In order to trace the evolution of ecigs, it’s helpful to understand the science of vaping and how it shaped modern vapor technology. Vaping has become part of our common language, a word that has taken on a stylized personality of the vaping subculture. The properties, uses and purposes of e-cigarettes in modern society have yet to completely take shape. To understand how vaping is shaping the future, we must understand its past.

The science of vaping began in 1963 as the inspiration of a heavy smoker named Herbert Gilbert. His original patent for the e-cig, though primitive, created the basis for the technology that followed. Gilbert’s device emitted a flavored vapor without nicotine, though it was designed to vaporize unspecified “medicine”.

Society would have to wait over 40 years before Gilbert’s dream would revolutionize how the world got its nicotine through the science of vaping. At the time e-cigarettes first appeared as a consumer product in the United States, potential users were admittedly skeptical of them. As a result, the development of the tech we’re familiar with now was developed slowly at first, at least until users realized how beneficial they were.

All modern vape technology has evolved out of a single patent for the simple cig-a-like created by Herbert Gilbert the father of vaping.

In 2003, a Chinese pharmacist named Hon Lik filed his own patent for what the world is now familiar with as the modern e-cigarette. Without delay, he began marketing this revolutionary device he called the e-cigar just a year later. E-cigars trickled into the world markets slowly, gathering a scattered but loyal following.

Hon Lik’s e-cigar generated vapor using a unique ultrasonic electrical vapor system. E-cigars were the first devices to offer nicotine as an integral component of the vapor. In fact, this revolutionary decision would jumpstart the evolution and science of vaping. Lik’s innovative system would bring e-cigs to the cutting edge of technology in just a few short years.

Initially, the e-cigar was met with as much enthusiasm, as paranoia and rumor. New and largely untested consumer products set off red flags to government watchdogs and oversight committees. However, a core group of dedicated vapers believed greatly in the future of electronic cigarettes. They would form a framework for a community of inventors and innovators that eventually shaped the present day vape community and outlined the science of vaping.

Modern vaping has seen the technology evolve rapidly from the simple cig-a-like to the vape pen and eventually the box box by way of intrepid innovators looking for more power

The Science Of Vaping Evolves

By 2007, devotees of this new vaping system were looking for a more robust vapor experience. Two British entrepreneurs, Umer and Tariq Sheikh pioneered a technology that would become the basis for the first cartomizer. They replaced Hon Lik’s prototype power system with a lithium ion battery. This new system of an e-liquid cartridge or tank vaporized by a series of coils introduced the cig-a-like to the consumer market.

Additionally, The Sheikhs are attributed with being the first to create what would later be referred to as a vape mods. As a result, a subculture of inventive vapers would use the moment as a precedent for improving on the original design. In turn, they gave birth to an industry that encouraged small business growth and scientific entrepreneurs which led to a skyrocket in both technological growth and a burgeoning industry.

With the introduction of cig-a-likes to the vaping public, it didn’t take long for Americans to figure out how to bring more power to their e-cig experience. Through shared knowledge on message boards and discussion forums, DIY designers and builders reached out to share knowledge of the science of vaping they’d learned through experimentation.

The House That Vaping Built

With the growth of the science of vaping, users turned to the closest resource they had to a clubhouse; online discussion boards. These forums provided inquisitive vapers with the principles for constructing experimental power mods, a similar platform of adaptation and upgrading to online hot rod and internet code language comment boards. The internet became their gathering space to discuss the adaptation of technology, the science of flavor and the pursuit of clouds.

Vapers built a community between e-cig users divided by distance and isolation seeking advice. This online resource offered ingenuity and proven methods and for getting more vapor and more flavor from their devices. This collective of amateur engineers and collaborative chemists took their passion for vaping and involved curious newcomers in the conversation. Consequently, they Instantly created an atmosphere of inclusiveness and encouragement for new users, a facet of vaping that endures through vape shops and gatherings to this day.

How Vaping Works

Users draw on the mouthpiece or drip tip of an e-cig which activates the battery. The resulting activation sends power from a battery to the heating element or coil. In step, the coil heats the e-liquid which is fed to a cotton wick from an ejuice reservoir. The wick is an absorbent fabric that soaks up the e-liquid preparing it for atomization. Accordingly, the heat generated then atomizes it into vapor which is fed through the device to the user.

The process sounds a lot more complicated than it is because there are a lot of working parts. However, all actions happen in one “fluid” action (pun intended). For instance, the forward motion of sailboats works similarly. A sail, collects energy from the movement of air. By focusing this air, a sail transfers it to propulsion. Consequently, the resulting movement creates a byproduct of wake, or the trails of small ripples that follow.

E-cigarettes function similarly to the sail, the major difference of course being one results in propulsion and the other in vapor. That being said, the core principles of the science of vaping remain about the transference of energy from one form into another. Vaping is the conversion of air into infused vapor while sailing is the transference of air into forward movement.

The way modern vaping technology functions is a concerto of components that each function independently in a chain reaction of liquid vape juice into a flavored vapor

Modern Vaping Technology

Smart devices have quickly become a fixture in the routine of everyday society. The science of vaping technology has reaped the trickling benefits of advancements in compact, adaptive tech. It has responded with devices that feature fully programmable Bluetooth technology that allow you to personalize your mods and vaping experience in close calculation.

As a result, the evolution of e-cigs and the science of vaping has been consistently on the cutting edge of technological advancements. Accordingly, this in turn helps to develop precise functionality and focused output as manufacturers interpret the popularity and feedback of users. Recently released box mods have offered intuitive programming that sense the resistance of coils attached. These ‘smart mods’ are able to adjust their power output for optimized efficiency and guaranteed safety. Intuitive programming that protects users from harmful conditions are not a new concept, but the accuracy of their internal functions get better all the time.

The evolution and science of vaping has made grand strides over a short period of time. Consequently, it’s popularity has grown and attracted a loyal following of vapers. Without the science of vaping behind the devices and technology, vaping would not likely have the prominent place in society which it enjoys.

It is rare to see a new trend pick up momentum as quickly as vaping has and maintain a dedicated demographic of followers. It’s ability to combine scientific breakthroughs with an activity people enjoy has made it a fixture of modern society that isn’t likely to disappear any time soon. The more people embrace vaping and its benefits, the more the science and technology will improve in return.