BEGIN:VCALENDAR VERSION:2.0 PRODID:-//wp-events-plugin.com//6.6.4.4//EN TZID:Asia/Jerusalem X-WR-TIMEZONE:Asia/Jerusalem BEGIN:VEVENT UID:1182@biotech.technion.ac.il DTSTART;TZID=Asia/Jerusalem:20260617T140000 DTEND;TZID=Asia/Jerusalem:20260617T150000 DTSTAMP:20260525T085256Z URL:https://biotech.technion.ac.il/events/%d7%a1%d7%9e%d7%99%d7%a0%d7%a8-% d7%a1%d7%99%d7%95%d7%9d-%d7%93%d7%95%d7%a7%d7%98%d7%95%d7%a8%d7%98-%d7%99% d7%95%d7%90%d7%99%d7%a0%d7%92-%d7%96%d7%90%d7%9f-%d7%9e%d7%94%d7%9e%d7%a2% d7%91%d7%93%d7%94/ SUMMARY:סמינר סיום דוקטורט: יואינג זאן\, מהמע בדה של פרופ"ח אבי שפיגלמן ופרופ"ח יגאל אכ מון DESCRIPTION:Research Topic: Ionic Liquid-Enabled Valorization of Tea Waste: Bioactive Recovery\, DownstreamProcessing\, and Bioconversion\nAbstract: ** Lecture will be given in English**\nTea waste (TW)\, a lignocellulosic- rich byproductgenerated during beverage processing of Camellia sinensis\, remains anunderutilized source of catechins\, caffeine\, phenolics\, and o ther functionalcompounds. However\, the efficient valorization of TW as a source of functionalingredients is constrained by its complex plant matrix \, the thermal sensitivityof many bioactive compounds\, and the need for e ffective downstream strategiesto recover target compounds from multi-compo nent extraction systems. This work investigatedan integrated ionic liquid (IL)-enabled approach to enhance the recovery\,handling\, transformation\, and monitoring of value-added compounds derived fromTW.\n1-Butyl-3-methyl imidazolium chloride (BMIMCl) and1-ethyl-3-methylimidazolium chloride (EMI MCl) were evaluated as alternativemedia to improve the accessibility and r ecovery of TW-derived bioactives. Theirroles were examined with respect to extraction efficiency\, compound stability\,matrix modification\, and dow nstream processing of IL-containing extracts.Beyond direct extraction\, th e approach was further extended to microbialsolid-state bioconversion\, wh ere IL-assisted systems were employed to promote transformationof the TW m atrix and enhance the recovery of functional fractions. Chemical\,structur al\, and volatile-profile-based analyses were applied to characterizeproce ss-dependent changes and to support interpretation of TW transformationacr oss different processing stages.\nThis study presents a broader framework for TWvalorization by integrating IL-mediated recovery\, downstream proces sing\,microbial bioconversion\, and process monitoring. The findings suppo rt thedevelopment of TW as a recoverable source of functional bioactive co mpoundswhile offering flexibility for the design of more sustainable and m onitorablewaste valorization processes. CATEGORIES:סמינרים END:VEVENT BEGIN:VTIMEZONE TZID:Asia/Jerusalem X-LIC-LOCATION:Asia/Jerusalem BEGIN:DAYLIGHT DTSTART:20260327T030000 TZOFFSETFROM:+0200 TZOFFSETTO:+0300 TZNAME:IDT END:DAYLIGHT END:VTIMEZONE END:VCALENDAR