سعید حصارکی
عضو هيات علمي پژوهشکده فناوری ناو و مواد پیشرفته
عضو گروه پژوهشي مواد زیستی
مرتبه علمي : استاد
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  • مقالات ژورنال
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اطلاعات شخصي

BSc in Materials Eng., Iran University of Science and Technology, 1999, Iran

MSc in Biomedical Eng., Biomaterials, Amirkabir University of Technology, 2001, Iran

PhD in Biomedical Eng., Biomaterials, Amirkabir University of Technology, 2005, Iran

اطلاعات پژوهشي و فناوري

  1. Mohammdi M., Rabiee SM, Hesaraki S., The Release Behavior, Biocompatibility and Physical Properties of Ald-loaded Strontium Doped Calcium Phosphate Cement. J Bionic Engineering 17 (2020) 1209-1223.
  2. Jabari F. Hesaraki S., Houshmand B. The physical, mechanical, and biological properties of silk fibroin/chitosan/reduced graphene oxide composite membranes for guided bone regeneration. J Biomaterials Science, Polymer Edition, 30 (2019) 1779-1802.
  3. Rasti M., Hesaraki S., Nezafati N., Effects of GPTMS concentration and powder to liquid ratio on the flowability and biodegradation behaviors of 45S5 bioglass/tragacanth bioactive composite pastes. J Applied Polymer Science, 136 (2019) 47604
  4. Esameilzadeh J., Hesaraki S., Ebrahimzadeh MH., Asghari GH., Kachooei AR. Creep behavior of Biodegradable Triple-component Nanocomposites Based on PLA/PCL/bioactive Glass for ACL Interference Screws. The Achieves of Bone and Joint Surgery, 7 (2019) 531-537.
  5. Karimi M., Hesaraki S., Alizadeh M., Kazemzadeh A., Effect of synthetic amorphous calcium phosphate nanoparticles on the physicochemical and biological properties of resin-modified glass ionomer cements. Masterials Science and Engineering C 98 (2019) 227-240.
  6. Moraveji M. Nezafati N., Pazouki M., Hesaraki S., Bioorthogonal surface modified α-TCP-based bone filler for enhancement of apatite formation and bioactivity. Ceramics International, 2019 (In Press)
  7. Karimi M., Hesaraki S., Nezafati N. In vitro biodegradability–bioactivity-biocompatibility and antibacterial properties of SrF2 nanoparticles synthesized by one-pot and eco-friendly method based on ternary strontium chloride-choline chloride-water deep eutectic system. Ceramics International, 44 (2018) 12877-12885
  8. Saba G., Hesaraki S., Hajisafari M. Utlization of rheological parameters for the prediction of β-TCP suspension suitability to fabricate bone tissue engineering scaffold through foam replication method. Journal of the Australian Ceramic Sociey, 2018 (in press).
  9. Fakhrei O., Hesaraki S., Alizadeh M., Fracture toughness and R-curve behavior of BCP/YTZP nanocomposites produced using the spark plasma sintering process. Journal of Alloys and Compounds 725 (2017) 623-631.
  10. Esmaielzadeh J., Hesaraki S., Hadavi S.M.M., Ebrahimzadeh MH., Esfandeh M. Poly (d/l) lactide/polycaprolactone/bioactive glasss nanocomposites materials for anterior cruciate ligament reconstruction screws: The effect of glass surface functionalization on mechanical properties and cell behaviors. Materials Sience and Engineering C, 77 (2017) 978–989.
  11. Faridi-Majidi R., Nezafati N., Pazouki M., Hesaraki S., The effect of synthesis parameters on morphology and diameter of electrospun hydroxyapatite nanofibers. Journal of the Australian Ceramic Society, 53 (2017) 225-233
  12. Karimi M, Hesaraki S, Alizadeh M, Kazemzadeh A. Time and temperature mediated evolution of CDHA from ACP nanoparticles in deep eutectic solvents: Kinetic and thermodynamic considerations. Materials and Design 122 (2017) 1-10.
  13. Orshesh Z., Hesaraki S., Khanlarkhani A., Blooming gelatin: An individual additive for enhancing nanoapatite precipitation, physical properties and osteoblastic responses of nanostructured macroporous calcium phosphate bone cements. Int J Nanomedicine 12 (2017) 745-758
  14. Fakhrei O., Hesaraki S., Alizadeh M., Mechanical properties of PSZ-reinforced biphasic calcium phosphate bone substitute sintered in a conventional furnace and by microwave irradiation. Ceramics International 43 (2017) 2403-2412
