Curve examples

  1. Temperature-Seebeck coefficient (34564)
  2. Temperature-Thermal conductivity (24811)
  3. Temperature-ZT (20074)
  4. Temperature-Electrical resistivity (19037)
  5. Temperature-Electrical conductivity (17471)
  6. Temperature-Power factor (16759)
  7. Discharge capacity-Voltage (7878)
  8. Charge capacity-Voltage (7741)
  9. Magnetic field strength (H)-magnetization_per_weight (7225)
  10. Temperature-Lattice thermal conductivity (6470)
  11. Cycle number-Discharge capacity (6073)
  12. Magnetic field-magnetization_per_weight (3947)
  13. C rate-Discharge capacity (2623)
  14. Inverse temperature-Electrical conductivity (2305)
  15. Time-Voltage (2055)
  16. Cycle number-Voltage (2011)
  17. Temperature-Carrier concentration (1864)
  18. Inverse temperature-log(Electrical conductivity) (1808)
  19. Magnetic field strength (H)-Magnetization (1285)
  20. Magnetic field strength (H)-magnetization_per_volume (1195)
  21. Temperature-Carrier mobility (1178)
  22. Cycle number-Coulombic efficiency (922)
  23. Temperature-magnetization_per_weight (881)
  24. Areal capacity-Voltage (874)
  25. Inverse temperature-Seebeck coefficient (751)
  26. Temperature-Electronic thermal conductivity (651)
  27. Rate-Discharge capacity (637)
  28. Inverse temperature-Electrical resistivity (616)
  29. Carrier concentration-Seebeck coefficient (546)
  30. Temperature-Hall coefficient (517)
  31. Temperature-thermopower (496)
  32. Temperature-Figure of merit Z (493)
  33. Temperature-Hall mobility (397)
  34. Voltage-Current density (385)
  35. Temperature-Magnetic susceptibility_per_weight (341)
  36. Magnetic field-magnetization_per_volume (300)
  37. Magnetic field-Electrical resistivity (257)
  38. Magnetic Field-magnetization_per_weight (235)
  39. wavelength-absorbance (201)
  40. T-Electrical resistivity (183)
  41. Discharge capacity (based on sulfur weight)-Voltage (161)
  42. Charge capacity (based on sulfur weight)-Voltage (154)
  43. Temperature-total thermal conductivity (148)
  44. Inverse temperature-log(Electrical resistivity) (138)
  45. Temperature-magnetic susceptibility (133)
  46. Inverse temperature-ln(Electrical conductivity) (127)
  47. Inverse temperature-lnσT (121)
  48. Inverse temperature-ln(Electrical resistivity) (114)
  49. Inverse temperature-logσT (113)
  50. 1000_T-Electrical conductivity (113)
  51. Temperature-Specific heat (105)
  52. Temperature-Carrier thermal conductivity (104)
  53. Temperature-electron thermal conductivity (103)
  54. Carrier concentration-ZT (98)
  55. Carrier concentration-Carrier mobility (97)
  56. Magnetic field-Magnetization (88)
  57. Cycle number-Discharge capacity (based on sulfur weight) (87)
  58. Capacity-Voltage (87)
  59. Magnetic Field-Magnetization (87)
  60. Temperature-Cp (80)
  61. Temperature-log(Electrical conductivity) (76)
  62. Temperature-Magnetic susceptibility_per mol (76)
  63. Temperature-Thermal diffusivity (73)
  64. Inverse temperature-Thermal conductivity (73)
  65. Temperature-S (71)
  66. Voltage-Electric current (71)
  67. Inverse temperature-Lattice thermal conductivity (67)
  68. 1000_T-Electrical resistivity (65)
  69. T-ZT (63)
  70. Magnetic field-Magnetic susceptibility_per_weight (62)
