Ultrathin two-dimensional (2D) materials are receiving great attention in recent years and search for new ultrathin materials is continued after the isolation of the graphene. The 2D materials have displayed a wide range of different extraordinary properties that considered groundbreaking for various fields. Borophene is another magical 2D material addition to the family of ultrathin materials. Theoretically explained borophene has come into realism after the successful synthesis of 2D triangular structure on the Ag substrates in 2015. Unlike boron, the borophene has displayed a high metallic character. Borophene is a great conductor of heat and electricity. Borophene has exhibited high anisotropy and great flexibility. Most of the work on borophene is still theoretical and very little experimental work is observed. This review provided the current status of borophene, synthesis, and applications. Borophene is extensively being explored in the field of gas storage, batteries, catalysis, and sensors. It can help to achieve powerful high-performance batteries by serving as an electrode material and it has an excellent capacity to sense various toxic gases. It is predicted that borophene has a powerful capacity to store hydrogen fuel and act as a catalyst. In the coming years, the rapid surge in the borophene research to experimentally utilize its catalytic, electronic, and mechanical features is anticipated.

近年来，超薄二维（2D）材料受到广泛关注，并且在隔离石墨烯之后继续寻找新的超薄材料。2D材料显示出各种不同的非凡特性，这些特性被认为是各个领域的开创性成果。Borophene是超薄材料系列中另一种神奇的2D材料。从理论上讲，在2015年成功在Ag基片上成功合成2D三角形结构后，硼烷已成为现实。与硼不同，硼烷具有很高的金属特性。硼苯是热和电的重要导体。硼硼烷具有较高的各向异性和很大的柔韧性。关于硼烷的大部分工作仍是理论上的，观察到的实验工作很少。这篇综述提供了硼苯，合成和应用的当前状态。在气体存储，电池，催化和传感器领域，正广泛地研究硼烯。通过用作电极材料，它可以帮助实现功能强大的高性能电池，并且它具有出色的检测各种有毒气体的能力。可以预见，硼烷具有强大的储存氢燃料和充当催化剂的能力。在未来的几年中，预计硼苯醚研究将迅速发展，以通过实验利用其催化，电子和机械特性。通过用作电极材料，它可以帮助实现功能强大的高性能电池，并且它具有出色的检测各种有毒气体的能力。可以预见，硼烷具有强大的储存氢燃料和充当催化剂的能力。在未来的几年中，预计硼苯醚研究将迅速发展，以通过实验利用其催化，电子和机械特性。通过用作电极材料，它可以帮助实现功能强大的高性能电池，并且它具有出色的检测各种有毒气体的能力。可以预见，硼烷具有强大的储存氢燃料和充当催化剂的能力。在未来的几年中，预计硼苯醚研究将迅速发展，以通过实验利用其催化，电子和机械特性。