  15. Esmaielzadeh J., Hesaraki S., Hadavi S.M.M., Esfandeh M., Ebrahimzadeh MH, Microstructure and mechanical properties of biodegradable poly (D/L) lactic acid/polycaprolactone blends processed from the solvent-evaporation technique. Materials Sience and Engineering C, 71 (2017) 807–819.
  16. Barounian M.H., Hesaraki S., Kazemzadeh A. Polymeric bone nanocomposites: Effect of indomethacine drug addition on in vitro behavior of a polymeric light-cured calcium phosphate cement. Biointerface Research in Applied Chemistry 2016 (In press).
  17. Borhan S, Hesaraki S, Behnamghder A, GHasemi E. Rheological evaluations and in-vitro studies of injectable bioactive glass- polycaprolactone- sodium alginate composites. Journal of Materials Science: Materials in Medicine, 2016 27 (2016) 137, sept. Amirjani AM, Bagheri M, Heydari M, Hesaraki S. Colorimetric determination of Timolol based on localized surface plasmon resonance of silver nanoparticles. Nanotechnology, 2016, 27, 375503
  18. Barounian MH., Hesaraki S., Kazemzadeh A. Effect of curing regime and maturation time on photopolymerisation and in vitro behavior of a polymeric light-cured calcium phosphate cement. Biointerface Research in Applied Chemistry 2016 (6) 1236-1242.
  19. Farokhi M,Nezafati N, HeydariM, Hesaraki S. Use of epoxypropoxy-propyl-trimethoxysilane in the fabrication of bioactive gelatin microspheres using an emulsification method. Journal of Materials Science. 51 (2016) 9356-9366
  20. Borhan S, Hesaraki S., Nezafati . Synthesis and rheological evaluations of novel injectable sodium alginate/ chitosan-nanostructured hydroxyapatite composite bone pastes. Journal of the Australian Ceramics Society. 52 (2016) 120-127.
  21. Fakhraei O, Hesaraki S, Alizadeh M. Evaluation of biphasic calcium phosphate/nanosized 3YSZ composites as toughened materials for bone substitution. Ceramics Internation 42 (2016) 11201-11208.
  22. Karimi M, Hesaraki S, Alizadeh M, Kazemzadeh A. A Facile and Sustainable Method Based on Deep Eutectic Solvents toward the Synthesis of Amorphous Calcium Phosphate Nanoparticles: The effect of using various solvents and precursors on physical characteristics. Journal of non-crystalline solids 443 (2016) 59-64.
  23. Karimi M, Hesaraki S, Alizadeh M, Kazemzadeh A, One-pot and sustainable synthesis of nanocrystalline hydroxyapatite powders using deep eutectic solvents. Materials Letters, 175 (2016) 89-92.
  24. Hesaraki S., Photocurable bioactive bone cement based on hydroxyethyl methacrylate-poly(acrylic/maleic) acid resin and mesoporous sol gel-derived bioactive glass. Materials Science acnd Engineering C, 63 (2016) 535-545.
  25. Hesaraki S., Feasibility of alumina and alumina-silica nanoparticles to fabricate strengthened betatricalcium phosphate scaffold with improved biological responses. Ceramics International, 42 (2016) 7593-7604
  26. Karimi M., Hesaraki S., Alizadeh M., Kazemzadeh A., Synthesis of calcium phosphate nanoparticles in deep-eutectic choline chloride–urea medium: Investigating the role of synthesis temperature on phase characteristics and physical properties, Ceramics International, 42(12), 2780-2788, (2016)
  27. Amirjani AM., Bagheri M., Heydari M., Hesaraki S., Label-free surface plasmon resonance detection of hydrogen peroxide; a bio-inspired approach, Sensors and Actuators B: Chemical, 227 (2016), 373-382,
  28. Borhan S., Hesaraki S., Behnamghader A., GHasemi E., Injectable bone paste biocomposite based on melt-derived bioactive glass and sodium alginate natural polymer, Journal of the Australian Ceramic Society, 51 (2), 99-108, (2015)
  29. Gholipourmalekabadi M., Nezafati N., Hajibaki L. , Mozafari M., Moztarzadeh F. Hesaraki S., Samadikouchaksaraie A. Detection and qualification of optimum antibacterial and cytotoxic activities of silver-doped bioactive glasses, IET Nanobiotechnology, 9 (4), 209-214, (2015)
  30. Izadi S., Hesaraki S., Hafezi-Ardakani M. Production of bioactive glass-derived scaffolds using citric acid porogen, International Journal of Materials Research, 6 (3), 301-306 (2015)
  31. Hesaraki S., Nezafati. N., in vitro biocompatibility of chitosan/hyaluronic acid-containing calcium phosphate bone cement. Bioprocess and Biosystems engineering. 37 (8) pp. 1507-1516, (2014)
