繁殖技術實驗室
Research Field
My research centers on reproductive biology and environmental science. Core interests include assisted reproductive technologies, mechanisms of oocyte activation, and optimization of in vitro maturation systems. I investigate gamete cryopreservation methods to improve fertility preservation and genetic resource banking. Another focus is evaluating how environmental hormones and endocrine disruptors influence reproductive function across species. Complementary work on forage species identification supports habitat management and sustainable agriculture. I am also engaged in wildlife conservation research and applied environmental assessment, integrating laboratory, field, and analytical approaches to inform conservation strategies, policy development, and the responsible use of reproductive and environmental technologies worldwide.
Research Statement
My research integrates microbial fuel cells (MFCs) into environmental assessment frameworks to advance wildlife conservation and reproductive preservation. I employ MFC-based biosensing platforms to monitor environmental quality, with a particular focus on detecting endocrine-disrupting compounds that affect reproductive function. Data generated from these systems are integrated with advanced reproductive technologies—including oocyte activation, in vitro maturation, and germ cell cryopreservation—to support the conservation of wildlife genetic resources. In parallel, I use forage species identification to evaluate habitat quality and ecosystem sustainability. Collectively, this interdisciplinary work contributes to conservation-focused environmental monitoring, reproductive resilience, and biodiversity protection.
website of lab:https://bas.niu.edu.tw/index.php?Plugin=o_niu&Action=o_niutchdetail&niuid=yalin
2. Another Research Statement
My research investigates environmentally induced reproductive dysfunction through an integrative approach combining reproductive biology and bioelectrochemical monitoring. I employ microbial fuel cell (MFC) technology as a novel platform for detecting endocrine-active contaminants and assessing their impacts on gametogenesis, oocyte quality, and early developmental competence. By integrating MFC-based environmental monitoring with reproductive technologies—including oocyte activation, in vitro maturation, and germ cell cryopreservation—I aim to elucidate mechanisms by which environmental stressors compromise reproductive function and identify strategies to mitigate these effects.
Complementary analyses of forage species composition provide insight into ecological health, contaminant exposure pathways, and trophic interactions that influence reproductive outcomes. This interdisciplinary framework advances fundamental understanding of reproductive physiology under environmental stress, supports conservation of reproductive potential in wildlife and livestock, and informs strategies for mitigating environmentally mediated reproductive disorders.
Current position is an associate professor, and some working experience will be shown as follows:
https://bas.niu.edu.tw/index.php?Plugin=o_niu&Action=o_niutchdetail&niuid=yalin
PhD in Another Research Focus:
My PhD research centers on reproductive technologies, including oocyte activation, in vitro maturation, and gamete cryopreservation, with an emphasis on understanding how environmental hormones affect reproductive function. Complementary work on forage species identification, wildlife conservation, and ecosystem assessment integrates reproductive biology with environmental monitoring and conservation strategies.
Job Description
# Bio-Technollogy in biorenewable energy or related applications in reduced microgravity.
Preferred Intern Educational Level
# A PhD student will be better to support
Skill sets or Qualities
(1) Bio-Technology background
Job Description
- Using AI technology in bio-application under quasi-space condition but not limited to.
Preferred Intern Educational Level
- A senior PhD student will be better supported.
Skill sets or Qualities
- Bio-technology and related background.