  71. Carrier concentration-Hall mobility (61)
  72. Temperature-Coercivity Field (61)
  73. Inverse temperature-Carrier concentration (59)
  74. 1000_T-Seebeck coefficient (55)
  75. Temperature-Calculated Seebeck coefficient (54)
  76. Cycle number-Hysteresis (51)
  77. Inverse temperature-Hall coefficient (51)
  78. Temperature-Resistance (51)
  79. Temperature-Thermopower (47)
  80. T-Seebeck coefficient (47)
  81. Magnetic field strength (H)-Magnetic Moment (46)
  82. T-Thermal conductivity (43)
  83. Magnetic field strength (H)-magnetization_Wb*m_kg (42)
  84. 1000_T-thermopower (42)
  85. (10^3_T)^(1_4)-Electrical conductivity (41)
  86. Temperature-Calculated Electrical Conductivity_ Relaxation time (40)
  87. Temperature-log(Electrical resistivity) (40)
  88. Temperature-Specific heat_K (38)
  89. Temperature-Figure of merit (36)
  90. Temperature-Lattice contribution (35)
  91. C rate-Discharge capacity (based on sulfur weight) (34)
  92. Temperature-Calculated Thermal Conductivity_ Relaxation time (34)
  93. T-Hall coefficient (33)
  94. 1000_T-log(Electrical conductivity) (33)
  95. Temperature-Calculated PF (32)
  96. T-Electrical conductivity (30)
  97. Temperature-ln(Electrical resistivity) (30)
  98. Carrier concentration-Electrical conductivity (28)
  99. Temperature-Voltage (28)
  100. T-Lattice thermal conductivity (28)
  101. Temperature-Electronic contribution (27)
  102. Carrier concentration-Power factor (27)
  103. T^2-Specific heat (27)
  104. Temperature-inverse magnetic susceptibility_mol (26)
  105. Magnetic field strength (H)-Magnetic susceptibility_per_weight (26)
  106. Temperature-phonon thermal conductance (25)
  107. Temperature-Magnetization (25)
  108. Discharge capacity (based on cathode weight)-Voltage (23)
  109. Charge capacity (based on cathode weight)-Voltage (23)
  110. Temperature-Inverse magnetic susceptibility (22)
  111. Temperature-Magnetic field (22)
  112. Temperature-Mobility (22)
  113. Inverse temperature-Power factor (21)
  114. Temperature-RH (20)
  115. Temperature-magnetization_per_volume (20)
  116. Temperature-hall density (20)
  117. Temperature (oC)-Electrical resistivity (19)
  118. Magnetic Field-magnetization_per_volume (19)
  119. Temperature-Thermoelectric power (19)
  120. Temperature-Specific heat capacity (J_gK) (18)
  121. Time-Electrical conductivity (18)
  122. T^(-1_4)-Electrical resistivity (18)
  123. Temperature-ln(Electrical conductivity) (18)
  124. T-magnetic susceptibility (17)
  125. Pressure-Effective thermal conductivity (17)
  126. 1000_T-Carrier concentration (16)
  127. Temperature-Calculated Electrical Conductivity (16)
  128. Growth-pO2-log(Electrical conductivity) (16)
  129. T-Magnetic susceptibility_per_weight (16)
  130. WO3-log(Electrical conductivity) (15)
  131. Temperture Difference-Voltage (15)
  132. Electrical conductivity-Seebeck coefficient (15)
  133. T^(1_2)-Electrical conductivity (15)
  134. Temperature-Mass susceptibility (15)
  135. Inverse temperature-Carrier mobility (14)
  136. Temperature-Resistivity (14)
  137. T-Specific heat capacity (14)
  138. Temperature-Electrical thermal conductivity (13)
  139. Temperature-dc magnetization(mass) (13)