  32. Mohammadi, M. Hafezi, N. Nezafati, S. Heasarki, A. Nadernezhad, S. M. H. Ghazanfari, M. Sepantafar. Bioinorganics in Bioactive Calcium Silicate Ceramics for Bone Tissue Repair: Bioactivity and Biological Properties. J Ceram Sci Tech. 15 (1) pp. 1-12, (2014)
  33. Mohammadi M., Hesaraki S., Hafezi-Ardakani M. Investigation of biocompatible nanosized materials for development of strong calcium phosphate bone cement: Comparison of nano-titania, nano-silicon carbide and amorphous nano-silica Ceram Int. 40 (6) pp. 8377-8387, (2014)
  34. Badr-Mohammadi M., Hesaraki S., Zamanian A., Mechanical properties and in vitro cellular behavior of zinc-containing nano-bioactive glass doped biphasic calcium phosphate bone substitutes. Journal of Materials Science: Materials in Medicine 25:185-197 (2014)
  35. Sohrabi M., Hesaraki S., Kazemzadeh A. The influence of polymeric component of bioactive glass-based nanocomposite paste on its rheological behaviors and in-vitro responses: Hyaluronic acid vs. sodium alginate. Journal of Biomedical Materials Research B 102 (3) pp. 561-573, (2014).
  36. Hemmati K., Hesaraki S., Nemati A., Evaluation of ascorbic acid-loaded calcium phosphate bone cements: Physical properties and in vitro release behavior. Ceramics International. 40 (3) 3961-3968 (2014).
  37. Pourbaghi-Masouleh M., Hesaraki S., Zamanian A., Gentamicin-PEGylated poor crystalline carbonated hydroxyapatite submicron particles. Materials Letters 113 (15 December) pp.130-133 (2013)
  38. Forouzandeh A., Hesaraki S., Zamanian A. The releasing behavior and in vitro osteoinductive evaluations of dexamethasone-loaded porous calcium phosphate cements. Ceramics International. 40 (1) pp.1081-1091 2014.
  39. Hesaraki S., Nazarian H., Pourbaghi-Masouleh M., Borhan S. Comparative study of mesenchymal stem cells osteogenic differentiation on low-temperature biomineralized nanocrystalline carbonated hydroxyapatite and sintered hydroxyapatite. Journal of Biomedical Materials Research B (Appl. Biomater.). (in press) 2013
  40. Sohrabi M., Hesaraki S., Kazemzadeh A. Alizadeh M., Development of injectable biocomposites from hyaluronic acid and bioactive glass nanoparticles obtained from different sol-gel routes. Materials Science and Engineering C. 33 () 3730-3744 (2013)
  41. Hesaraki S., Farhangdoust S., Ahmadi K., Nemati R., Khorami M., Phase evaluation and lattice parameters of strontium/magnesium incorporated beta-tricalcium phosphate bioceramics. Journal of the Australian Ceramic Society 48 (2) pp. 166-172 (2012)
  42. Nezafati N., Moztarzadeh F. Hesaraki S., Surface reactivity and in vitro biological evaluation of sol gel derived silver/calcium silicophosphate bioactive glass. Biotechnology and Bioprocess Engineering 17 (4) pp. 746-754 (2012).
  43. Barounian M.H., Hesaraki S., Kazemzadeh A., Development of strong and bioactive calcium phosphate cement as a light-cure organic–inorganic hybrid, J Materials Science: Materials in Medicine. 23 (7) pp. 1569-1581 (2012).
  44. Hesaraki S., Alizadeh M., Borhan S., Pourbaghi-Masouleh M., Polymerizable nano-particulate silica-reinforced calcium phosphate bone cement, Journal of Biomedical Materials Research B 100 (6) pp. 1627-1635 (2012)
  45. Hesaraki S., Barounian M., Farhangdoust S., Khorami M., Zamanian A., Borhan S., Mechanical and in Vitro Biological Properties of Hydroxyapatite Bioceramics Reinforced with Strontium Containing Nano Bioactive Glass, Current Nanoscience 8 (4) pp. 612-622 (2012)
  46. Nezafati N., Hesaraki S., Shahrezayee M., Preparation and physicochemical evaluation of paste-paste calcium hydroxide based dental cement and the effect of replacement of glycoldisolicylate by methyl salicylate on its basic properties. Advanced Composites Letters 21 (3) pp78-83 (2012)
  47. Nezafati N., Moztarzadeh F. Hesaraki S., Moztarzadeh Z., Mozafari M. Biological response of a recently developed nanocomposite based on calcium phosphate cement and sol–gel derived bioactive glass fibers as substitution of bone tissues, Ceramics International 39 (1) pp. 289-297 (2012)
