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de Paula Bernado W, Baroni DF, Ruas KF, Santos AR, de Souza SB, et al. 2022. Ultraviolet radiation underlines metabolic energy reprograming in Coffea arabica and Coffea canephora genotypes. Scientia Horticulturae 295:110881

Cortés VH, Bahamón Monje AF, Bustos Vanegas JD, Guzmán NG. 2024. Challenges in coffee fermentation technologies: bibliometric analysis and critical review. Journal of Food Science and Technology 61:2223−34

US Department of Agriculture. 2025. Production - coffee. 2023/2024 coffee production. https://www.fas.usda.gov/data/production/commodity/0711100

Ayseli MT, Kelebek H, Selli S. 2021. Elucidation of aroma-active compounds and chlorogenic acids of Turkish coffee brewed from medium and dark roasted Coffea arabica beans. Food Chemistry 338:127821

Kittichotsatsawat Y, Tippayawong N, Tippayawong KY. 2022. Prediction of arabica coffee production using artificial neural network and multiple linear regression techniques. Scientific Reports 12:14488

Kulapichitr F, Borompichaichartkul C, Fang M, Suppavorasatit I, Cadwallader KR. 2022. Effect of post-harvest drying process on chlorogenic acids, antioxidant activities and CIE-Lab color of Thai Arabica green coffee beans. Food Chemistry 366:130504

Ministry of Agriculture, Office of Agricultural Economics. 2024. Coffee production. www.doa.go.th/hc/cmrarc/wp-content/uploads/2024/07/รายงานถวาย-20-6-67.pdf

Hantawee M, Noppakoonwong U, Meesuk S, Munsalung P, Muangkompus K, et al. 2008. Hybrid Arabica coffee varietal improvement: Catimor CIFC 7963-13-28. Thai Agricultural Research Journal 26:130−45

Specialty Coffee Association (SCA). 2015. Cupping specialty coffee. https://sca.training/howtocoffee/tag/Quality+Control

Ministry of Agriculture. Department of Agriculture. 2024. Thai Coffee Excellence 2021. www.doa.go.th/hort/wp-content/uploads/2024/07/KM-ยกระดับอัตลักษณ์กาแฟไทย-18-ก.ค.-67.pdf

Samoggia A, Riedel B. 2018. Coffee consumption and purchasing behavior review: insights for further research. Appetite 129:70−81

Goyal N, Jerold F. 2023. Biocosmetics: technological advances and future look. Environmental Science and Pollution Research 30:25148−69

Lee J, Kwon KH. 2022. Sustainable changes in beauty market trends focused on the perspective of safety in the post-coronavirus disease-19 period. Journal of Cosmetic Dermatology 21:2700−07

Faria-Silva C, Ascenso A, Costa AM, Marto J, Carvalheiro M, et al. 2020. Feeding the skin: a new trend in food and cosmetics convergence. Trends in Food Science & Technology 95:21−32

Lourith N, Kanlayavattanakul M. 2020. Improved stability of butterfly pea anthocyanins with biopolymeric walls. Journal of Cosmetic Science 71:1−10

Kanlayavattanakul M, Lourith N. 2022. Moringa leaf: an innovative source of antioxidative phenolics for cosmeceuticals products. Scientia Horticulturae 295:110894

Kanlayavattanakul M, Lourith N, Chaikul P. 2016. Jasmine rice panicle: a safe and efficient natural ingredient for skin aging treatments. Journal of Ethnopharmacology 193:607−16

Lourith N, Xivivadh K, Boonkong P, Kanlayavattanakul M. 2022. Spent coffee waste: a sustainable source of cleansing agent for a high-performance makeup remover. Sustainable Chemistry and Pharmacy 29:100826

Franca AS, Oliveira LS, Oliveira RCS, Agresti PCM, Augusti R. 2009. A preliminary evaluation of the effect of processing temperature on coffee roasting degree assessment. Journal of Food Engineering 29:345−52

Kanlayavattanakul M, Lourith N. 2015. Volatile profile and sensory property of Gardenia jasminoides aroma extracts. Journal of Cosmetic Science 66:371−77

Flament I. 2001. Coffee flavor chemistry. West Sussex: John Wiley & Sons. 426 pp

Toledo PRAB, Pezza L, Pezza HR, Toci AT. 2016. Relationship between the different aspects related to coffee quality and their volatile compounds. Comprehensive Reviews in Food Science and Food Safety 15:705−19

