyan, S.; Kaviani, M. An image processing method development for Microcoleus covered area monitoring. In National Conference on Applied Research in Agriculture (ECARA); Karaj, iran, 2016; pp. 1–۶٫
  40. Lababpour, A. Modeling and simulation of the Microcoleus biofilm growth on dryland soil surface. In Third International Workshop on Biological Soil Crusts (Biocrust 3); Sep 26-30, Utah, USA, 2016; p. 33.
  41. Hosseini, N.; Lababpour, A.; Farokhpour, N.; Warren-Rhodes; A, K.; McKay, C. Molecular identification of microorganisms in colonized Lut Desert rocks and relevance to the search for life on Mars. In Third International Workshop on Biological Soil Crusts (Biocrust 3); Sep 26-30, Utah, USA, 2016; p. 28.
  42. Lababpour, A. Investigating macroalgae farming in the coastal areas: A modeling approach. In the Fourth Conference on “Numerical Analysis and Optimization: Theory, Methods, Applications and Technology Transfer (NAOIV2017); Jan 2-5, Muscat, Oman, 2017; p. 47.
  43. Lababpour, A. Estimating the exergy of biocrust nitrogen compounds and its application in the exergetic evaluation of soil restoration technologies. In 21th symposium nitrogen cycling; 19 Nov. Tsukuba, Japan, 2018.
  44. Microcoleus on the desert soil substratum. In 3rd Conference on Recent Innovations in Chemistry and Chemical Engineering (ICCCE16); Sep 8, Tehran, Iran, 2016
همایش های ملی و منطقه ای
  1. Lababpour, A. Opportunities of microalgae large scale production in Iran. In 1st confrence on National production; Tarbat Modares University, Tehran, Iran, 2012.
  2. Lababpour, A. A study of substrate inhibitory effects in carbon dioxide removal using microalga Chlorella vulgaris. In National Bioremediation Symposium; Sharif University of Technology: Tehran, Iran, 2013.
  3. Lababpour, A. Cultivation of microalga Chlorella vulgaris in municipal wastewater for biomass production. In National Bioremediation Symposium; Sharif University of Technology: Tehran, Iran, 2013; pp. 8–۱۵٫
  4. Lababpour, A. Modeling of substrate consumption and growth of filamentous cyanobacteria
  5. Lababpour, A. Mathematical model analysis of macroalga Gracilaria time rate to estimate its cultivation feasibility in Persian Gulf coastal area. In 2nd National Conference of Sea-base Sustainable Development; Jan 25-26, Khoramshahr, Iran, 2017; pp. 1–۵٫
  6. Lababpour, A. Comparison of biofilm models for application in Biological Soil Crust restoration and combat dust emisssion (Persian). In Iranian National Conference on Agriculture, Natural Resources, and Environment; Mar 17, Tehran, Iran, 2017; pp. 1–۵٫
  7. Lababpour, A. Adhesiveness of soil particles by biological material and components produced in biological soil crust: Mathematical model. In Iranian National Conference on Agriculture, Natural Resources, and Environment; Mar 17, Tehran, Iran, 2017; pp. 1–۵٫
  8. Lababpour, A. Soil restoration with biotechnology to combat dust risks in Khuzestan province. In 3rd Conference on Sustainable Security in Khuzestan Province; Shahid Chamran University: Ahwaz, Iran, 2018.
  9. Lababpour, A.; Salimpoor, M. Process design for production of biogas by coastal marine alga Gracilaria salicornia. In The first national conference of phycology of Iran; Tehran, Iran, 2011.
  10. Hosseini, S. J.; Lababpour, A. Identification and genetic characterization of marine microalga Chlorella isolated from coastal area of Qeshm Island. In The First National Conference on Phycology of Iran; 2011.