  48. Pouria A, Bandegani H, Pourbaghi-Masouleh M, Hesaraki S, Alizadeh M. Physicochemical properties and cellular responses of strontium-doped gypsum biomaterials. Bioinorganic Chemistry and Applications 2012: 976495 (2012)
  49. Hafezi-Ardakani M., Abbasi M., Zamanian A., Hesaraki S. Preparation and characterization of whitlockite-merwinite nanocomposite. Journal of Ceramic Processing Research 14 (1) 96-99 (2013).
  50. Hesaraki S., Farhangdoust S., Barounian M. Phase transformation and structural characteristics of zinc-incorporated β-tricalcium phosphate. Materials Science-Poland 31 (2) 281-287 (2013).
  51. Shahrabi S., Hesaraki S., Moemeni S., Khorami M., Structural discrepancies and in vitro nanoapatite formation ability of sol-gel derived bioactive glasses doped with different bone stimulator ions, Ceramics International 37 (7) pp. 2737-2746 (2011)
  52. Khorami M., Hesaraki S., Behnamghader A., Nazarian H., In vitro bioactivity and biocompatibility of lithium substituted 45S5 bioglass, Materials Science and Engineering C 31 (7) 1584-159 (2011)
  53. Ahmadzadeh-Asl S., Hesaraki S., Zamanian A. Preparation and characterisation of calcium phosphate-hyaluronic acid nanocomposite bone cement, Advances in Applied Ceramics 110 (6) 340-345 (2011)
  54. Eskandari A., Aminzare M., Hassani H., Barounian H., Hesaraki S., Sadrnezhad S.K., Densification behavior and mechanical properties of biomimetic apatite nanocrystals, Current Nanoscience 7 (5) 776-780 (2011)
  55. Hesaraki S., Nazarian H., Alizadeh M. Multi-phase biocomposite material in-situ fabricated by using hydroxyl apatite and amorphous nanosilica, International Journal of Materials Research 102 (5) pp. 494-503 (2011)
  56. Nezafati, N., Moztarzadeh, F., Hesaraki, S., Mozafari, M. Synergistically reinforcement of a self-setting calcium phosphate cement with bioactive glass fibers. Ceramics International 37(3) pp. 927-934 (2011)
  57. Hesaraki, S., Zamanian, A., Khorami, M. Naostructure apatite granules as drug delivery device for bone infection treatments. Journal of the Australian Ceramic Society. 47(1). pp. 32-36 (2011).
  58. Moghadam AM., Mahdavi A., Sharifi D., Hesaraki S., Dehghan MM., Tavasoli A., Lotfi A. Efficiency of Three-Calcium Phosphate Cements in Combination with Bio-Glass for Tibia Bone Recovery in Dogs; Based on Histo-Morphological Evaluations World Journal of Zoology 6 (1) 86-90 (2011)
  59. Zamanian, A., Hesaraki, S., Khorami, M. Physical and in-vitro biological evaluation of novel calcium sulfate –apatite nanocomposite. Journal of the Australian Ceramic Society. 46(2). pp. 43-47 (2010).
  60. Khorami, M., Hesaraki, S., Behnamghader, A.A., Alizadeh, M., Farhangdoust, S. Effect of substitusion of Li2O for Na2O on surface reactivity and cellular properties of 45S5 bioglass. Journal of the Australian Ceramic Society.  46(2). pp. 29-33 (2010).
  61. Hesaraki, S., Ebadzadeh, T., Ahmadzadeh-Asl, S. Nanosilicon carbide/hydroxyapatite nanocomposites: Structural, mechanical and in vitro cellular properties, Journal of Materials Science: Materials in Medicine 21 (7), pp. 2141-2149 (2010)
  62. Hesaraki, S., Gholami, M., Vazehrad, S., Shahrabi, S. The effect of Sr concentration on bioactivity and biocompatibility of sol-gel derived glasses based on CaO-SrO-SiO2-P2O5 quaternary system. Materials Science and Engineering C 30 (3), pp. 383-390 (2010)
  63. Hesaraki, S., Alizadeh, M., Nazarian, H., Sharifi, D. Physico-chemical and in vitro biological evaluation of strontium/calcium silicophosphate glass. Journal of Materials Science: Materials in Medicine 21 (2), pp. 695-705 (2010)
  64. Hesaraki, S., Sharifi, D., Nemati, R., Nezafati, N. Preparation and characterisation of calcium phosphate cement made by poly(acrylic/itaconic) acid. Advances in Applied Ceramics 108 (2), pp. 106-110 (2010)
  65. Borhan, S., Hesaraki, S., Ahmadzadeh-Asl, S. Evaluation of colloidal silica suspension as efficient additive for improving physicochemical and in vitro biological properties of calcium sulfate-based nanocomposite bone cement. Journal of Materials Science: Materials in Medicine. 21 (12), pp.3171-3181 (2010)
  66. Zamanian, A., Moztarzadeh, F., Kordestani, S., Hesaraki, S., Tahriri, M.R. Novel calcium hydroxide/nanohydroxyapatite composites for dental applications: In vitro study. Advances in Applied Ceramics 109 (7), pp. 440-444 (2010)