Schenker S, Heinemann C, Huber M, Pompizzi R, Perren R, et al. 2002. Impact of roasting conditions on the formation of aroma compounds in coffee beans. Journal of Food Science 67:60−66

Caprioli G, Cortese N, Sagratini G, Vittori S. 2015. The influence of different types of preparation (espresso and brew) on coffee aroma and main bioactive constituents. International Journal of Food Sciences and Nutrition 66:505−13

Vezzulli R, Bertuzzi T, Rastelli S, Malazzi A, Lambri M. 2021. Sensory profile of Italian espresso brewed Arabica specialty coffee under three roasting profiles with chemical and safety insights on roasted beans. International Journal of Food Science and Technology 56:6765−76

Mojica BE, Fong LE, Biju D, Muharram A, Davis IM, et al. 2018. The impact of the roast levels of coffee extracts on their potential anticancer activities. Journal of Food Science 83:1125−30

Mehari B, Redi-Abshiro M, Chandravanshi BS, Combrinck S, Atlabachew M, et al. 2016. Profiling of phenolic compounds using UPLC-MS for determining the geographical origin of green coffee beans from Ethiopia. Journal of Food Composition and Analysis 45:16−25

Toci AT, Azevedo DA, Farah A. 2020. Effect of roasting speed on the volatile composition of coffees with different cup quality. Food Research International 137:109546

Pimpley V, Patil S, Srinivasan K, Desai N, Murthy PS. 2020. The chemistry of chlorogenic acid from green coffee and its role in attenuation of obesity and diabetes. Preparative Biochemistry & Biotechnology 50:969−78

Agunloye OM, Oboh G. 2018. Caffeic acid and chlorogenic acid: evaluation of antioxidant effect and inhibition of key enzymes linked with hypertension. Journal of Food Biochemistry 42:e12541

Matsuda E, Sakagami H, Amano S, Iijima Y, Sano M, et al. 2022. Inhibition of neurotoxicity/anticancer activity of bortezomib by caffeic acid and chlorogenic acid. Anticancer Research 42:781−90

Kamiyama M, Moon JK, Jang HW, Shibamoto T. 2015. Role of degradation products of chlorogenic acid in the antioxidant activity of roasted coffee. Journal of Agricultural and Food Chemistry 63:1996−2005

Khan F, Bamunuarachchi NI, Tabassum N, Kim YM. 2021. Caffeic acid and its derivatives: antimicrobial drugs toward microbial pathogens. Journal of Agricultural and Food Chemistry 69:2979−3004

Kalthoff S, Paulusch S, Rupp A, Holdenrieder S, Hartmann G, et al. 2020. The coffee ingredients caffeic acid and caffeic acid phenylethyl ester protect against irinotecan-induced leukopenia and oxidative stress response. British Journal of Pharmacology 177:4193−208

Kanlayavattanakul M, Lourith N. 2011. Therapeutic agents and herbs in topical application for acne treatment. International Journal of Cosmetic Science 33:289−97

Lourith N, Kanlayavattanakul M. 2013. Hair loss and herbs for treatment. Journal of Cosmetic Dermatology 12:210−22

Lourith N, Kanlayavattanakul M, Chaikul P. 2021. Para rubber seed oil: the safe and efficient bio-materials for hair loss treatment. Journal of Cosmetic Dermatology 20:2160−7

Kanlayavattanakul M, Lourith N. 2015. An update on cutaneous aging treatment using herbs. Journal of Cosmetic and Laser Therapy 17:343−52

Chaikul P, Lourith N, Kanlayavattanakul M. 2017. Antimelanogenesis and cellular antioxidant activities of rubber (Hevea brasiliensis) seed oil for cosmetics. Industrial Crops and Products 108:56−62

Laukaleja I, Koppel K. 2021. Aroma active compound perception in different roasted and brewed coffees by gas chromatography–olfactometry. Journal of Sensory Studies 36:e12708

Caporaso N, Whitworth MB, Cui C, Fisk ID. 2018. Variability of single bean coffee volatile compounds of Arabica and robusta roasted coffees analyzed by SPME-GC-MS. Food Research International 108:628−40

Yang N, Liu C, Liu X, Degn TK, Munchow M, et al. 2016. Determination of volatile maker compounds of common coffee roast defects. Food Chemistry 21:206−14