  140. content-Carrier concentration (12)
  141. Concentration-Power factor (12)
  142. Temperature-Lattice+bipolar thermal conductivity (12)
  143. Temperature-Specific heat capacity (12)
  144. 1_T^(-1_4)-Electrical resistivity (12)
  145. 1000_T-Hall mobility (11)
  146. 1000_T-Hall coefficient (11)
  147. Magnetic Field-Magnetic Moment (11)
  148. Time-Temperature (11)
  149. log(P(O2))-log(Electrical conductivity) (11)
  150. Temperature-Seebeck coefficient (10)
  151. 1000_T-log(Electrical resistivity) (10)
  152. Temperature-Liquid state thermal conductivity (10)
  153. magnetic field-magnetization_per_weight (10)
  154. T-magnetization_per_weight (10)
  155. Temperature-Conductivity (10)
  156. T-Specific heat (10)
  157. 1000_T-ln(Electrical resistivity) (10)
  158. Temperature-magnetization_per_mol (10)
  159. Temperature-Hall concentration (10)
  160. 1000_T.-Electrical conductivity (10)
  161. T^(-1_4)-log(Electrical conductivity) (10)
  162. Temperature-Magnetic susceptibility_volume (10)
  163. Sintering-pO2-log(Electrical conductivity) (10)
  164. hall density-Seebeck coefficient (9)
  165. Temperature-Max Efficiency (9)
  166. Temperature-S_L0T (9)
  167. Temperature-Thermoelectric voltage (9)
  168. 1000_T-ln σ (9)
  169. Voltage-Current (9)
  170. Temperature-Electro Motive Force (9)
  171. Nanowire diameter-Thermal diffusivity (8)
  172. Carrier concentration-thermopower (8)
  173. Voltage-Temperature (8)
  174. Annealing Temperature-Seebeck coefficient (8)
  175. Inverse temperature-thermopower (8)
  176. Time-delta T (8)
  177. Temperature-Magnetic Moment (8)
  178. Time-Hysteresis (8)
  179. T^(-1)-Electrical conductivity (7)
  180. Temperature-Electrical conductivity0 (7)
  181. Magnetic field strength (H)-Electrical resistivity (7)
  182. Temperature (oC)-Seebeck coefficient (7)
  183. PRESSURE-Voltage (7)
  184. composition x-log(Electrical conductivity) (6)
  185. T-phonon thermal conductance (6)
  186. content-Carrier mobility (6)
  187. concentrations-Carrier concentration (6)
  188. Temperature-Contact resistivity (6)
  189. deltaVg-Seebeck coefficient (6)
  190. Inverse temperature-ZT (6)
  191. ratio of intensity-Electrical resistivity (6)
  192. mol %-Lattice thermal conductivity (6)
  193. Electrical conductivity-Power factor (6)
  194. ratio of intensity-Seebeck coefficient (6)
  195. Inverse temperature-ln(T_ρ) (6)
  196. Inverse temperature-σT (6)
  197. ratio of intensity-Thermal conductivity (6)
  198. Magnetic field-Magnetic Moment (6)
  199. Magnetic field-polarization (6)
  200. ratio of intensity-ZT (6)
  201. Temperature-phonon contribution (6)
  202. Electronic thermal conductivity-Lattice thermal conductivity (6)
  203. Voltage-Resistance (6)
  204. Nanowire diameter-Seebeck coefficient (6)
  205. Vg-Electrical conductivity (6)
  206. wavelength-normalized absorbance (6)
  207. Temperature-Density (5)
  208. C rate-Discharge capacity (based on cathode weight) (5)
  209. Temperture Difference-Micro Volts (5)
  210. stress-Thermal conductivity (5)
  211. Cycle number-Discharge capacity (based on cathode weight) (5)
  212. Annealing Temperature-Power factor (5)
  213. Temperture Difference-Thermoelectric voltage (5)
  214. T^2-Specific heat capacity_K^(-2) (5)
