cryogenically

简明释义

英[kraɪəʊˈdʒɛnɪkli]美[kraɪəˈdʒɛnɪkli]

adv. 低温地，冷冻地

英英释义

单词用法

同义词

反义词

例句

1.The company then stores the copies cryogenically, popping them into the ground when needed to produce seedlings that then are sold to timber companies.

赛尔福公司然后将这些复制的胚胎以低温储存起来，在需要秧苗的时候将这些胚胎植人地里以售给木材公司。

2.The couple met in 1994 on an Internet newsgroup devoted to urban legends like the one about Walt Disney's body being cryogenically frozen after his death.

1994年，他们同在一个网络新闻组，调查华特·迪斯尼（迪斯尼的创始人）死后尸体被低温冷冻的真相。

3.We love her because she has a "BS Alert" on her website to squash the almost daily rumors of new pregnancies, marriages, or demands to someday be cryogenically frozen.

我们爱她，因为她有一种“本科以上的警告”，在自己的网站上的谣言壁球几乎每天新怀孕期间，婚姻，或要求有一天会成为以很低温度冻结。

4.We love her because she has a "BS Alert" on her website to squash the almost daily rumors of new pregnancies, marriages, or demands to someday be cryogenically frozen.

我们爱她，因为她有一种“本科以上的警告”，在自己的网站上的谣言壁球几乎每天新怀孕期间，婚姻，或要求有一天会成为以很低温度冻结。

5.It combines the high-resolution capability of cryogenically cooled semiconductors, with the ambient-temperature operation capability of scintillators.

它结合了深冷冷却半导体的高清晰度能力，在闪烁常温操作能力。

6.Researchers are studying how cryogenically treated materials behave under stress.

研究人员正在研究低温冷冻处理的材料在压力下的表现。

7.Many organs are cryogenically frozen for future transplant procedures.

许多器官被低温冷冻以便未来的移植手术。

8.In the food industry, some products are cryogenically frozen to lock in freshness.

在食品行业，一些产品被低温冷冻以保持新鲜。

9.The scientists stored the samples cryogenically to preserve their integrity over time.

科学家们将样本低温冷冻保存，以保持其完整性。

10.The preservation of genetic material often requires cryogenically freezing cells.

遗传物质的保存通常需要将细胞低温冷冻。

作文

In recent years, the field of science has made significant advancements in various areas, one of which is the study of cryogenics. Cryogenics refers to the branch of physics that deals with the production and effects of very low temperatures. When materials are cooled to these extreme temperatures, they exhibit unique properties that can be harnessed for a variety of applications. One of the most fascinating aspects of this field is the process of storing biological specimens cryogenically (低温保存). This method involves cooling biological samples to temperatures below -150 degrees Celsius, effectively halting all biological activity and preserving them for future research or medical use.The ability to store cells, tissues, and even whole organisms cryogenically (低温保存) has opened up new possibilities in medicine and biology. For instance, scientists can preserve stem cells for regenerative medicine, allowing for potential treatments for diseases that currently have no cure. The preservation of genetic material cryogenically (低温保存) also plays a crucial role in biodiversity conservation efforts, as it enables the long-term storage of endangered species' genetic resources.Moreover, cryogenically (低温保存) freezing organs for transplantation is another groundbreaking application. Traditionally, organ preservation has been a significant challenge due to the limited time frame in which an organ remains viable after removal from a donor. However, with cryogenic (低温的) techniques, researchers are exploring ways to extend the viability of organs, potentially saving countless lives by making more organs available for transplant.The implications of cryogenically (低温保存) stored biological materials extend beyond just immediate medical applications. In the realm of space exploration, for example, scientists are investigating the possibility of cryogenically (低温保存) freezing human embryos for long-duration space missions. This could allow for the potential colonization of other planets, as crew members could preserve their genetic material for future generations.However, the practice of cryogenically (低温保存) preserving biological specimens is not without its ethical considerations. Questions arise regarding the implications of reviving organisms that have been frozen for extended periods. Furthermore, the ownership and rights associated with preserved genetic material are topics of ongoing debate within the scientific community.In conclusion, the study of cryogenics and the ability to preserve biological specimens cryogenically (低温保存) is a remarkable advancement in science. It holds great promise for medicine, conservation, and even space exploration. As we continue to explore the potential of this technology, it is essential to navigate the ethical considerations that accompany such powerful capabilities. The future of cryogenics is bright, and its applications may very well change the course of human history.

近年来，科学领域在各个方面取得了重大进展，其中之一是对低温技术的研究。低温技术指的是研究非常低温的产生及其影响的物理学分支。当材料被冷却到这些极端温度时，它们会表现出独特的特性，可以用于各种应用。这个领域最引人注目的方面之一是生物样本的低温保存过程。这种方法涉及将生物样本冷却到-150摄氏度以下，有效地停止所有生物活动，并将其保存以供未来研究或医学使用。以低温保存细胞、组织甚至整个生物体的能力为医学和生物学开辟了新的可能性。例如，科学家可以保存干细胞用于再生医学，为目前没有治愈方法的疾病提供潜在治疗方案。低温保存遗传物质在生物多样性保护工作中也发挥着重要作用，因为它使得濒危物种遗传资源的长期存储成为可能。此外，低温保存器官移植也是另一个突破性的应用。传统上，器官保存一直是一个重大挑战，因为在从捐赠者体内取出后，器官保持可用的时间有限。然而，随着低温技术的发展，研究人员正在探索延长器官可用性的方式，这可能通过提供更多可供移植的器官来拯救无数生命。低温保存生物材料的影响不仅限于直接的医学应用。在太空探索领域，例如，科学家正在研究在长时间太空任务中低温保存人类胚胎的可能性。这将使得潜在的其他星球殖民成为可能，因为船员可以保存他们的遗传物质以供未来几代人使用。然而，低温保存生物样本的做法并非没有伦理考虑。关于复活被冷冻较长时间的生物体的含义的问题浮出水面。此外，关于保存的遗传物质的所有权和权利也是科学界持续辩论的话题。总之，低温技术的研究以及低温保存生物样本的能力是科学中的一项显著进展。它为医学、保护和甚至太空探索带来了巨大的希望。随着我们继续探索这项技术的潜力，必须妥善处理伴随如此强大能力的伦理考量。低温技术的未来光明，其应用可能会改变人类历史的进程。