  67. Nezafati, N., Moztarzadeh, F., Hesaraki, S. Evaluation of a prepared sol-gel bioactive glass fiber-reinforced calcium phosphate cement. Journal of Ceramic Processing Research 11 (3), pp. 367-371 (2010)
  68. Hesaraki, S., Safari, M., Shokrgozar, M. Development of β-tricalcium phosphate/sol-gel derived bioactive glass composites: physical, mechanical and in vitro biological evaluations. Journal of Biomedical Materials Research – Part B Applied Biomaterials 91 (1), pp. 459-469 (2009)
  69. Hesaraki, S., Moztarzadeh, F., Nezafati, N. Evaluation of a bioceramic-based nanocomposite material for controlled delivery of a non-steroidal anti-inflammatory drug. Medical Engineering and Physics 31 (10), pp. 1205-1213 (2009)
  70. Hesaraki, S., Moztarzadeh, F., Nemati, R., Nezafati, N. Preparation and characterization of calcium sulfate-biomimetic apatite nanocomposites for controlled release of antibiotics. Journal of Biomedical Materials Research – Part B Applied Biomaterials 91 (2), pp. 651-661 (2009)
  71. Hesaraki, S., Safari, M., Shokrgozar, M.A. Composite bone substitute materials based on β-tricalcium phosphate and magnesium-containing sol-gel derived bioactive glass. Journal of Materials Science: Materials in Medicine 20 (10), pp. 2011-2017 (2009)
  72. Hesaraki, S., Nemati, R., Nazarian, H. Physico-chemical and in vitro biological study of zinc-doped calcium sulfate bone substitute. Journal of Biomedical Materials Research – Part B Applied Biomaterials 91 (1), pp. 37-45 (2009)
  73. Hesaraki, S., Nemati, R., Nosoudi, N. Preparation and characterisation of porous calcium phosphate bone cement as antibiotic carrier. Advances in Applied Ceramics 108 (4), pp. 231-240 (2009)
  74. Hesaraki, S., Zamanian, A., Nazarian, H. Physical and physicochemical evaluation of calcium phosphate cement made using human derived blood plasma. Advances in Applied Ceramics 108 (4), pp. 253-260 (2009)
  75. Saboori, A., Sheikhi, M., Moztarzadeh, F., Rabiee, M., Hesaraki, S., Tahriri, M., Nezafati, N. Sol-gel preparation, characterisation and in vitro bioactivity of Mg containing bioactive glass. Advances in Applied Ceramics 108 (3), pp. 155-161 (2009)
  76. Hesaraki, S., Nemati, R. Cephalexin-loaded injectable macroporous calcium phosphate bone cement. Journal of Biomedical Materials Research – Part B Applied Biomaterials 89 (2), pp. 342-352 (2009)
  77. Hesaraki, S., Zamanian, A., Moztarzadeh, F. Effect of adding sodium hexametaphosphate liquefier on basic properties of calcium phosphate cements. Journal of Biomedical Materials Research – Part A 88 (2), pp. 314-321 (2009)
  78. Davood Sharifi, D., Soroori, S., Hasaraki S., Jafari. N. Radiographic Evaluations of the Tetra-Calcium Phosphate and Diacalcium Phosphate with Bone Plate in Osseo-Integration of Bone Repair in Rabbit. American Journal of Animal and Veterinary Sciences 4 (4), pp. 80-84 (2009)
  79. Hesaraki, S., Zamanian, A., Moztarzadeh, F. the influence of acidic component of the gas-foaming porogen used in preparing an injectable porous calcium phosphate cement on its properties: Acetic acid versus citric acid.Journal of Biomedical Materials Research – Part B Applied Biomaterials 86 (1), pp. 208-216 (2008)
  80. Hesaraki, S., Moztarzadeh, F., Sharifi, D. Formation of interconnected macropores in apatitic calcium phosphate bone cement with the use of an effervescent additive. Journal of Biomedical Materials Research – Part A 83 (1), pp. 80-87 (2007)
  81. Hesaraki, S., Sharifi, D. Investigation of an effervescent additive as porogenic agent for bone cement macroporosity. Bio-Medical Materials and Engineering 17 (1), pp. 29-38 (2007)
  82. Hesaraki, S., Moztarzadeh, F., Solati-Hashjin, M. Phase evaluation of an effervescent-added apatitic calcium phosphate bone cement. Journal of Biomedical Materials Research – Part B Applied Biomaterials 79 (2), pp. 203-209 (2006)
  83. Mirhabibi, A.R., Rabiee, M., Aghababazadeh, R., Moztarzadeh, F., Hesaraki, S. Preparation of and photo- and electroluminescence characteristics of ZnS: Cu phosphor. Pigment and Resin Technology 32 (6), pp. 358-363 (2003)