  215. wavelength-luminescence intensity (5)
  216. Ca2.7Yb0.3Co4O9-Electrical resistivity (5)
  217. PRESSURE-TEP (5)
  218. R of R-DDM-R-Density (5)
  219. Temperature-Nernst coefficient (5)
  220. Temperature-Lorenz values (5)
  221. Pressure-Thermal conductivity (5)
  222. frequency-Voltage (5)
  223. Magnetic field strength (H)-magnetic susceptibility (5)
  224. Magnetic field strength (H)-Magnetic field (5)
  225. hall density-ZT (4)
  226. Temperature-Lorenz number (4)
  227. T^(-1_2)-Electrical resistivity (4)
  228. CNT volume fraction (%)-Thermal conductivity (4)
  229. Temperature-Open circuit voltage (4)
  230. Voltage-Seebeck coefficient (4)
  231. Sr concentration, x-Thermal diffusivity (4)
  232. concentrations-Seebeck coefficient (4)
  233. Temperature-TEP (4)
  234. Thickness-Electrical resistivity (4)
  235. 1000_T-Carrier mobility (4)
  236. Time-Carrier concentration (4)
  237. PEI-Thermopower (4)
  238. Time-Coulombic efficiency (4)
  239. 1_T-Electrical conductivity (4)
  240. Na concentration, x-hierarchy of energies of cluster models (4)
  241. Temperature-σ_τ (4)
  242. Temperature-ρ (4)
  243. Carrier concentration-Fermi energy (4)
  244. Temperature-T^(-1) (4)
  245. Sr concentration, x-Seebeck coefficient (4)
  246. Filler content-Thermal conductivity (4)
  247. Hall concentration-Lattice thermal conductivity (4)
  248. Temperature-Figure of merit Zt (4)
  249. Duration-Power factor (4)
  250. Duration-Electrical conductivity (4)
  251. Doping level-log(Electrical conductivity) (4)
  252. Temperature-Magnetic susceptibility_volume_weight (4)
  253. ZT-Figure of merit (4)
  254. Days-Seebeck coefficient (4)
  255. Temperature-Specific heat capacity_K^(-2) (4)
  256. Temperature-majority carrier concentration (4)
  257. sample name-Thermal conductivity (4)
  258. Temperature-minority carrier concentration (4)
  259. SWCNTs content (wt%)-Electrical conductivity (4)
  260. Temperature-Magnetic Field (3)
  261. Temperature (oC)-Hall coefficient (3)
  262. Temperature-Phonon transmission function (3)
  263. Time-Open circuit voltage (3)
  264. Proportion of interface layer (%)-Thermal conductivity (3)
  265. Time Lapse-Conversion Voltage (3)
  266. T^2_1000-Magnetic susceptibility_per_weight (3)
  267. Micro diamond content [vol%]-Thermal conductivity (3)
  268. distance-ZT (3)
  269. energy-Electrical conductivity (3)
  270. BN content (wt%)-Density (3)
  271. Bi2Te3 nanoparticle fraction (vol %)-Electrical conductivity (3)
  272. PRESSURE-Seebeck coefficient (3)
  273. Bi2Te3 nanoparticle fraction (vol %)-Seebeck coefficient (3)
  274. PRESSURE-Power factor (3)
  275. PRESSURE-Electrical conductivity (3)
  276. PEI-Electrical conductivity (3)
  277. Bi2Te3 nanoparticle fraction (vol %)-Thermal conductivity (3)
  278. Bi2Te3 nanoparticle fraction (vol %)-ZT (3)
  279. Annealing Temperature-ZT (3)
  280. Carrier concentration-Electrical thermal conductivity (3)
  281. Carrier concentration-Lattice thermal conductivity (3)
  282. Carrier concentration-Thermal conductivity (3)
  283. Density-Electrical conductivity (3)
  284. Lattice constant, d-A, |T|, |R| (3)
  285. Dopant Concentration-Power factor (3)
  286. position-Seebeck coefficient (3)
