[1]. Stassen, Chris (2005-09-10). "The Age of the Earth". Talk Origins Archive. Retrieved 2008-12-30.
[2]. May, R. M. (1988). How many species are there on earth? Science, 241(4872), 1441-1449.
[3]. Stringer, C.B. (1994), "Evolution of Early Humans", in Jones, Steve; Martin, Robert; Pilbeam, David, The Cambridge Encyclopedia of Human Evolution, Cambridge University Press, p. 242, ISBN 978-0-521-32370-3.
[4]. McHenry, H.M (2009), "Human Evolution", in Ruse, Michael; Travis, Joseph, Evolution: The First Four Billion Years, Cambridge, Massachusetts: The Belknap Press of Harvard University Press, p. 265, ISBN 978-0-674-03175-3.
[5]. موسوی موحدی، ع.ا. (1392) . زیست الگو: همگرایی در علم و حکمت، نشریه نشاء علم، مجلد4، شماره 1،صص 6-9 .
[6]. Benyus, J.M. (2009) Biomimicry: Innovation inspired by nature. HarperCollins e-books.
[7]. Hwang, J., Jeong, Y., Park, J. M., Lee, K. H., Hong, J. W., & Choi, J. (2015). Biomimetics: forecasting the future of science, engineering, and medicine. International Journal of Nanomedicine, 10, 5701.
[8]. Bar-Cohen, Y. (2006). Biomimetics—using nature to inspire human innovation. Bioinspiration & Biomimetics, 1(1), P1.
[9]. موسوی موحدی، زینب (1395). فنآوری های جدید بر مبنای دانش زیست الگو و الهام زیستی، نشریه نشاء علم، مجلد7، شماره1،صص 53-61.
[10]. Gorb, S.N. (2011). Insect-inspired technologies: insects as a source for biomimetics, in Insect Biotechnology, Springer. p. 241-264.
[11]. Liu, Z., Zhang, Z., & Ritchie, R. O. (2018). On the materials science of nature's arms race. Advanced Materials, 30(32), 1705220.
[12]. Vaclaw, M. C., Sprouse, P. A., Dittmer, N. T., Ghazvini, S., Middaugh, C. R., Kanost, M. R. ... & Dhar, P. (2018). Self-Assembled Coacervates of Chitosan and an Insect Cuticle Protein Containing a Rebers–Riddiford Motif. Biomacromolecules, 19(7), 2391-2400.
[13]. Pillai, C. K. S., Paul, W., & Sharma, C. P. (2009). Chitin and chitosan polymers: Chemistry, solubility and fiber formation. Progress in polymer science, 34(7), 641-678.
[14]. Fernandez, J. G., & Ingber, D. E. (2013). Bioinspired chitinous material solutions for environmental sustainability and medicine. Advanced Functional Materials, 23(36), 4454-4466.
[15]. Fernandez, J. G., & Ingber, D. E. (2012). Unexpected strength and toughness in chitosan‐fibroin laminates inspired by insect cuticle. Advanced materials, 24(4), 480-484.
[16]. Zeighami, F., & Tehran, M. A. (2016). Developing optically efficient nanofiber coatings inspired by cyphochilus white beetle. Journal of Industrial Textiles, 46(2), 495-509.
[17]. Kim, J. H., Moon, J. H., Lee, S. Y., & Park, J. (2010). Biologically inspired humidity sensor based on three-dimensional photonic crystals. Applied Physics Letters, 97(10), 103701.
[18]. Han, Z., Mu, Z., Yin, W., Li, W., Niu, S., Zhang, J., & Ren, L. (2016). Biomimetic multifunctional surfaces inspired from animals. Advances in Colloid and Interface Science, 234, 27-50.
[19]. Gao, X., & Jiang, L. (2004). Biophysics: water-repellent legs of water striders. Nature, 432(7013), 36.
[20]. Nosonovsky, M., & Bhushan, B. (2010). Green tribology: principles, research areas and challenges. Philosophical Translations of the Royal Society A: Mathematical, Physical and Engineering Sciences, 368(1929), 4677-4694.
[21]. Favi, P. M., Yi, S., Lenaghan, S. C., Xia, L., & Zhang, M. (2014). Inspiration from the natural world: from bio-adhesives to bio-inspired adhesives. Journal of Adhesion Science and Technology, 28(3-4), 290-319.