اطلاعات آموزشي

Supervised PhD Theses 

Shokoufeh Borhan, In vitro bioactivity and Rheological properties of injectable bioactive glass/polycaprolactone/sodium alginate nanocomposites, 2014 , Materials & Energy Research Center

Mohammad Hasan Barounian, Controlled release behavior of light-,cured poly-HEMA/calcium phosphate nanocomposites, 2014 Materials & Energy Research Center 

Ziba Orshesh, polymer/ceramic biodegradable tissue engineering scaffolds with enhanced mechanical properties, 2016 Materials & Energy Research Center 

Omid Fakhraiee, Fabrication of tough calcium phosphate/zirconia nanocomposites with complicated shapes using injection molding processes, 2016 Materials & Energy Research CenterJavad Esmaielzadeh, biodegradable orthopaedic bone plates, 2017 Materials & Energy Research Center

Mohammad Karimi, Synthesis, Processing and Characterization of Smart Dental Bio-Nanocomposites Based on Nano-Calcium Phosphate. 2016 Materials & Energy Research Center 

Mahtab Rasti, Factors influencing physical and biological properties of bioactive glass/tragacanth composites 2016 Materials & Energy Research Center

Farzaneh Jabbari, Guide tissue membranes for bone regeneration  2017 Materials & Energy Research Center, in progress

  • Mohammad Khoeini, Wear-corrosion mechanism of nickel-free nitrogen containing austenitic stainless steel in simulated body fluid environment, 2017 . Materials & Energy Research Center

Nazanin Moazeni, Alendronite Nanoemolsions for osteoporosis prevention: the release behavior and in vitro cell studies  

Parisa Madani, The effect of phytoestrogens delivered from tragacanth/gelatin/hydroxyapatite scaffolds on the proliferation and differentiation of mesencymal stem cells into osteoblasts. 2017 Materials & Energy Research Center, in progress 

Ehsan Parnian, dental fissure sealants, 2017 Materials & Energy Research Center, in progress

Supervised  MSc Theses

Nader Nezafati, Fabrication and characterization of sol gel derived bioglass/calcium phosphate cement nanocomposite, 2006-2008 Amirkabir University of Technology

