TY - JOUR
T1 - Thermovoltaic properties of hornet silk
AU - Volynchik, S.
AU - Plotkin, M.
AU - Ermakov, N. Y.
AU - Bergman, D. J.
AU - Ishay, J. S.
PY - 2006/11
Y1 - 2006/11
N2 - In silk from the larval silk caps of the Oriental hornet Vespa orientalis (Hymenoptera, Vespinae), temperature-dependent changes in the electric voltage have been recorded, with rise in the voltage occurring mainly upon rise in the temperature between 10-36°C. The peak voltage was measured between 32-38°C and attained 240-360 mV, but with further increase in temperature, the voltage decreased, dropping to 0 mVat about 45-50°C. Upon second measurement (of same silk specimen), the voltage peak usually occurred later (by 8-9°C) and at higher temperature than in the first measurement. Continuous measurements during warming up to 30°C followed by cooling down to 15°C yielded an hysteresis between the warming "line" and the cooling "line", the former often straight and the latter usually curved. Maintaining the silk specimen at a fixed temperature for a prolonged period (hours) initially causes the voltage to rise, then remain steady, and finally drop. Boiling the silk caps in tap water for 7-10 min exerts some changes in the silk properties, mainly a decrease in voltage level. The general behavior of the silk suggests that it is a polymer endowed with the qualities of an organic semiconductor. The various properties of the larval silk are discussed in great detail.
AB - In silk from the larval silk caps of the Oriental hornet Vespa orientalis (Hymenoptera, Vespinae), temperature-dependent changes in the electric voltage have been recorded, with rise in the voltage occurring mainly upon rise in the temperature between 10-36°C. The peak voltage was measured between 32-38°C and attained 240-360 mV, but with further increase in temperature, the voltage decreased, dropping to 0 mVat about 45-50°C. Upon second measurement (of same silk specimen), the voltage peak usually occurred later (by 8-9°C) and at higher temperature than in the first measurement. Continuous measurements during warming up to 30°C followed by cooling down to 15°C yielded an hysteresis between the warming "line" and the cooling "line", the former often straight and the latter usually curved. Maintaining the silk specimen at a fixed temperature for a prolonged period (hours) initially causes the voltage to rise, then remain steady, and finally drop. Boiling the silk caps in tap water for 7-10 min exerts some changes in the silk properties, mainly a decrease in voltage level. The general behavior of the silk suggests that it is a polymer endowed with the qualities of an organic semiconductor. The various properties of the larval silk are discussed in great detail.
KW - Electrical measurements
KW - Ferroelectric materials
KW - Hornet silk
KW - Organic semiconductors
KW - Social insects
KW - Thermoelectric organic compounds
UR - http://www.scopus.com/inward/record.url?scp=33750722149&partnerID=8YFLogxK
U2 - 10.1002/jemt.20360
DO - 10.1002/jemt.20360
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AN - SCOPUS:33750722149
SN - 1059-910X
VL - 69
SP - 852
EP - 860
JO - Microscopy Research and Technique
JF - Microscopy Research and Technique
IS - 11
ER -