[22]. Betz, O., Koerner, L., & Gorb, S. (2009). An insect’s tongue as the model for two-phase viscous adhesives? ADHESION ADHESIVES& SEALANTS, 6(1), 32-35.
[23]. Bogue, R. (2013). Developments in biomimetic vision. Sensor Review, 33(1), 14-18.
[24]. Stürzl, W., Böddeker, N., Dittmar, L., & Egelhaaf, M. (2010). Mimicking honeybee eyes with a 280 field of view catadioptric imaging system. Bioinspiration & Biomimetics, 5(3), 036002.
[25]. Yi, W., Xiong, D. B., & Zhang, D. (2016). Biomimetic and Bioinspired Photonic Structures. Nano Advances, 1, 62-70.
[26]. Potyrailo, R. A., Ghiradella, H., Vertiatchikh, A., Dovidenko, K., Cournoyer, J. R., & Olson, E. (2007). Morpho butterfly wing scales demonstrate highly selective vapour response. Nature Photonics, 1(2), 123.
[27]. Ragaei, M., Sabry, A. K. H., & Abdel-Rahman, A. (2016). Insect’s photonic crystals and their applications. Bioscience Research, 13(1), 15-20.
[28]. Vukusic, P., & Sambles, J. R. (2003). Photonic structures in biology. Nature, 424(6950), 852.
[29]. انزابی، نعیمه (1395). استفاده از علم زیست الگو در منسوجات، نشریه نشاء علم، مجلد 7، شماره 1، صص 62-70.
[30]. Takemura, S. Y., Stavenga, D. G., & Arikawa, K. (2007). Absence of eye shine and tapetum in the heterogeneous eye of Anthocharis butterflies (Pieridae). Journal of Experimental Biology, 210(17), 3075-3081.
[31]. Ghiradella, H. T., & Butler, M. W. (2009). Many variations on a few themes: a broader look at development of iridescent scales (and feathers). Journal of the Royal Society Interface, 6(suppl_2), S243-S251.
[32]. Xu, J., & Guo, Z. (2013). Biomimetic photonic materials with tunable structural colors. Journal of Colloid and Interface Science, 406, 1-17.
[33]. Johnson, E. A. C., Bonser, R. H. C., & Jeronimidis, G. (2009). Recent advances in biomimetic sensing technologies. Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 367(1893), 1559-1569.
[34]. Schmitz, H., Kahl, T., Soltner, H., & Bousack, H. (2011, March). Biomimetic infrared sensors based on the infrared receptors of pyrophilous insects. In Bioinspiration, Biomimetics, and Bioreplication (Vol. 7975, p. 797506).
[35]. Lee, T., Jang, S., Jeong, M., & Cho, D. I. D. (2016, October). Allometric scaling of insects and animals for biomimetic robot design considerations. In 2016 16th International Conference on Control, Automation and Systems (ICCAS) (pp. 1541-1546). IEEE.
[36]. Delcomyn, F., & Nelson, M. E. (2000). Architectures for a biomimetic hexapod robot. Robotics and Autonomous Systems, 30(1-2), 5-15.
[37]. Aditya, S. K. V., Ignasov, J., Filonenko, K., Larsen, J. C., Baird, E., Hallam, J., ... & Manoonpong, P. (2017). Bio-Inspired Design and Kinematic Analysis of Dung Beetle-Like Legs. In 2nd International Symposium on Swarm Behavior and Bio-Inspired Robotics.
[38]. Ward, T. A., Rezadad, M., Fearday, C. J., & Viyapuri, R. (2015). A review of biomimetic air vehicle research: 1984-2014. International Journal of Micro Air Vehicles, 7(3), 375-394.
[39]. Liu, H., Ravi, S., Kolomenskiy, D., & Tanaka, H. (2016). Biomechanics and biomimetics in insect-inspired flight systems. Philosophical Transactions of the Royal Society B: Biological Sciences, 371(1704), 20150390.
[40]. Lentink, D. (2014). Bioinspired flight control. Bioinspiration & Biomimetics, 9(2), 020301.
[41]. Tripplehorn, C. A., & Johnson, N. F. (2005). Borror and DeLong’s introduction to the study of insects. Thomson Brooks/Cole, Belmont, California.