Mozhgan Safari, Mechanical and biological evaluation of TCP/CaO-SiO2-P2O5-MgO bioglass composites, 2008-2009 (Materials & Energy Research Center 

Abolfazl Mohammadi, Fabrication and mechanical properties of porous bioactive glass, 2008-2009 (Materials & Energy Research Center 

Hadis Bandegani, Preparation and characterization of strontiom-containing calcium sulfate bone cement, 2009-2010 (Materials & Energy Research Center

Sara Shahrabi, The effect of bone stimulator and modifier ions on bioactivity and biodegradability of sol-gel derived glasses 2009-2010 (Materials & Energy Research Center

Mohammad Hasan Baroonian, Preparation and characterization of light cured calcium phosphate/poly(HEMA)-based reisn composites 2009-2010 Materials & Energy Research Center

Shokoufeh Borhan, Effect of adding colloidal silica on structural and physicochemical properties of calcium sulfate/nanohydroxyapatite cement 2009-2010 Materials & Energy Research Center

Efaf Beman, Fabrication of hydroxyapatite/chitosan nanocomposite bone tissue engineerin scaffold 2010-2011 Materials & Energy Research Center

Mia Khorami, Physical properties and in vitro bioactivity of 45S5 biglass material modified with Lithia 2010-2011 Materials & Energy Research Center

Marzieh Abbasi Shaheni. The effect of firing temperature and phase composition on mechanical properties of β-TCP/tricalcium magnesium silicate nanocomposites 2010-2011  Science and Research Branch, Islamic Azad University

Amir Pourya. Calcium sulfate/bioglass nanocomposite cements: The role of phase composition and powder to liquid ratio on mechanical, physicochemical and structural properties 2010-2011 Materials and Energy research Center

Roya Shiri. The influence of antibitics and powder to liquid ratio on rheological properties of nanocalcium phosphate-based hydrualic cement 2010-2011  Materials and Energy research Center

Haniey Farzalibeyk, The effect of adding nano-silicon carbide, nano-alumina and nano-silica on mechanical ans structural properties of β-tricalciumcalcium phosphate tissue engineering scaffolds, 2012-2013  Materials & Energy Research Center

Jalal Shahrouzi, Effecet of particle size, type and concentration of liquid phase and powder to liquid ratio on mechanical and setting properties of calcium phosphate bone cement, 2012-2013  Materials & Energy Research Center

Mohammad-Reza Mohammadi, The effect of adding SiO2-CaO-P2O5-ZnO based bioactive glass nanoparticles on mechanical and chemical properties of biphasic β-tricalcium phosphate/hydroxyapatite bioceramics, 2012-2013  Materials & Energy Research Center

Maryam Mohammadi, The effect of addin nano-SiC, Nano-TiO2 and nano-Al2O3 on mechanical properties, setting time and apatite formation ability of calcium phosphate cements, 2012-2013  Materials & Energy Research Center

Azin Forouzandeh, Preparation and investigation of dexamethasone-loaded porous calcium phosphate bone cement, 2012-2013 Materials & Energy Research Center 

Milad Pourbaghi-Masouleh, Synthesis of drug-containing amorphous calcium phosphate nanoparticles and evaluating its release behavior in phosphate buffer solution, 2012-2014 Materials & Energy Research Center 

Samaneh Izadi, Fabrication and mechanical and structural characterization of porous glass-ceramics scaffolds obtained by therma l decomposition of porogens, 2012-2013 (Materials & Energy Research Center 

Mehri Sohrabi, Rheological properties and in vitro bioactivity of injectable SiO2-CaO-P2O5 based bioactive glass/hyaluronic acid nanocomposites, 2015  Materials & Energy Research Center 

Roshanak Asadi, comparative study of hydraulic calcium phosphate cements poroused via different pore-forming methods. 2016 (Materials & Energy Research Center 

Afsaneh Jahani, effect of adding bioactive glass on mechanical and in vitro biological properties of gutta percha sealants, 2016  Materials & Energy Research Center 

اطلاعات تماس
تلفن : 36280040-26-98 داخلي 422
فکس : 36201888-26-98
آدرس : کرج - مشکين دشت - بلوار امام خميني
ايميل : s-hesaraki@merc.ac.ir
saeidhesaraki2020@gmail.com
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