  287. Electrical conductivity-ZT (3)
  288. Gate voltage, Vg-Seebeck coefficient (3)
  289. concentrations-thermopower (3)
  290. Expanded graphite content (vol)-Thermal conductivity (3)
  291. BFCZO1 at 20K Zoomed-magnetization_per_weight (3)
  292. Bi2Te3 nanoparticle fraction (vol %)-Power factor (3)
  293. Rate-Discharge capacity (based on sulfur weight) (3)
  294. diameter-Seebeck coefficient (3)
  295. T^(-1_4)-ln(Electrical conductivity) (3)
  296. T^(-1)-Thermal conductivity (3)
  297. T-Resistance (3)
  298. Annealing Temperature-Thermal conductivity (3)
  299. 1_T^(-1_4)-ln(Electrical resistivity) (3)
  300. diameter-Electrical conductivity (3)
  301. 1000_T-Conductivity (3)
  302. wavelength--log(T+R) (3)
  303. GNF content (wt%)-Thermal conductivity (3)
  304. 1000_T-ln(T_ρ) (3)
  305. SWCNTs content (wt%)-Seebeck coefficient (3)
  306. Annealing Temperature-Electrical conductivity (3)
  307. SWCNTs content (wt%)-Power factor (3)
  308. Seebeck coefficient-Electrical conductivity (3)
  309. Dopant Concentration-Electrical conductivity (2)
  310. Filler content (phr)-Thermal conductivity (2)
  311. Temperature-conductivity (2)
  312. wt% F4TCNQ:P3HT-Electrical conductivity (2)
  313. wt% F4TCNQ:P3HT-Power factor (2)
  314. BN content (wt %)-Thermal conductivity (2)
  315. wt% F4TCNQ:P3HT-Seebeck coefficient (2)
  316. Doping level-Carrier concentration (2)
  317. Doping concentration, mol%-Electrical conductivity (2)
  318. Dopant Concentration-Seebeck coefficient (2)
  319. Time-Resistance (2)
  320. Dopant Concentration-Carrier concentration (2)
  321. Time-O2 (2)
  322. Temperature-magnetoresistance (2)
  323. Conductivity-Seebeck coefficient (2)
  324. Annealing Temperature-Conductivity (2)
  325. 1_T-Carrier Density n (2)
  326. Temperature-remanence_weight (2)
  327. Carrier concentration-Electrical conductivity0 (2)
  328. width-Electrical conductivity (2)
  329. Frequency-Power_frequency (2)
  330. Temperature (oC)-Thermal conductivity (2)
  331. width-Seebeck coefficient (2)
  332. T-Thermal diffusivity (2)
  333. Temperature-Thermo gravimetry (2)
  334. SDBS-Electrical conductivity (2)
  335. Magnetic field-magnetization_per_mol (2)
  336. Magnetic field-magnetoresistance (2)
  337. Magnetic field strength (H)-Specific heat (2)
  338. Temperature-Thermal expansion (2)
  339. PRESSURE-Sab (2)
  340. energy-Surface Conductivity (2)
  341. Pressure-Electrical resistivity (2)
  342. Temperature-Magnetic field strength (H) (2)
  343. SDBS-Thermopower (2)
  344. Magnetic field-Specific heat (2)
  345. Temperature-Linewidth (2)
  346. diameter-Carrier mobility (2)
  347. T-Inverse magnetic susceptibility (2)
  348. deposition temperature-log(Electrical resistivity) (2)
  349. T-Specific heat_K (2)
  350. T-magnetization_per_mol (2)
  351. Temperature-Elastic modulus (2)
  352. T^(-1_2)-Electrical conductivity (2)
  353. Magnetic field-Thermal conductivity (2)
  354. Nanowire diameter-Electrical conductivity (2)
  355. Magnetic field-Magnetic susceptibility_volume (2)
  356. Inverse temperature-Hall mobility (2)
  357. Inverse temperature-Electronic thermal conductivity (2)
  358. Hall concentration-Hall mobility (2)
  359. Magnetic Field-Magnetic field strength (H) (2)