| 1. | Galaxolide | Alpha decreased. | Odors produce divided attention even when undetected. |
| 2. | m-Xylene | Alpha increased. | Stimulating and excitatory effects. |
| 3. | Birch tar, galbanum, heliotropine, jasmine, lavender, lemon and peppermint | Increased theta for birch tar, jasmine, lavender and lemon. | Subjects differed in their subjective responses to the odors. |
| 4. | 5-α-Androstan-3-one, bangalol, white sapphire, indole, linalyl acetate, eucalyptus oil and ammonia. | Alpha increased. | From more anterior electrodes—related to psychometric responses. |
| 5. | Phenylethyl alcohol and valeric acid | Valeric acid—alpha 2 increased. | Unpleasant odor leads to a cortical deactivation. |
| 6. | Lavender and rosemary | Lavender—beta increased. Rosemary—frontal alpha and beta decreased. | Lavender—increased drowsiness. Rosemary—increased alertness. |
| 7. | Synthetic odors—almond, chocolate, spearmint, strawberry, vegetable, garlic, onion and cumin Odors of real foods—chocolate, baked beans and rotting pork | Chocolate odor—less theta activity. | Reduced level of attention. |
| 8. | Chewing of marketed gum | Alpha power increased. | Arousal psychosomatic responses. |
| 9. | Valeriana off, Lavandula off, Passiflora incarnata, Piper methysticum, Melissa off, Eschscbolzia californica, Hypericum perforatum and Ginkgo biloba | Valerian extract—delta and theta activity increased and beta activity decreased. | Self-rated tiredness increased under some of the plant extracts. |
| 10. | (R)-(?)-, (S)-(+)- and (RS)-(±)-forms of linalools | (RS)-(±)-linalool—greater decrease of the beta wave after work than before work. | (RS)-(±)-linalool and (R)-(?)-linalool -favorable impression. (S)-(+)-linalool—unfavorable impression. |
| 11. | Chewing regular gum or gum base without flavor | Alpha-2 and beta-2 increased for regular gum and decreased for gum base. | Activates different brain neuronal populations. |
| 12. | Sedative effects—lemon, lavender and sandalwood Awakening effects—jasmine, ylang-ylang, rose and peppermint | Awakening fragrances—decreased alpha and beta activities. | Sedative fragrances—improvement in productivity.
Awakening fragrances—effect in mitigating the workload. |
| 13. | Lavender, chamomile, sandalwood and eugenol | Alpha 1 decreased at parietal and posterior temporal regions. | Subjects felt comfortable. |
| 14. | Chewing gum with and without flavor and flavored aromatic oil | Chewing gum with flavor and inhale aromatic oil increase alpha and beta waves. | Induce concentration with a harmonious high arousal state in brain function. |
| 15. | Enantiomers of linalools | (R)-(?)-linalool—beta decreased after hearing environmental sound. Mental work—beta increased. | Odor perception and responses—chiral dependence and also with task dependence. |
| 16. | Aroma of soybeans heated to various temperatures | Alpha wave increased—heated after immersion in fructose–glycine solution. | Amino-carbonyl reaction aroma products increase brain alpha waves. |
| 17. | β-Damascenone | Non-significant trend for left frontal differences in EEG associated with different liking responses. | Left frontal response associated with liking an odor. |
| 18. | Lavender and rosemary aromas | Induce left frontal EEG shifting in adults and infants with greater baselines than right frontal EEG activation. | Associated with greater approach behavior and less depressed affect. |
| 19. | General workers, perfume salespersons and professional perfume researchers | Professional perfume researchers respond to odors mainly in the frontal region. | Functional coupling for people—occupationally exposed to odors may be related to psychological preference. |
| 20. | Lavender and rosemary | Increased relative left frontal EEG asymmetry. | Infants of depressed and non-depressed mothers respond differently to odors. |
| 21. | Para-cresol 4-methylphenol, 2-heptanone, methional 3-methylthiopropionaldehyde and dimethyltrisulphide. | Theta wave activation in frontal region between the different populations. | Cultural differences in odor responsiveness. |