[42]. Koh, J. S., Yang, E., Jung, G. P., Jung, S. P., Son, J. H., Lee, S. I., ... & Cho, K. J. (2015). Jumping on water: Surface tension–dominated jumping of water striders and robotic insects. Science, 349(6247), 517-521.
[43]. Graham, P., & Philippides, A. (2017). Vision for navigation: What can we learn from ants? Arthropod Structure & Development, 46(5), 718-722.
[44]. Gorb, S. N., & Gorb, E. V. (2016). Insect-inspired architecture: insects and other arthropods as a source for creative design in architecture. In Biomimetic Research for Architecture and Building Construction (pp. 57-83). Springer, Cham.
[45]. Pohl, G., & Nachtigall, W. (2015). Biomimetics for Architecture & Design: Nature-Analogies-Technology. Springer.
[46]. Moosavi-Movahedi, A. A., Semsarha, F., Heli, H., Nazari, K., Ghourchian, H., Hong, J. ... & Sefidbakht, Y. (2008). Micellar histidinate hematin complex as an artificial peroxidase enzyme model: Voltammetric and spectroscopic investigations. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 320(1-3), 213-221.
[47]. Farivar, F., Moosavi-Movahedi, A. A., Sefidbakht, Y., Nazari, K., Hong, J., & Sheibani, N. (2010). Cytochrome c in sodium dodecyl sulfate reverse micelle nanocage: From a classic electron carrier protein to an artificial peroxidase enzyme. Biochemical Engineering Journal, 49(1), 89-94.
[48]. Gharibi, H., Moosavi-Movahedi, Z., Javadian, S., Nazari, K., & Moosavi-Movahedi, A. A. (2011). Vesicular Mixed Gemini− SDS− Hemin− Imidazole Complex as a Peroxidase-Like Nano Artificial Enzyme. The Journal of Physical Chemistry B, 115(16), 4671-4679.
[49]. Hong, J., Wang, W., Huang, K., Yang, W. Y., Zhao, Y. X., Xiao, B. L., ... & Moosavi-Movahedi, A. A. (2012). A highly efficient nano-cluster artificial peroxidase and its direct electrochemistry on a nano complex modified glassy carbon electrode. Analytical Sciences, 28(7), 711-716.
[50]. Hong, J., et al., Direct electrochemistry of artificial peroxidase based on self-assembled cytochrome c-SDS-nano-micelle. Analytical letters, 2012. 45(15): p. 2221-2235.
[51]. Kermani, H. A., Shockravi, A., Moosavi-Movahedi, Z., Khalafi-Nezhad, A., Behrouz, S., Tsai, F. Y. ... & Moosavi-Movahedi, A. A. (2013). A surfactant–heme–sulfonyl imidazole system as a nano-artificial enzyme. Journal of the Iranian Chemical Society, 10(5), 961-968.
[52]. Yang, W. Y., Hong, H., Zhao, Y. X., Xiao, B. L., Gao, Y. F., Yang, T., ... & Moosavi-Movahedi, Z. (2013). Electrochemical study of a nano vesicular artificial peroxidase on a functional nano complex modified glassy carbon electrode. J. New Mat. Electrochem. Syst, 16, 89-95.
[53]. Moosavi-Movahedi, Z., Kalejahi, E. S., Nourisefat, M., Maghami, P., Poursasan, N., & Moosavi-Movahedi, A. A. (2017). Mixed SDS-Hemin-Imidazole at low ionic strength being efficient peroxidase-like as a nanozyme. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 522, 233-241.
[54]. Sajadimehr, Y., Moosavi‐Movahedi, Z., Haghighi, M. G., Miyardan, A. B., Nourisefat, M., & Moosavi‐Movahedi, A. A. (2019). Iron‐Porphyrin/Cysteine/PEG as Pseudo‐Chloroperoxidase Nanozyme. ChemistrySelect, 4(35), 10357-10364.
[55]. استاندارد ملی ایران، بیومیمتیک(زیست الگو)، اصطلاحات و تعاریف، مفاهیم و روششناسی. شماره22127 چاپ اول 1396، ICS: 07.080 ، کمیته تدوین: دکتر علیاکبر موسوی موحدی(رئیس)، دکتر فرنوش عطار(دبیر)، دکتر مهدی ضرابی، دکتر منصوره مظاهری، دکتر زینب موسوی موحدی و دکتر مریم نوری صفت.