  11. Lababpour, A.; Eidighareghazi, F.; Hoseini, M. Integrating marine macroalga Gracilaria opsis persica into the wastewater treatment system. In The first national conference of phycology of Iran; Tehran, Iran, 2011.
  12. Lababpour, A.; Ghaderi, F. Marine microalga Dunaliella cultivation in natural seawater resources. In The first national conference of phycology of Iran; Tehran, Iran, 2011; p. 393.
  13. Lababpour, A.; Eidighareghazi, F.; Hosseini, M. Adaptation of marine macroalga Gracilaria opsis persica to salinity tolerance. In The first national conference of phycology of Iran; Tehran, Iran, 2011.
  14. Lababpour, A.; Feghhi, S. M. A.; Salimpoor, M. Biodiesel and biogas production by Gracilaria salicornia biomass. In The first national conference of phycology of Iran; Tehran, Iran, 2011.
  15. Lababpour, A. Microalgae cultivation in municipal wastewater and microalgae biomass production. In 3rd National Conference on Agricultural Biotechnology; Mashhad, Iran, 2012.
  16. Sheykhi Nejad, A.; Jafari, S.; Halaj, A.; Lababpour, A. Selection of convenient microalga for absorption and reduction of carbon dioxide and greenhouse gases (persian). In 1st Conference on Bioremediation, Sharif University of Technology; Nov 9, Tehran, Iran, 2013.
  17. Lababpour, A. Cyanobacteria inoculant development in submerged cultures for application in Biological Soil Crust restoration of semi-arid and desert areas. In 1st National Conference on New Finding in Biology; Nov 23-24, Zahedan, Iran, 2016; p. 1.
  18. Lababpour, A. Study of cyanobacteria Microcoleus growth in solid state culture. In National Conference of Algae and Aquatic Plants (Persian); Tehran, Iran, Oct 30-31, 2017.
  19. Lababpour, A. Isolation and morphological characterization of cyanobacteria Microcoleus from Omm-ul-Debes surface soil. In National Conference of Algae and Aquatic Plants (Persian); Tehran, Iran, Oct 30-31, 2017.
  20. Lababpour, A. Determination of diffusion coefficient in restoration equation by filamentous cyanobacteria used for arid land soils. In National Conference on Climate Change and Aquous Ecosystems (Persian); Bandar Abbas, Iran, May 15-16, 2018.
  21. Lababpour, A. The effects of air humidity on the growth of filamentous cyanobacteria Microcoleus in the soil of dry lands. In National Conference on Climate Change and Aquous Ecosystems (Persian); Bandar Abbas, Iran, May 15-16, 2018.
  22. ۸۴٫ Lababpour, A. The effects of cultivation bed on the uniform distribution of the grown cyanobacteria Microcoleus. In National Conference on Climate Change and Aquous Ecosystems (Persian); Bandar Abbas, Iran, May 15-16, 2018
تالیف و ترجمه کتاب
  1. Lababpour, A. Chemistry of ceramics; Ministry of Education: Tehran, Iran, 2000.
  2. Lababpour, A. Microalgae Biofuels; University of Tehran: Tehran, Iran, 2015.
  3. Lababpour, A. Carbon Dioxide Biofixation by Microalgae: Modeling, Estimation and Control; University of Tehran: Tehran, Iran, 2016.
طرح های تحقیقاتی در دست اجرا
عنوان طرح: بررسی ترمودینامیکی اثر افزودنی‌های آلی و معدنی برافزایش قدرت اتصال سیانوباکتری به ذرات خاک  

 

عنوان طرح: توسعه مدل ترمودینامیک برای بررسی اثرمتقابل سیانوباکتری و ذرات خاک

طرح های تحقیقاتی خاتمه یافته
۱٫

۲٫

راهنمایی و مشاوره پروژه های کارشناسی، پایان نامه های کارشناسی ارشد و رساله های دکتری
راهنمای پروژه کارشناسی دو نفر

راهنمای پایان نامه کارشناسی ارشد چهار نفر

مشاوررساله دکتری یک نفر

فعالیتهای اجرایی
 رییس مرکز بین المللی رشد قشم

معاون پژوهشی پارک علم و فناوری قشم

جوایز و افتخارات
۱٫

۲٫

صفحه انگلیسی