| 22. | Pleasant odor | Beta wave increased in the left frontal region. | Enhancement of left frontal brain region by a pleasant odor. |
| 23. | Neroli and grapefruit oils | Slow alpha (8–10 Hz) and theta activities increased in the occipital region. | Reduce the cortical deactivation or promote a relaxed state. |
| 24. | Low-dose alcohol | Theta power decreased in both hemispheres in the high-dose condition. | Corresponding to working memory demand. |
| 25. | Odor of incense and rose oil | Fast alpha activity increased in bilateral posterior regions during incense exposure. | Cortical and function of inhibitory processing of motor response. |
| 26. | Citrus bergamia oil | Negative percentage changes of the ratio of low to high frequency in the music, aroma and combined groups than control group. | Listening to soft music and inhaling Citrus bergamia essential oil—effective method of relaxation. |
| 27. | Abies sibirica essential oil | Increased theta activity after the visual display terminal task. | Prevention of visual display terminal—mental health disturbance. |
| 28. | Lavandula angustifolia | Good sleep quality—occipital and parietal alpha decreased, frontal theta and occipital beta increased. Poor sleep quality—theta increased in the all cranial regions. | Beneficial effect for female adults with sleep disorder. |
| 29. | Lavender oil | Theta and alpha activities increased. | Relaxing effect of inhaling lavender oil. |
| 30. | Essential oil of Zizyphus jujuba seeds | Fast alpha increased in the left prefrontal, right prefrontal and left frontal regions. | Increasing attention and relaxation. |
| 31. | Essential oil of Mentha arvensis L. f. piperascens aerial parts | Relative fast alpha increased. Gamma and the spectral edge frequency 90% decreased. | Reducing mental stress. |
| 32. | Jasmine oil | Beta wave increased in the anterior center and left posterior regions. | Increased—feeling of well-being, active, fresh and romantic. |
| 33. | Ylang–ylang essential oil | Prolonged the latencies of P300 | Not affect information processing resources in patients with TLE. |
| 34. | Essential odors—mint and lemon Commerical odors—criton-verbena, lize, melody and rozan | All odors affected the EEG waves in at least some subjects. | Essential odors stimulated more than commercial odors and women are more sensitive than men. |
| 35. | Pan-fired Japanese green tea (Koushun and Kouju) | Kouju affect the beta 1 at right frontal region. | Improve memory task performance. |
| 36. | Magnolia kobus flower | Absolute alpha decreased at left parietal region. | Awaken and increase the concentration states of brain. |
| 37. | Strawberry aroma (food) and the odor of lily of the valley (non-food) | Specific scalp potential maps for the two conditions. | Food odor—associated with the processing of rewards.
Non-food odor—reflects odor characteristics excluding the reward. |
| 38. | Hyperbaric oxygen exposure | Fast delta decreased and alpha increased in the posterior regions. | Oxygen-toxicity diving-related problems. |
| 39. | Lemon, peppermint, and vanilla | Theta showed statistically significant results between different odor conditions | Stimuli can affect the frequency characteristics of the electrical activity of the brain. |
| 40. | Isomers of limonene and terpinolene | (+)-Limonene—relative high beta increased in the right temporal region.
Terpinolene—relative mid beta decreased and relative fast alpha increased in the right prefrontal region. | Terpinolene—reducing the tension and increasing the relaxation and stabilization states of brain function. |
| 41. | Essential oil of Inula helenium root | Theta (in all the regions except T3), beta (Fp1) and mid beta (P4) and relative theta (Fp1, Fp2, F3 and F4) decreased. | Enhance the alertness state of brain. |
| 42. | Lavender and bergamot | The absolute theta increased at the right prefrontal region Significant differences in the relative fast and slow alpha. | Both physical and mental states became more stable and relaxed. |
玫瑰香精
鮮竹香精
柑橘香精
薰衣草香精
姜花香精
葡萄柚香精
花香香精
洋甘菊香精
小蒼蘭香精
茉莉香精
水蜜桃香精
